Internal-combustion engines – Intake manifold – Manifold tuning – balancing or pressure regulating means
Reexamination Certificate
2000-06-20
2001-06-19
Kamen, Noah P. (Department: 3747)
Internal-combustion engines
Intake manifold
Manifold tuning, balancing or pressure regulating means
Reexamination Certificate
active
06247438
ABSTRACT:
BACKGROUND AND SUMMAY OF THE INVENTION
The invention relates to an intake pipe for the intake air of an internal combustion engine which comprises a shift drum for changing an intake duct length.
Intake pipes with shift drums are known, for example, as disclosed in German patent application 198 53 741.7. The construction principle for intake pipes, introduced in this application, designates a shift drum, which at the same time functions as a collection space for the intake pipe. Passages lead from the collection space into the intake ducts of the intake pipe. By rotating the shift drum, an infinitely variable adjustment is possible since the intake ducts are wound helically about the shift drum. Alternatively, several intake ducts are provided per cylinder and these can be switched on or off by rotating the shift drum.
Due to the accommodation of the collection space in the shift drum and the required minimum radius of curvature of the intake ducts, the dimensions of the shift drum are relatively large. The shift drum rotates in the intake pipe housing and participates in the formation of intake ducts, which must be sealed completely from one another and from the collection space. The large diameter of the shift drum results in relatively large sealing surfaces. In order to seal these from one another, relatively expensive seals are required. At the same time, the tolerance requirements for the components increase, since complete contact of the seals at the corresponding sealing surfaces is required. Since the shift drum must be sealed radially between the individual intake ducts, there are difficulties also during the installation because the seals must be handled over long installation movements.
In order to provide a remedy for the problems described, an intake pipe construction is proposed in the DE 197 56 332 A1, for which the shift drum, as well as the inserts of the intake pipe, forming the intake ducts, are subdivided into disk-shaped modules. The intake ducts are sealed between the respective modules which, for the installation of the intake pipe, are pushed consecutively (according to FIG. 2 of the document cited, alternately a plastic insert 15, 16 and an adjusting disk 19) into the intake pipe housing.
This solution decreases the sealing and tolerance problem. Before the installation, for example, L-shaped sealing washers 17 can be connected permanently with the adjusting disks 19. However, the inserts 15, 16 result in an additional constructional expense, which is reflected in increased manufacturing costs and, above all, in an increased weight of the component. However, internal combustion engines preferably are employed in mobile use, for which reason the weight aspect plays a large role.
It is therefore an object of the invention to provide an intake pipe, which is easily installed and operates reliably while weighing as little as possible.
In a known manner, the inventive intake pipe has a housing with an inlet and several outlets. The inlet can be connected with the intake tract, which contains the air filter. The outlets are at the ends of the intake ducts and can discharge, for example, into a cylinder head flange of an internal combustion engine. In the intake pipe, an adjustable shift drum is accommodated, which has a driving mechanism for this purpose. In the interior of the shift drum, there is the collection space of the intake pipe, which has passages, which are connected with the individual intake ducts. The intake ducts coil helically about the shift drum, so that an adjustment (especially rotation) of the shift drum leads to an angular shift of the passages and, with that, to an adjustment of the length of the intake pipe.
With that, the outer wall of the shift drum at the same time represents the inner radius of the intake ducts. The other walls of the intake ducts are formed partly or completely by wall elements, which are constructed disk-shaped, so that their parting lines are disposed perpendicularly to the axis of rotation of the shift drum.
The essential advantage of the inventive construction lies in the simultaneous use of the wall elements to form the outer wall of the housing of the intake pipe. In comparison to the construction of DE 197 56 332 A1, the whole of the housing body can thus be omitted in the region of the shift drum. The wall elements must be constructed so that they make it possible, at the same time, to seal the parting lines in such a manner, that the interior of the intake pipe is sealed completely from the surroundings. The wall elements can be combined with further housing parts, the omission of the additional housing leading to a reduction in weight.
According to a preferred embodiment of the present invention, the shift drum can also be divided into disk-shaped elements. During the installation of the intake pipe, these adjusting disks, together with the driving mechanism, are combined into an adjustable unit. In particular, the modular construction of the shift drum enables the module parts to be used for different numbers of cylinders, that is, also for different numbers of intake ducts of intake pipes. In addition, the installation process can be simplified in this manner, in that wall elements and adjusting disks are installed alternately, so that undercuts are also possible between these parts with respect to the installation direction. In this connection, it is particularly advantageous to support the shift drum in its axis of rotation on a shaft. The adjusting disks can then be pushed onto the shaft and, in this manner, are immediately centered. The adjusting disks are positioned with respect to one another as well as over sealing surfaces with respect to the adjusting disks. In order to be able to compensate better for tolerances, the hubs at the adjusting disks can be constructed spherically, so that these can wobble on the shaft. The wobbling movement is then determined by the tolerances, since the adjusting disks are guided by the sealing surface at the outer periphery with respect to the wall elements.
To form these sealing surfaces, the wall elements, pursuant to a special development of the invention, have an annular rib. They extend from the wall section of the wall elements, forming the housing, radially into the interior of the intake pipe and with that, considered as a component part, form the bottom of the perforated pot. With that, they close off the intake duct formed on one side. On the other side, the termination is formed by the annular rib of the adjacent wall element. In this way, the individual wall elements are shaped like a pot, it being possible to push the adjusting disk into the open side. In this connection, a particularly compact construction results if the wall elements described are connected directly behind one another. The annular ribs accordingly are used for separating adjacent intake ducts. A different possibility consists in an alternating installation of two different wall elements, one being provided to form the respective intake duct and the other for bridging an axial distance between the intake ducts.
Due to the alternating installation of adjusting disks and wall elements, these may have undercuts with respect to the installation direction. These undercuts can be used advantageously so that the annular ribs of the wall elements protrude into an annular gap, which results in each case between two adjacent adjusting disks. As a result, the possibility arises of providing sealing lips, which preferably act axially, between the inner edge of the annular ribs and the adjusting disks. Tolerances can be compensated for extremely well by the elasticity of the seal as well as by the wobbling capability of the adjusting disks. Due to the construction of the intake pipe, in each case two adjacent wall elements and the adjusting disk between them result in a unit with a defined geometry, tolerances arising only within this unit. By these means, chain tolerances are avoided, which arise when the adjusting disks with appropriate sealing devices are pushed into a one-piece intake pi
Esch Hans-Joachim
Leipelt Rudolf
Paffrath Holger
Crowell & Moring , L.L.P.
Filterwerk Mann & Hummel GmbH
Kamen Noah P.
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