DE102016122007A1 - Method for producing a connecting rod - Google Patents

Abstract

A method of making a connecting rod (10) with adjustable effective connecting rod length, the connecting rod (10) comprising at least: a crank bearing eye (11) and a connecting rod eye (12) connecting rod main body and an eccentric adjusting device (13) for adjusting the effective connecting rod length wherein the eccentric adjusting device (13) comprises the following components: an eccentric lever (14) having at least one eccentric lever segment (38, 39), wherein that or each eccentric lever segment (38, 39) seen in the axial direction of the eccentric (36) and / or behind the connecting rod eye (12) is positioned, one with the eccentric lever (14) cooperating eccentric (36), wherein the or each eccentric lever segment (38, 39) of the eccentric lever (14) rotatably connected to the eccentric (36), Eccentric rods (15, 16) which engage the eccentric lever (14), wherein the eccentric rods (15, 16) in hydraulic chambers (22, 23) of the connecting rod protrude ngrundkörpers and are guided in the same mobile.

Description

The invention relates to a method for producing a connecting rod.

1 shows one from the DE 10 2010 016 037 A1 known connecting rod 10 of an internal combustion engine with an adjustable compression ratio. In the 1 shown connecting rod 10 has a Hublagerauge 11 and a connecting rod bearing eye 12, wherein the Hublagerauge 11 of the connection of the connecting rod 10 to an in 1 not shown crankshaft and the connecting rod bearing eye 12 of the connection of the connecting rod 10 to an in 1 not shown cylinder piston is used. The connecting rod 10 is associated with an eccentric adjusting device 13 which has a in 1 eccentric, not shown, an eccentric lever 14 and eccentric rods 15, 16 has. The eccentric lever 14 has an eccentric to a center 17 of the connecting rod bearing eye 12 arranged bore with a center 18, wherein the bore in the eccentric lever 14 receives the eccentric and a bore in the eccentric a piston pin. The eccentric adjusting device 13 is used to adjust an effective connecting rod leff length, which is to be understood as a connecting rod length of the distance of the center 18 of the bore in the eccentric lever 14 to a center 19 of the lifting eye 11. To rotate the eccentric body 14 and thus to change the effective connecting rod length l _eff , the eccentric rods 15, 16 of the eccentric adjusting device 13 are displaceable. Each eccentric rod 15, 16 is associated with a piston 20, 21, which is displaceably mounted or guided in a hydraulic chamber 22, 23. In the hydraulic chambers 22, 23 there is a hydraulic pressure acting on the eccentric rods 15, 16 associated piston 20, 21, wherein depending on the amount of oil in the hydraulic chambers 22, 23, the displacement of the eccentric rods 15, 16 is possible or not possible.

The adjustment of the eccentric adjusting device 13 is initiated by the action of mass and load forces of the internal combustion engine, which act on the eccentric adjusting device 13 during a working cycle of the internal combustion engine. During a working cycle, the directions of action of the forces acting on the eccentric adjusting device 13 are constantly changing. The adjustment is supported by the acted upon by hydraulic oil piston 20, 21, which act on the eccentric rods 15, 16, wherein the pistons 20, 21 prevent the eccentric adjusting device 13 resetting due to varying directions of force acting on the eccentric adjusting 13 forces , The eccentric rods 15, 16, which cooperate with the pistons 20, 21, are connected on both sides to the eccentric body 14. The hydraulic chambers 22 and 23, in which the pistons 20, 21 are guided, can be acted upon via hydraulic oil lines 24 and 25 from the Hublagerauge 11 with hydraulic oil. Check valves 26 and 27 prevent backflow of the hydraulic oil from the hydraulic chambers 23 and 24 back into the hydraulic lines 24 and 25. In a bore 28 of the connecting rod 10, a switching valve 29 is received, wherein the switching position of the switching valve 29 determines which of the hydraulic chambers 22 and 23 filled with hydraulic oil and which of the hydraulic chambers 22 and 23 is emptied, whereby the adjustment direction or direction of rotation of the eccentric adjusting device 13 depends. The hydraulic chambers 22 and 23 are in this case via fluid lines 30 and 31 with the bore 28 in contact, which receives the switching valve 29. From the switching valve 29 are in 1 an actuating means 32, a spring device 33 and a control piston 34 shown schematically, the function of these components of the switching valve 29 already from the DE 10 2010 016 037 A1 is known.

