EP2050171B1 - Spark plug with reduced physical volume - Google Patents

Abstract

The present invention relates to a spark plug for an internal combustion engine, comprising an electrical connecting means (8) at a connection-side end (11), an end (10) on the combustion-chamber side and pointing towards a combustion chamber, an insulator (2) and a housing (3) with a thread (4) for attaching the spark plug to an engine component, with a first sealing area (20) and a second sealing area (21) being formed between the insulator (2) and the housing (3), with the first sealing area (20) being arranged closer to the connection-side end (11), and with the second sealing area (21) being arranged closer to the end (10) on the combustion-chamber side, with a tool engagement area (6) being arranged adjacent to an area (L1) of the spark plug which is located between the connection-side end (11) and the first sealing area (20) in order to transmit a torque to the spark plug in order to fit or to move the spark plug.

Description

State of the art

The present invention relates to a spark plug for an internal combustion engine according to the preamble of patent claim 1.

Spark plugs for internal combustion engines are known from the prior art in different configurations. For example, is from the DE 199 40 455 A1 a spark plug is known, which has a tubular, metallic housing with a screw-in thread impressed thereon. In order to have as little as possible corrosion, at least a part of the metallic housing is provided with a galvanic coating as protection. However, due to recent engine developments, the available space for a spark plug becomes increasingly smaller. Modern engines have multiple valves, usually between four and five valves per cylinder. In order to obtain a better filling and thus improved performance, in particular larger intake valve diameters are desirable. Furthermore, the higher power densities require larger cooling channels. In direct fuel injection engines, additional space is required for at least one injector. Thus, the space available per cylinder for a spark plug is getting smaller. However, since the spark plug as a wearing part has to be replaced after a certain number of hours of use, it must be arranged interchangeably on the cylinder. For this purpose, the known spark plugs on a thread and a hexagonal engagement surface on the outer housing of the spark plug, wherein on the hexagonal attack surface usually a tool with key width 16 can be attached. Since the tool itself encloses the housing outside and has a standardized outer diameter, the space for the spark plug must be designed depending on the maximum outer diameter of the tool. Therefore, a certain space must also be provided for a tool attack.

Advantages of the invention

In contrast, the spark plug according to the invention with the features of claim 1 has the advantage that its diameter can be significantly reduced in comparison with the conventional spark plugs. Thereby, the entire spark plug can be made slimmer and in particular the necessary space for the spark plug can be reduced. Furthermore, it is possible according to the invention to reduce a space previously required in the prior art for a tool for mounting or dismounting the spark plug. Thus, the total space required for the spark plug space, comprising the space for the spark plug and for a tool, especially in the direction of the combustion chamber end of the spark plug is reduced. This makes it possible to enable a significantly improved arrangement of the spark plug on a cylinder head. This is achieved according to the invention in that a tool engagement region on which a tool for assembling or disassembling the spark plug engages is disposed on a region of the spark plug which lies between a connection-side end of the spark plug and a first sealing region between an insulator and a housing, starting from the connection end to the combustion chamber end of the spark plug. Between the insulator and the housing of the spark plug, there is usually the first sealing area, which is closer to the connection-side end, and a second sealing area, which is closer to the combustion chamber. Thus, the tool engagement portion is displaced toward the terminal end of the spark plug. In the prior art, a tool engagement region, due to the structure of the spark plug, has always been arranged between the first and second sealing regions. By the present invention, it is now possible to form a combustion chamber side region of the spark plug very narrow and with a small diameter. Furthermore, according to the invention, a space requirement for a tool can be significantly reduced.

The dependent claims show preferred developments of the invention.

More preferably, the condition caused by the spark plug maximum outer diameter of the housing of the spark plug is greater than or equal to a diameter of a tool engagement region. In this case, for example, a diameter of about 16 mm can be used for the housing of the spark plug and for the tool engagement area a significantly reduced diameter. It should be noted that the tool engagement region is preferably arranged on the housing, wherein the housing in the direction of the connection side Spark plug end is extended beyond the second sealing region and the tool engagement region is arranged on this extension.

The tool engagement region is preferably formed as a hexagon. This can be done with a standard tool and a wrench or similar. a change of the spark plug can be made. Particularly preferably, the hexagon has a key width of 12 or 13.

According to another preferred embodiment of the invention, the tool engagement region comprises a sleeve region with a tool engagement means. The tool engagement means is preferably a groove or a bore. Thus, such a spark plug can be assembled or disassembled with a tool complementary to the tool engagement means. As a result, the spark plug can be mounted or dismounted with a particularly narrow tool, which is attached in the axial direction of the spark plug.

