DE102005017563B4 - Method for producing hollow shafts and hollow shafts - Google Patents

Abstract

The invention relates to a method for producing a hollow shaft, in particular a rocker shaft, and a hollow shaft. The cylindrical hollow shaft has at least one longitudinal channel arranged in it, which is provided for the formation of blind-hole channels. For this purpose, this longitudinal channel is closed in its axial course with an end piece. Further, the hollow shaft transverse to the axial axis of the shell aligned radial channels, which connect the longitudinal and / or blind hole channels to the outside and possibly with each other. For simple and inexpensive production, an extruded profile is selected as the starting workpiece for the hollow shaft, which is already provided during extrusion with at least one continuous longitudinal channel. Furthermore, material from the shell of the hollow shaft is introduced into a former longitudinal channel from the outside, as a result of which the previous longitudinal channel is closed to form blind-hole channels.

Description

The invention relates to a method for producing hollow shafts and hollow shafts, in particular rocker arm bearing shafts, according to the preamble of claim 1 and 12, both of which are based on the genus forming DE 199 34 405 A1 as known.

From the DE 199 34 405 A1 a hollow shaft is known, as it can be used, inter alia, as Kipphebellagerachse an internal combustion engine, in particular a truck, a marine engine or other large-volume engine. To produce the hollow shaft, in particular the rocker shaft, a soul formed as a molded part is introduced into a hollow cylindrical shell part. In this case, the core has recesses on its outer lateral surface, so that longitudinal channels are recessed between the outer surface of the core and the inner surface of the jacket part. The introduced in the shell part soul is rotationally and axially secured against the shell part. Thus, the longitudinal channels are sealed against each other, the outer shell of the soul in the region in which it is closest to the inner shell of the outer part, at least partially sealed in the axial direction of the shell part relative to the inner wall of the shell part. As a result, the axially extending between the core and the shell longitudinal channels are sealed off from each other in the axial direction of the shell part. At least some of the longitudinal channels are sealed to form blind hole channels in their axial course. For external connection of the longitudinal channels and / or the blind hole channels radial channels are introduced into the shell part and / or in the soul, which are aligned transversely, in particular radially to the axial axis of the shell part. The soul is formed as a hollow molding.

From the DE 37 35 156 A1 a tube-like rocker shaft with two longitudinal channels arranged therein is known, which are axially sealed to form blind hole channels in their course. The rocker arm axle embodied as an extruded profile also has radial passages which are aligned radially with respect to the axial axis of the rocker arm axis.

Other such rocker arm axes are uA from the DE 92 19 032 U1 , of the DE 195 35 498 A1 as well as the DE 43 34 995 C2 known.

The The object of the invention is to develop a method with which the production of a hollow shaft and this particular a Kipphebellagerachse preferably even more simplified and possible even cheaper is.

The The object of the invention is achieved by a method with the method steps of claim 1 or with a hollow shaft having the features of the claim 12 solved. By producing a hollow shaft from an extruded profile with already applied longitudinal channels can the hollow shaft in a very cost effective and easy from a Strangware be prefabricated. The further manufacturing steps such as closing a longitudinal channel, Introduction of radial channels and possibly a final dimension machining can be made in a simple manner. This may be in further training for sealing closure material of the shell part in sealing Way from the outside against the tail pressed become. This type of sealing can in particular by gluing and / or solder be improved.

In special way is the extruded profile in terms of the dimensions of his Cross sections and the formation of the longitudinal channels final measure close to the hollow shaft produced. This requires a hollow shaft only with the appropriate axial dimension of the extruded profile cut off and further processed.

When useful material for the extruded profile has plastic and / or a light metal or a light metal alloy and / or a fiber composite proved. In addition to the low weight, this has u.a. the advantage that hereby the soul can be made in a simple way.

In Another training will be the later blind hole channels forming Longitudinal channels of the hollow shaft with tails Mistake. The tails are introduced sealingly, in particular pressed so that they form a close degree in this area. The seal can in particular by positive engagement and / or by gluing, soldering and / or Pressing done.

in this connection it may be appropriate if the tail on its side formations, in particular corrugations and / or preferably in the direction of the circumferential line of the shell part extending Has circumferentially groove (s), in which then the material of the shell part can be introduced in a fixing manner.

As already mentioned, is in a longitudinal channel from the outside introduced material of the jacket, in particular pressed. Under Help from the outside introduced material and in particular by this alone a longitudinal channel in a blind hole channels training manner be sealed axially sealed.