2 to 4 shows one from the DE 10 2013 014 090 A1 known connecting rod 10 of an internal combustion engine with an adjustable compression ratio. To avoid repetition, the same reference numerals are used for functionally identical assemblies or components, wherein the structural design thereof may be different. The connecting rod 10 has an eccentric adjusting device 13 for adjusting the effective connecting rod length. The eccentric adjusting device 13 has an eccentric 36, an eccentric lever 14 and eccentric rods 15, 16 which are displaceable depending on a prevailing in the cooperating with the eccentric hydraulic chambers hydraulic pressure for adjusting the compression ratio. The cooperating with the eccentric rods 15, 16 hydraulic chambers can be supplied starting from the Hublagerauge 11 of the respective connecting rod with hydraulic oil. The adjustment of the eccentric adjusting device is in turn initiated by the action of mass and load forces of the internal combustion engine. The eccentric lever 14 has a bore for receiving the eccentric 36, wherein the eccentric 36 has a bore 37 which serves to receive a so-called piston pin. The eccentric lever 14 has according to 2 to 4 vorzugswiese two Exzenterhebelsegmente 38 and 39, wherein seen in the axial direction of the eccentric 36 on both sides of the Pleuellagerauges 12 before and behind the same in each case an eccentric lever segment 38, 39 is positioned. This is how best 2 can be removed, the Pleuellagerauge 12 disposed between the two eccentric lever segments 38, 39 of the eccentric lever 14. The eccentric lever segments 38, 39 of the eccentric lever 14 are rotatably connected to the eccentric 36 in particular by welding, wherein in 3 in dashed lines a preferably in the circumferential direction the eccentric 36 circumferential connecting portion 40 between the visible there eccentric lever segment 38 and the eccentric 36 is shown.

According to 2 to 4 the two eccentric lever segments 38, 39 of the eccentric lever 14 are formed as individual components, which are connected to each other at lateral ends via a connecting pin 41, 42. At this connecting pin 41, 42 engage the eccentric rods 15, 16 articulated, namely to form a hinge joint between the eccentric rods 15, 16 and the two eccentric lever segments 38, 39 connecting connecting pin 41, 42nd

To the in 2 to 4 shown connecting rod 10, a plurality of components must be mounted on the connecting rod main body, wherein the eccentric lever 14 must be integrally connected to the eccentric 36, for example by welding. Because of the high number of components subject to tolerances, the effective connecting rod length which can be provided by such a connecting rod 10 is subject to relatively large tolerances due to the system itself. This is a disadvantage. There is a need for a method for producing a connecting rod with adjustable effective connecting rod length, by means of which a tolerance-optimized production of the connecting rod is possible.

The object of the invention is to provide a novel method for the tolerance-optimized production of a connecting rod with adjustable effective connecting rod length.

This object is achieved by a method according to claim 1. According to the invention, the method for producing a connecting rod with adjustable effective connecting rod length comprises at least the following steps: providing the connecting rod main body. Providing the components of the eccentric adjusting device and mounting the same on the connecting rod main body. Aligning the eccentric of the eccentric adjusting device to the connecting rod main body while setting a defined effective connecting rod length, and aligning the eccentric lever and the eccentric rods mounted thereon to the connecting rod main body by rotating the eccentric lever and the eccentric rods into an end position. Rotationally connecting the eccentric lever with the eccentric following the above alignment.

In the method according to the invention, an alignment of the eccentric eccentric adjusting the connecting rod main body under adjustment of a defined, effective connecting rod length and aligning the eccentric lever and mounted on the same eccentric rods to the connecting rod main body under rotation of the eccentric lever and the eccentric rods in an end position, for which the defined effective Connecting rod length is desired. Following this alignment takes place a rotationally fixed connection of the eccentric lever with the eccentric. In this way, a highly accurate effective connecting rod length can be ensured for that end position of the eccentric adjusting device, in which the eccentric rods the respective end position were rotated when aligning the eccentric and the eccentric. In this final position, the tolerances of the toleranced components of the eccentric adjustment are eliminated by the above alignment, the tolerances then affect only in the other end position of the eccentric adjustment.

In a further development, the alignment of the eccentric lever and the eccentric rods mounted on the same to the connecting rod main body of the eccentric lever and the eccentric rods are rotated into an end position for high compression.

This development of the invention is based on the finding that a tolerant effective connecting rod length is particularly disadvantageous with high compression of the internal combustion engine. Therefore, according to this advantageous development of the invention, the alignment of the eccentric lever by turning the same and the eccentric rods mounted on the same in the end position for the high compression.