According to another preferred embodiment of the present invention, the tool engagement region is arranged on an electrical connection means of the spark plug. The electrical connection means lies at the connection-side end of the spark plug and thus has a dual function, namely the provision of the electrical connection as well as a function as a tool engagement region. As a result, it is possible to dispense with the formation of a separate component with a tool engagement region.

The tool engagement region on the electrical connection means is preferably formed on a connection bolt of the spark plug. Particularly preferably, the tool engagement region is formed on an end face of the connecting bolt directed towards the end of the spark plug. The tool engagement region may be, for example, a recess for engagement with a screwdriver or Allen key, or an asymmetrically arranged bore for engagement with a special tool. It is also conceivable that at the end of the connecting bolt a hexagon o.Ä. is provided. The tool engagement region can also have a Torx geometry, for example, which has the advantage of better manufacturability compared to a hexagon socket. By this measure according to the invention a point of attack for a tool on the spark plug is further removed from the combustion chamber end of the spark plug, so that the necessary space for a tool can be further reduced.

Alternatively, the tool engagement means may also be provided laterally on the electrical connection means. The tool engagement means is particularly preferably designed as a groove or bore.

The present invention is applicable to all types of spark plugs, particularly conventional spark plugs with electrodes or laser spark plugs. By shifting the point of application of a tool from the combustion chamber side half to the connection side half of the spark plug, in particular, a necessary installation space for the tool can thus be reduced. This allows the provision of a particularly slim and optimized in terms of their external dimensions spark plug.

drawing

Figur 1

eine schematische, teilweise geschnittene Seitenansicht einer Zündkerze gemäß einem ersten Ausführungsbeispiel der vorliegenden Erfindung.

Figuren 2a und 2b

schematische Ansichten einer Zündkerze gemäß einem zweiten Ausführungsbeispiel der vorliegenden Erfindung,

Figuren 3a und 3b

schematische Ansichten einer Zündkerze gemäß einem dritten Ausführungsbeispiel der vorliegenden Erfindung,

Figur 4

eine schematische Ansicht eines elektrischen Anschlussmittels für eine Zündkerze gemäß einem vierten Ausführungsbeispiel der vorliegenden Erfindung und

Figuren 5a und 5b

schematische Ansichten eines Anschlussmittels für eine Zündkerze gemäß einem fünften Ausführungsbeispiel der vorliegenden Erfindung.

Hereinafter, preferred embodiments of the invention will be described with reference to the accompanying drawings. In the drawing is:

FIG. 1

a schematic, partially sectioned side view of a spark plug according to a first embodiment of the present invention.

FIGS. 2a and 2b

schematic views of a spark plug according to a second embodiment of the present invention,

FIGS. 3a and 3b

schematic views of a spark plug according to a third embodiment of the present invention,

FIG. 4

a schematic view of an electrical connection means for a spark plug according to a fourth embodiment of the present invention and

FIGS. 5a and 5b

schematic views of a connection means for a spark plug according to a fifth embodiment of the present invention.

Description of the embodiments

The following is with reference to FIG. 1 a spark plug 1 according to a first embodiment of the present invention described.

As in FIG. 1 1, the spark plug 1 includes an insulator 2 and a housing 3 made of metal. The electrode portion of the spark plug includes electrodes 9a and 9b disposed on the combustion chamber side end 10 of the spark plug 1. The combustion chamber side End of the electrode is defined by the ground electrode. The spark plug 1 further comprises a housing 3 which is made of a metal, and on which a thread 4 is provided integrally for screwing into a correspondingly formed thread in an engine component. A middle housing section 5 of the housing 3 has, in a known manner, an upsetting and warming stocking zone 5a. Furthermore, a tool engagement area 6 is integrally formed on the housing 3. The spark plug 1 further comprises a connecting bolt 7, which is arranged in a known manner in the interior of the insulator 2 and is connected, for example via an electrically conductive glass melt and in some cases a contact pin with the center electrode 9a.

The spark plug 1 thus comprises a combustion-chamber-side end 10 in the region of the electrodes 9a, 9b and a connection-side end 11 in the region of a connection-side end element 8. The end element 8 can be, for example, a connection nut screwed onto a thread of the connection bolt 7 or alternatively designed as a plug-in element , which is formed integrally with the connecting bolt 7. At the connection-side end element 8, an ignition cable is then fastened in a known manner.