In a further embodiment, the extruded profile and thus at least largely the hollow shaft rotati about its longitudinal axis formed on symmetrical. Such a hollow shaft then has a small imbalance during rotations about the rotational and central axis, which is favorable at high rotational speeds.

For a simple and cost-effective Production of the hollow shaft, it is also appropriate that after cutting to the Hollow shaft of the extruded profile preferably endmaßnah manufactured Extruded profile Radial channels be introduced.

Further meaningful designs can the corresponding subclaims be removed. Furthermore the invention will be described with reference to embodiments shown in the drawings explained in more detail.

there demonstrate:

1 an extruded profile with internal longitudinal channels and

2 a longitudinal section through one of an extruded profile according to 1 produced hollow shaft.

In 1 is an extruded profile 5 for a hollow shaft 1 , as used in particular as a rocker shaft of a LkW engine use shown. As a material for the extruded profile 5 In particular, plastic and / or light metal or a light metal alloy and / or a fiber composite material has proven to be favorable.

Inside the coat 9 of the extruded profile 5 or the coat 9 the later hollow shaft 1 are five longitudinal channels 2 arranged. One of the longitudinal channels 2 is concentric about the axis of rotation of the extruded profile 5 arranged. The remaining four longitudinal channels 2 By contrast, they are symmetrical about this longitudinal channel 2 arranged.

The axial length of the extruded profile 5 is greater than the corresponding axial extent of the later hollow shaft 1 , The cross sections of the extruded profile 5 On the other hand, they are at least close to the final dimensions, but preferably of final dimension to the corresponding cross sections of the later hollow shaft 1 (please refer 2 ).

For producing a hollow shaft 1 , as for example in 2 is shown, the extruded profile 5 at the point of the dividing line 11 endmaßnah, preferably endmaßgenau according to the axial extent of the hollow shaft 1 cut off. In this way, there is a blank for the production of the hollow shaft 1 before, which has already largely the final dimensions in many areas and in this respect must be finished only to a small extent. In preferred endmaßgenauer training and cutting accounts for this work even at least largely.

One with the help of an extruded profile 5 according to 1 produced hollow shaft 1 is in longitudinal section in 2 shown. At the hollow shaft 1 are the former upper, middle and lower longitudinal channel 2 of the extruded profile by means of end pieces 6 sealed. They form in this way blind hole channels 3 out. The tails 6 of the upper and lower longitudinal channels 2 are made with a slight oversize largely accurate fit and in the respective longitudinal channel 2 pressed. In this way, they are sealing and in particular also fixed in place on the jacket 7 of the associated longitudinal channel 2 at. The tail of the central longitudinal channel is made on undersize and is made by means of a third material 10 , in particular an adhesive, preferably of plastic and / or a soldering material relative to the jacket 7 this longitudinal channel 2 sealed and fixed.

The lower longitudinal channel 2 , Further has on its right in the drawing part introduced from the outside, preferably depressed material 8th of the coat 9 the hollow shaft 1 on. With the help of the externally introduced material 8th becomes the longitudinal channel 2 axially sealed in particular in this area sealing; ie the impressed material 8th of the coat 9 the hollow shaft 1 thus forms an end piece in this way.

The hollow shaft 1 also has radial channels 4 on, which are transverse to the axial axis of the hollow shaft, preferably radially aligned. Through these radial channels 4 can the blind hole channels 3 externally and possibly interconnected.

The radial channels 4 already in the extruded profile 5 introduced, preferably milled and / or drilled and / or punched. Preferably, however, they are only in the cut extruded profile 5 and more preferably in the already with the end pieces 6 provided hollow shaft 1 brought in.

Claims (23)