According to an advantageous embodiment of the invention, the eccentric lever having at least one eccentric lever segment, and the eccentric rods are mounted to a pre-assembly. This pre-assembly is mounted by introducing the eccentric rods in the hydraulic chambers of the connecting rod main body to the connecting rod main body. Subsequently, the eccentric is mounted on the connecting rod main body and the pre-assembly. Subsequently, the eccentric lever and the eccentric rods mounted on the same are aligned to the connecting rod main body by turning the eccentric lever and the eccentric rods in the respective end position. Subsequently, the eccentric lever is integrally connected to the eccentric. Preferably, when mounting the eccentric on the connecting rod main body and the pre-assembly mounted on the connecting rod main body, the eccentric is automatically aligned with the connecting rod main body. This sequence in the production of the connecting rod is particularly preferred, since this sequence can be easily and reliably provided a highly accurate effective connecting rod length in an end position of the eccentric adjusting device, in which then the tolerances of Tolerance-prone components of the eccentric adjustment do not come to fruition.

• 1 eine erste aus dem Stand der Technik bekannte Pleuelstange mit verstellbarer effektiver Pleuelstangenlänge eines Verbrennungsmotors mit einstellbarem Verdichtungsverhältnis;
• 2 eine zweite aus dem Stand der Technik bekannte Pleuelstange mit verstellbarer effektiver Pleuelstangenlänge eines Verbrennungsmotors mit einstellbarem Verdichtungsverhältnis;
• 3 ein Detail der 2; und
• 4 ein Detail der 3.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. Showing:

• 1 a first known from the prior art connecting rod with adjustable effective connecting rod length of an internal combustion engine with adjustable compression ratio;
• 2 a second known from the prior art connecting rod with adjustable effective connecting rod length of an internal combustion engine with adjustable compression ratio;
• 3 a detail of 2 ; and
• 4 a detail of 3 ,

The invention relates to a method for producing a connecting rod 10 with adjustable effective connecting rod length, the connecting rod 10 at least one connecting rod main body with a Bublagerauge 11 and a connecting rod eye 12 and an eccentric adjustment 13 for adjusting the effective connecting rod length.

The eccentric adjusting device for adjusting the effective connecting rod length of the connecting rod to be produced by the method according to the invention 10 includes at least one eccentric lever 14 , one with the eccentric lever 14 interacting eccentric 36 as well as on the eccentric lever 14 attacking eccentric rods 15 . 16 , The eccentric lever 14 has at least one eccentric lever segment 38 and or 39 on, wherein the or each eccentric lever segment 38 . 39 in the axial direction of the eccentric 36 seen in front of and / or behind the connecting rod eye 12 is positioned.

In the embodiment of 2 to 4 has the eccentric lever 14 two eccentric lever segments 38 . 39 on, from yours a first before and second behind the connecting rod eye 12 positioned, so then the connecting rod eye 12 between the two eccentric lever segments 38 . 39 of the eccentric lever 14 is arranged.

The with the eccentric lever 14 cooperating eccentric 36 extends through a recess in the connecting rod eye 12 and by corresponding recesses in the eccentric lever 14 namely in the eccentric lever segments 38 and 39 , where the eccentric 36 with the or each eccentric lever segment 38 . 39 of the eccentric 14 rotatably connected, in particular under training of in 3 shown, formed by welding, cohesive connection region 40 ,

As already stated, engage the eccentric lever 14 the eccentric adjusting device 13 the eccentric rods 15 and 16 on, namely according to 2 to 4 at the connecting bolt 41 and 42 over which the eccentric lever segments 38 and 39 of the eccentric lever 14 connected to each other. The eccentric rods 15 and 16 grip with a first end to this connecting bolt 41 and 42 and over the connecting bolts 41 and 42 on the eccentric lever 14 at.

The eccentric rods protrude with an opposite end 15 and 16 in hydraulic chambers provided by the connecting rod main body 22 and 23 , in the 2 to 4 are not visible, into it, with the hydraulic rods 15 . 16 to the in the hydraulic chambers 22 . 23 protruding ends of the pistons 20 . 21 bear on those in the hydraulic chambers 21 . 22 , prevailing pressure acts. The hydraulic rods 15 . 16 are at their in the hydraulic chambers 22 . 23 protruding ends in the hydraulic chambers 22 . 23 movably guided.

To now such a connecting rod 10 , especially those in 2 to 4 shown connecting rod 10 , Manufacture, first, the connecting rod main body and the components of the eccentric adjustment 13 provided. The components of the eccentric adjustment 13 are mounted on the connecting rod main body.

