JP2009503323A - Camshaft and camshaft manufacturing method - Google Patents

Abstract

  The present invention relates to a camshaft (1) and a method for manufacturing the camshaft (1). In the case of this camshaft (1), the gear wheel (5) is attached to the camshaft tube (3). A collar (7) attached to the gear wheel (5) and a positioning bearing element attached to the camshaft tube (3) delimit the positioning bearing seat (11) of the camshaft (1).

Description

  The present invention relates to a camshaft and a camshaft manufacturing method.

  Forming and axially fixing camshaft positioning bearings to adjacent camshaft wheels or gear wheels is currently done on prefabricated camshafts by flanges integrated with the camshaft by welding or press fitting Yes. In this case, the camshaft is generally in the form of a solid steel column. However, the use of press-fit or welded flanges requires additional work steps and increases manufacturing costs. In particular, the camshaft must be unclamped, resulting in errors in unclamping.

  Patent Document 1 discloses a hollow shaft and a manufacturing method thereof. The hollow shaft has a main body whose inner radius and outer radius change in the axial direction while having the same thickness. In this hollow shaft, gear wheels, cams, and the like are provided so that structural elements that transmit torque are connected to the main body, particularly at the inner and outer radii that are larger than others. It has been.

  Patent Document 2 discloses a configuration for attaching component parts. In particular, this configuration includes a camshaft having a cylindrical inner wall and an outer wall having an outer diameter that varies radially and axially. In the part where the camshaft has a particularly large outer diameter, the cam is integrated into the camshaft as part of the outer wall. The cam wheel forms an additional element on a portion of the outer wall of the camshaft and is fixed with respect to the camshaft.

German Patent Invention No. 3704092C1 German Patent Application Publication No. 19502834A1

  With this as a starting point, the aim is to provide a low mass and high stability camshaft that is simple and inexpensive to manufacture.

  For this purpose, a camshaft having the features of claim 1 and a method for manufacturing a camshaft having the features of claim 7 are proposed.

  In the case of the camshaft according to the invention, the gear wheel is attached to the camshaft tube. A collar attached to the gear wheel and a positioning bearing element attached to the camshaft tube define the camshaft positioning bearing seat.

  In contrast to conventional prefabricated camshafts, which are separated and weakened by a friction welded collar or journal, and thus give a predetermined breaking point, the so-called prefabricated camshaft according to the present invention has a material weakening. It is created uniformly without any occurrence.

  The gear wheel with collar is fitted directly into the camshaft tube without any other camshaft components, i.e. positioning bearing elements and cams, shafts, etc. Thus, the fixed gear wheel seat is provided with the camshaft tube hollow in shape, in particular in the gear wheel seat.

  In the case of a prefabricated camshaft according to the invention, a gear wheel with a collar or a camshaft wheel with an attached collar is fitted into a hollow camshaft tube rather than a steel cylinder like other prefabricated camshafts. This means that it is advantageous in terms of weight over other structures having solid steel columns. Aside from the fact that this assembled camshaft can be manufactured at a very low cost, the positioning bearing or the positioning bearing seat provided for receiving the camshaft positioning bearing is simple to manufacture and is positioned precisely along the camshaft. be able to. The locating bearing seat is formed or bounded by two locating bearing elements that are generally axially offset from each other on the camshaft tube.

  Instead of a simple cylindrical camshaft tube as the camshaft body, other well-known camshafts have a hollow body, but such camshafts (for example DE 37 04 092 C1 or German Offenlegungsschrift DE 195 02 834 A1) has outer and / or inner walls with a radius that varies radially and / or axially.

  This type of body, which is complex to manufacture, is not required in the camshaft of the present invention. Individual camshaft components such as gear wheels, positioning bearing elements, cams, shafts and the like are properly positioned axially and radially relative to each other on the cylindrical outer wall or cylindrical casing of the camshaft tube So that when each two of these components are secured to the camshaft tube, these components are properly spaced from each other and properly aligned with each other. become. This positioning bearing seat, delimited by the positioning bearing element and the collar of the gear wheel, is provided, for example, for receiving a positioning bearing or positioning bearing ring on the camshaft tube and thus the camshaft.

  In particular, the collar can be on the side of the gear wheel. This collar, when attached to the gear wheel, provides a means for securing the gear wheel axially relative to the camshaft and the axially one or usually the wear elements for the positioning bearing seat. Form.