Method for producing a hollow shaft, in which at least one arranged in the cylindrical hollow shaft longitudinal channel to form blind holes in its axial course is sealed and in which the longitudinal and / or blind holes with transverse to the axial axis of the hollow shaft aligned radial channels to the outside and possibly be interconnected, characterized in that for the production of the hollow shaft ( 1 ) an extruded profile ( 5 ), which extrusion pro fil ( 5 ) already during extrusion with at least one continuous longitudinal channel ( 2 ), that in a longitudinal channel ( 2 ) from the outside material ( 8th ) of the shell of the hollow shaft ( 1 ) and that, with the help of the material imported from outside ( 8th ) the longitudinal channel ( 2 ) is closed axially. Method according to claim 1, characterized in that the longitudinal ( 2 ) and / or blind-hole channels ( 3 ) with radial channels ( 4 ) to the outside and possibly interconnected. Method according to claim 1, characterized in that in a longitudinal channel ( 2 ) from the outside material ( 8th ) of the shell of the hollow shaft ( 1 ) is pressed. A method according to claim 1, characterized in that with the aid of the externally introduced material ( 8th ) the longitudinal channel ( 2 ) is sealed axially sealed. Method according to claim 1, characterized in that the extruded profile ( 5 ) with regard to the dimensions of its cross-sections and the formation of the longitudinal channels ( 2 ) close to the end of the hollow shaft ( 1 ) is made. Method according to claim characterized in that the extruded profile ( 5 ) with regard to the dimensions of its cross-sections and the formation of the longitudinal channels ( 2 ) of final dimensions to the hollow shaft ( 1 ) is made A method according to claim 1, characterized in that as material for the extruded profile ( 5 ) a plastic and / or a light metal or a light metal alloy and / or a fiber composite material is selected. A method according to claim 1, characterized in that a later blind hole channels ( 3 ) longitudinal channel ( 2 ) with an axial end piece ( 6 ) and that the tail ( 6 ) to the coat ( 7 ) of the previous longitudinal channel ( 2 ) is created. A method according to claim 1, characterized in that a later blind hole channels ( 3 ) longitudinal channel ( 2 ) with an axial end piece ( 6 ) and that the tail ( 6 ) in a blind hole channels ( 3 ) forming manner sealing to the mantle ( 7 ) of the previous longitudinal channel ( 2 ) is created. A method according to claim 1, characterized in that after the production of the hollow shaft ( 1 ) from the extruded profile in the hollow shaft ( 1 ) Radial channels ( 4 ) are introduced. Use of a method according to claim 1 to Production of a rocker arm bearing axis of an internal combustion engine and / or a Kipphebellagerachse a truck and / or a marine engine and / or another large volume Internal combustion engine. Hollow shaft with at least one arranged in the cylindrical or tube-like hollow shaft longitudinal channel, wherein at least a former longitudinal channel to form blind holes at least partially sealed in its axial course and with radial channels which are aligned transversely to the axial axis of the hollow shaft, characterized in that the at least one longitudinal channel ( 2 ) having hollow shaft ( 1 ) an extruded profile ( 5 ) is that a former longitudinal channel ( 2 ) material introduced from the outside ( 8th ) of the shell of the hollow shaft ( 1 ) and that with the introduced material of the previous longitudinal channel ( 2 ) with the formation of blind-hole channels ( 3 ) is closed. Hollow shaft according to claim 12, characterized in that a longitudinal channel ( 2 ) is closed by depressed material. Hollow shaft according to claim 12, characterized in that with the introduced material of the previous longitudinal channel ( 2 ) is sealed. Hollow shaft according to claim 12, characterized in that with the introduced material ( 8th ) the previous longitudinal channel ( 2 ) with the formation of blind-hole channels ( 3 ) is sealed. Hollow shaft according to claim 12, characterized in that a former longitudinal channel ( 2 ) extruded material ( 8th ) of the shell of the hollow shaft ( 1 ) having. Hollow shaft according to claim 16, characterized in that with the indented material ( 8th ) the previous longitudinal channel ( 2 ) with the formation of blind-hole channels ( 3 ) is sealed. Hollow shaft according to claim 12, characterized in that the later hollow shaft ( 1 ) forming extruded profile ( 5 ) with regard to the dimensions of the cross sections of the hollow shaft ( 1 ) and / or the formation of the longitudinal channels ( 2 ) is extruded close to the final measure. Hollow shaft according to claim 12, characterized in that the later hollow shaft ( 1 ) bil end extruded profile ( 5 ) with regard to the dimensions of the cross sections of the hollow shaft ( 1 ) and / or the formation of the longitudinal channels ( 2 ) is extruded endmaßgenau. Hollow shaft according to claim 12, characterized in that the material of the extruded profile ( 5 ) Is plastic and / or light metal or a light metal alloy and / or a fiber composite material. Hollow shaft according to claim 12, characterized in that a blind hole channels ( 3 ) forming the previous longitudinal channel ( 2 ) an axial end piece ( 6 ) having. Hollow shaft according to claim 12, characterized in that a blind hole channels ( 3 ) forming the previous longitudinal channel ( 2 ) an axial end piece ( 6 ) and that the tail ( 6 ) sealingly on the jacket ( 7 ) of the previous longitudinal channel ( 2 ) is present. Use of a hollow shaft according to claim 12 as Kipphebellagerachse an internal combustion engine and / or as a rocker arm bearing axis a truck and / or a marine engine and / or as a rocker arm axle of another large volume Internal combustion engine.