In a further step of the method according to the invention, the eccentric is aligned 36 the eccentric adjusting device 13 to the connecting rod main body under setting a defined effective connecting rod length, as well as an alignment of the eccentric lever 14 and the eccentric rods mounted on it 15 . 16 to the connecting rod main body by turning the eccentric lever 14 and the eccentric rods 15 . 16 in an end position, preferably in an end position, in which the connecting rod 10 to provide a high compression. For this end position is the with aligning the eccentric 36 the eccentric adjusting device 13 valid for the connecting rod main body defined effective connecting rod length valid.

Following the above alignment is the eccentric lever 14 with the eccentric 36 rotatably and cohesively connected, preferably with the formation of in 3 shown connection area 40 by welding.

Due to the above method steps, the effective connecting rod length, in particular with respect to the end position for the high compression, despite the tolerances of the components of the eccentric adjustment 13 be set very precisely. As already stated, the alignment of the components of the eccentric adjusting takes place 13 in relation to the end position for a high compression, as with the high compression a particularly accurate effective connecting rod length is particularly important.

In the method according to the invention set in the final position for the high compression connecting rod length no longer depends on the component tolerances, but only on the setting accuracy of a mounting device used for mounting. Since the component tolerances for the end position of the high compression have no influence on the connecting rod length in the high compression, the accuracy requirement for the components of the eccentric adjusting 13 may be reduced. Tolerances only affect the deviating from the final position for the high compression positions of the eccentric adjustment 13 from, especially in the final position for low compression, but in which the tolerances are less problematic.

When aligning the eccentric lever 14 and the eccentric rods mounted on it 15 . 16 to the connecting rod main body is one of the eccentric rods 15 respectively. 16 over the piston received by it 20 respectively. 21 against a stop in the respective hydraulic chamber 22 respectively. 23 emotional. It comes in the end position of the piston 20 respectively. 21 in particular at the bottom of the respective hydraulic chamber 22 . 23 to the plant.

For the production of in 2 to 4 shown connecting rod 10 In particular, the procedure is that first the in 4 shown components of the eccentric adjusting device 13, namely the two eccentric lever segments 38 and 39 having eccentric lever 14 , the connecting bolts 41 . 42 as well as the eccentric rods 15 . 16 as in 4 not shown piston 21 . 22 attached to those of the connecting bolts 41 . 42 opposite ends of the eccentric rods 15 . 16 to be mounted to a pre-assembly.

This pre-assembly is then under introduction of the eccentric rods 15 . 16 with theirs from the connecting bolts 41 . 42 opposite ends, to which the in 4 not shown piston 20 . 21 attack, in the hydraulic chambers 22 . 23 introduced the connecting rod main body and so mounted on the connecting rod main body. In this case, then the connecting rod eye 12 of the connecting rod main body 10 between the eccentric lever segments 38 . 39 positioned so that on each side of the connecting rod eye 12 an eccentric lever segment 38 . 39 is positioned.

Subsequently, the eccentric 36 mounted on the connecting rod main body and the pre-assembly, in that the eccentric 36 in the corresponding recesses of the connecting rod bearing eye 12 of the connecting rod main body and the eccentric lever segments 38 . 39 of the eccentric lever 14 is introduced. When mounting the eccentric 36 on the connecting rod main body and the pre-assembly mounted on the connecting rod main body is the eccentric 36 preferably aligned automatically to the connecting rod main body. This can be done in that this assembly is carried out on a mounting device having two projections, wherein a first projection corresponds to a crankshaft journal and a second projection of a piston pin. The connecting rod main body with already mounted on the same preassembly assembly is then on the Bublagerauge 11 on the projection corresponding to the crankshaft journal of the assembly device and on the connecting rod eye 12 positioned on the piston pin corresponding projection of the mounting device, in which case the eccentric 36 is pushed onto the piston pin corresponding projection, which then only in a relative position of the eccentric 36 can take place, since the projections of the mounting device are not mutually displaceable, but rather by their relative position to each other define a defined connecting rod length.