Between the housing 3 and the insulator 2, a first sealing area 20 and a second sealing area 21 are further provided. How out FIG. 1 it can be seen, the housing encloses the insulator 2, wherein the first sealing region 20 is arranged closer to the connection-side end 11 of the spark plug and the second sealing region 21 is arranged closer to the combustion chamber.

How out FIG. 1 it can be seen, the tool-engaging portion 6 is arranged at the connection-side end of the housing 3. For this purpose, the housing 3 is extended over the first sealing region 20 in the direction of the connection-side end 11. The tool engagement region 6 is thus arranged in a region L1 between the first sealing region 20 and the connection-side end 11 of the spark plug 1. In FIG. 1 L is the total length of the spark plug. This makes it possible that the housing 3 no longer has to have a maximum diameter for a tool for mounting / dismounting the spark plug 1, but it may have a maximum diameter D1 corresponding to the functional requirements of the spark plug, in particular thickness of the insulation. Since the tool-engaging portion 6 is relatively far away from the combustion chamber end 10 and is disposed on a portion of the spark plug with reduced outer diameter, the maximum diameter of the tool-engaging portion can be significantly reduced, in particular on key widths 12 or 13 at thread M14 and insulator head diameter of 10.5 mm. This reduces the outer diameter of the tool and thus the required radial space requirement in the engine component.

In addition, the tool attack area of the combustion chamber end 10 is relatively far away. In the engine only enough space must be available radially to this area to accommodate the tool for mounting and dismounting the spark plug. In the area between the tool engagement area and the outer sealing point 22, the installation space required for the spark plug in the engine is predetermined only by the diameter of this sealing point 22. In FIG. 1 the tool engagement region 6 is shown with a significantly reduced diameter D2. The diameter D2 corresponds in particular to a diameter of a tool with a key width 12 or 13.

The tool engagement region 6 is formed integrally with the housing 3 in this embodiment. It should be noted, however, that the tool-engaging portion 6 can be prefabricated as a separate part and can be connected to the housing 3 with the housing 3, for example by welding or soldering or gluing or caulking with the housing 3.

As further out FIG. 1 it can be seen, no additional space for a tool, which is necessary for mounting / demounting of the spark plug 1 at a combustion chamber side region L2 of the spark plug in the immediate vicinity of the spark plug. The necessary space for a tool that is placed in the axial direction XX of the spark plug, must be provided only in the vicinity of the tool attack area 6 and thus lies exclusively in the area L1 between the first sealing portion 20 and the connection-side end 11 of the spark plug 1. Thus According to the invention, the tool engagement region 6 is arranged in a connection-side half of the spark plug. As a result, no additional radial installation space for a tool is to be provided on the combustion chamber side region L2 of the spark plug 1, so that other devices arranged on the combustion chamber, such as intake valves, exhaust valves, injection devices, etc., can be arranged closer to the spark plug.

The following is with reference to the FIGS. 2a and 2b a spark plug 1 according to a second embodiment of the invention described in detail. Identical or functionally identical parts are denoted by the same reference numerals as in the first embodiment.

In contrast to the first exemplary embodiment, the spark plug 1 of the second exemplary embodiment has an alternatively formed tool engagement region 6. How out the FIGS. 2a and 2b can be seen, the tool-engaging portion 6 is formed by a sleeve-like portion 12 which is integrally formed with the housing 3. The sleeve-like region 12 is arranged in the direction of the combustion chamber end 11 again after the first sealing region 20. In the annular sleeve-like portion 12, a bore 13 is formed, which serves for receiving a correspondingly designed mounting tool (not shown). When the assembly tool is attached to the annular, sleeve-like region 12, a torque can thus be transmitted to the spark plug 1 via a projecting element of the tool projecting into the bore 13 and the bore 13. This assembly or disassembly of the spark plug is easily possible. The annular sleeve portion 12 can be provided particularly simple and inexpensive. Preferably, the outer diameter of the tool is smaller than the maximum outer diameter of the plug housing. In the engine then no additional space for the tool is necessary. Otherwise, this embodiment corresponds to the first embodiment, so that reference may be made to the description given there.

The following is with reference to the FIGS. 3a and 3b a spark plug 1 according to a third embodiment of the invention described. Identical or functionally identical parts are again denoted by the same reference numerals as in the first embodiment.

The third embodiment substantially corresponds to the second embodiment, wherein in the third embodiment, a radial groove 14 is formed on an annular sleeve portion 12, which is integrally formed with the housing 3. Like the bore 13 of the second embodiment, the radial groove 14 of the third embodiment is used to transmit a torque applied to a complementarily shaped tool (not shown) to the spark plug 1. Otherwise, this embodiment corresponds to the previous embodiments, so that reference is made to the description given there can.