Then then the eccentric lever 14 together with the eccentric rods mounted on them 15 . 16 to the connecting rod main body and the previously automatically aligned and its position on the mounting device immutable eccentric 36 be turned and aligned, in such a way that the eccentric lever 14 together with the eccentric rods 15 . 16 is rotated in the respective end position, in particular in the end position of the eccentric lever 14 for the high compression, in which case, as already mentioned, one of the eccentric rods 15 . 16 , namely the on this eccentric rods 15 respectively. 16 mounted pistons 21 respectively. 20 , at a stop, by the respective hydraulic chamber 22 . 23 is provided, comes to the plant. The effective connecting rod length specified via the assembly device is then valid for this end position. After this alignment, the integral connection of eccentric lever takes place 14 and eccentric 36 ,

Accordingly, with the invention a tolerance-optimized production concept or production method for a connecting rod 10 proposed with an adjustable effective connecting rod length. Initially, components subject to tolerances of the eccentric adjusting device 13 mounted on the connecting rod main body. Subsequently, the components become the connecting rod main body aligned both the eccentric 36 the eccentric adjusting device 13 as well as the eccentric lever 14 with the eccentric rods engaging with them 15 . 16 , This is done via the eccentric 36 set a connecting rod length for the maximum compression, further, the eccentric lever 14 together with the eccentric rods 15 . 16 twisted into the final position for maximum compression. This is followed by the integral connection of eccentric 36 and eccentric lever 14 in particular by welding.

Component tolerances of the components of the eccentric adjustment 13 have no effect on the set in the high compression effective connecting rod length when using the method according to the invention in the final position for the high compression. Therefore, with the high compression, an exact connecting rod length can be ensured. Only in other positions with other effective connecting rod lengths make component tolerances of the components of the eccentric adjustment 13 the connecting rod 10 noticeable.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010016037 A1 [0002, 0003]
• DE 102013014090 A1 [0004]

Claims (5)

Method for producing a connecting rod (10) with adjustable effective connecting rod length, wherein the connecting rod (10) comprises at least the following components: a crank bearing eye (11) and a connecting rod eye (12) connecting rod main body, an eccentric adjusting device (13) for adjusting the effective Connecting rod length, wherein the eccentric adjusting device (13) comprises the following components: an eccentric lever (14) having at least one eccentric lever segment (38, 39), wherein that or each eccentric lever segment (38, 39) seen in the axial direction of the eccentric (36) is positioned before and / or behind the Pleuellagerauge (12), a cooperating with the eccentric lever (14) eccentric (36), wherein the or each eccentric lever segment (38, 39) of the eccentric lever (14) with the eccentric (36) is rotatably connected , Exzenterstangen (15, 16) which engage the eccentric lever (14), wherein the eccentric rods (15, 16) in hydraulic chambers (22, 23) of the Pleue Lstangengrundkörpers protrude and are guided in the same, characterized by the following steps: Provision of the connecting rod main body, providing the components of the eccentric adjusting device (13) and mounting the same to the connecting rod main body, aligning the eccentric (36) of the eccentric adjusting device (13) to the connecting rod main body Adjusting a defined effective connecting rod length, and aligning the eccentric lever (14) and the eccentric rods mounted thereon to the connecting rod main body by turning the eccentric lever (14) and the eccentric rods (15, 16) into an end position, non-rotatably connecting the eccentric lever (14) to the eccentric (36) following the above alignment. Method according to Claim 1 , characterized in that the eccentric rods (15, 16) carry at their in the hydraulic chambers (22, 23) projecting ends of pistons (20, 21), wherein when aligning the eccentric lever (14) and mounted on the same eccentric rods to the connecting rod main body of the piston (20, 21) one of the eccentric rods (15, 16) is moved against a stop in the respective hydraulic chamber. Method according to Claim 1 or 2 , characterized in that when aligning the eccentric lever (14) and mounted on the same eccentric rods (15, 16) to the connecting rod main body of the eccentric lever (14) and the eccentric rods (15, 16) are rotated into an end position for high compression of the connecting rod. Method according to one of Claims 1 to 3 characterized in that the eccentric lever (14) having at least one eccentric lever segment (38, 39) and the eccentric rods (15, 16) are mounted to a pre-assembly, the pre-assembly with introduction of the eccentric rods (15, 16) in the hydraulic chambers (22, 23) of the connecting rod main body is mounted to the connecting rod main body, then the eccentric (36) on the connecting rod main body and the pre-assembly is mounted, then the eccentric lever (14) and mounted on the eccentric rods to the connecting rod main body by turning the eccentric lever ( 14) and the eccentric rods (15, 16) are aligned in the end position, then the eccentric lever (14) with the eccentric (36) is integrally connected. Method according to Claim 4 , characterized in that during the assembly of the eccentric (36) on the connecting rod main body and the pre-assembly mounted on the connecting rod main body of the eccentric (36) is automatically aligned with the connecting rod main body.

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