The following is with reference to FIG. 4 a spark plug according to a fourth embodiment of the invention described. Identical or functionally identical parts are designated by the same reference numerals as in the preceding embodiments.

The spark plug of the fourth embodiment has a tool engaging portion 6 which is disposed directly on the terminal side end 11 of the spark plug. The connecting bolt 7 in this case has a connection-side end element 8, which is formed integrally with the connecting bolt 7. Alternatively, the connecting bolt could also be screwed on or caulked. In the connection-side end element 8, a groove 15 is provided, via which a torque can be transmitted to the spark plug 1 by means of a suitably designed tool. The groove 15 extends over the entire diameter of the connection-side end of the end element 8. A tool corresponding to the groove 15 may be, for example, a normal slot screwdriver.

Thus, in the fourth embodiment, the tool engaging portion 6 is disposed at the terminal end 11 of the spark plug. As a result, a space required for the spark plug along the entire circumference of the spark plug, in particular for a tool for changing the spark plug can be saved. As a result, a particularly slim and only a small outer diameter having spark plug can be provided. Otherwise, this embodiment corresponds to the previous embodiments, so that reference can be made to the description given there.

The following is with reference to the FIGS. 5a and 5b a spark plug according to a fifth embodiment of the invention described, wherein identical or functionally identical parts are denoted by the same reference numerals as in the preceding embodiments.

The fifth embodiment substantially corresponds to the fourth embodiment, wherein in the fifth embodiment, a tool-engaging portion 6 is arranged laterally on a terminal-side end member 8 of the spark plug. More specifically, the tool-engaging portion 6 is formed with a lateral groove 16 on a support surface 8 a of the end member 8. The end element 8 is again formed in one piece with the connecting bolt 7. A torque is also applied to the spark plug again with a complementary to the lateral groove 16 and formed in the end member 8 tool. Otherwise, this embodiment corresponds to the previous embodiments, so that reference can be made to the description given there.

The connection-side end element 8 comprises a radially projecting support surface 8a, with which the end element bears against the insulation 2 of the spark plug 1.

Claims (11)

1. Spark plug for an internal combustion engine, comprising an electrical connecting means (8) at a connection-side end (11), a combustion-chamber-side end (10) which is directed toward a combustion chamber, an insulator (2) and a housing (3) with a thread (4) for attaching the spark plug to an engine component, wherein a first sealing region (20) and a second sealing region (21) are formed between the insulator (2) and the housing (3), wherein the first sealing region (20) is arranged closer to the connection-side end (11), and the second sealing region (21) is arranged closer to the combustion-chamber-side end (10), characterized in that a tool engagement region (6) for transmitting a torque to the spark plug in order to install or remove the spark plug is arranged at a region (L1) of the spark plug which is located between the connection-side end (11) and the first sealing region (20).
2. Spark plug according to Claim 1, characterized in that a maximum diameter (D1) of the housing (3) is greater than or equal to a maximum diameter (D2) of the tool engagement region (6).
3. Spark plug according to one of the preceding claims, characterized in that the tool engagement region (6) is embodied as a polygon, in particular hexagon, in particular with a key width of 12 or 13.
4. Spark plug according to either of Claims 1 and 2, characterized in that the tool engagement region (6) comprises a sleeve region (12) with a tool engagement means (13, 14).
5. Spark plug according to Claim 4, characterized in that the tool engagement means is at least one drilled hole (13) and/or at least one groove (14).
6. Spark plug according to one of the preceding claims, characterized in that the tool engagement region (6) is integrally formed onto the housing (3) of the spark plug.
7. Spark plug according to Claim 1, characterized in that the tool engagement region (6) is arranged on an electrical connecting means (8) arranged at the connection-side end (11).
8. Spark plug according to Claim 7, characterized in that the tool engagement region is arranged on an end element (8) of a connecting bolt (7).
9. Spark plug according to Claim 7 or 8, characterized in that the tool engagement region (6) comprises a tool engagement means (15), in particular a groove and/or a drilled hole, on a connection-side end face of the spark plug.
10. Spark plug according to one of Claims 7 to 9, characterized in that the tool engagement region comprises, on the side of a connection-side end element (8), a tool engagement means (16), in particular a radial groove.
11. Spark plug according to one of the preceding claims, characterized in that the spark plug has electrodes (9a, 9b) at the combustion-chamber-side end, or in that the spark plug is a laser spark plug.

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