  The gear wheel and the positioning bearing element (the positioning bearing element can be in the form of a wear disc or alternatively a cam or preferably a special cam with an integral ring) are attached to the camshaft by a suitable joining method.

  In a preferred embodiment, the gear wheel and / or positioning bearing element is shrink fitted to the camshaft tube. For this purpose, the gear wheel with the collar and / or the positioning bearing element is heated, and at a temperature higher than that of the camshaft tube, the gearwheel is fitted into the camshaft tube and the appropriate axial direction and Arranged at radial position. When the temperature of the gear wheel and / or positioning bearing element with the collar and the temperature of the camshaft tube are equal, there is a close shrink-fit joint between the gear wheel and / or positioning bearing element with the collar and the camshaft tube. .

  In addition, the means for axially and radially fixing the positioning bearings arranged in the positioning bearing seats can be shrink-fit joints or shrink-fit seats or, if necessary, other suitable means for fixing the positioning bearing elements. It is formed. The gear wheel and / or the positioning bearing element are fixed to the camshaft tube in the axial direction and / or radially by means of a shrink-fit seat or a corresponding fixed positioning seat. The camshaft tube determines the overall length of the camshaft. The gear wheel can also be fixed to the end of the camshaft tube.

  In a method according to the invention for manufacturing a camshaft, a gear wheel with a positioning bearing element and a collar is attached to the camshaft tube, so that the positioning bearing element and the gearwheel are along the camshaft tube to the camshaft. The boundary of the positioning bearing seat is defined.

  When this method is carried out, a gear wheel and / or a positioning bearing element with a collar (the positioning bearing element can be a wear disc or a cam, for example a special cam with an integral ring) camshaft It is shrink-fitted to the cylindrical outer wall of the tube. Before the gear wheel is attached to the camshaft tube, the collar is attached to the side of the gear wheel, so that this collar forms a positioning bearing seat with a positioning bearing element (ie, a cam with a wear disc or ring). So-called assembled camshafts are produced by the method of the present invention.

  One advantage of the present invention is low manufacturing costs. In addition, since no correction means are required to make the connection between the journal and the camshaft tube, it is easier and more accurate to manufacture a positioning bearing seat for positioning bearings than with other manufacturing methods. Can be implemented.

  Further advantages and embodiments of the present invention will become apparent from the description and the accompanying drawings.

  It will be appreciated that the features described above and those described below can be used not only in the described combination in any case, but also in other combinations or alone without departing from the scope of the present invention.

  The invention is schematically illustrated in the drawing by way of an exemplary embodiment and is described in detail below by means of the drawing.

  The drawings will be described as a whole. Similar reference numbers indicate similar components.

  To illustrate the present invention, FIGS. 3a and 3b show how the positioning bearing seat 33 and the gear wheel 35 seat are formed into a prefabricated camshaft 37 according to the prior art. Here, the camshaft 37 and its components are shown in cross-section in FIG. 3b.

  The body 39 of the camshaft 37 has a solid structure, has different outer radii along the outer wall, and is manufactured by cylindrical symmetry and machining processes such as forging and / or grinding. In this case, the gear wheel 35 of the camshaft 37 is fitted into a solid steel cylinder. The positioning bearing seat 33 is bounded by two parts 41, 43 of the base body 39 having a relatively large outer radius. At one end of the camshaft 37, the flange 45 is connected to the main body 39 by welding or contact pressure. The gear wheel 35 is fixed to the flange 45.

  During production, the body 39 must further comprise a positioning hole 47 for the assembly process and a grinding positioning 49 for an additional grinding process. In addition, the camshaft 37 must be re-clamped during manufacture, which can cause errors during re-clamping. The spindle of the prior art camshaft 37 comprises two parts, a body 39 and a flange 45, so that the structure of the camshaft 37 is weakened and has a certain breaking point to some extent.

  1a and 1b respectively show the parts of a first embodiment of a camshaft according to the invention, in which the individual components of the camshaft 1 and the camshaft 1 are shown in cross-section. Yes. This so-called assembled camshaft 1 has a camshaft tube 3. The camshaft tube 3 has a cylindrical inner wall and a cylindrical outer wall with the inner side being hollow and the inner wall and the outer wall being coaxial with each other.

  The following components are attached to the camshaft tube 3. The following component is a gear wheel 5 provided for driving the camshaft 1, which is disposed at the end of the camshaft tube 3 and has a collar 7 attached along the side surface. A gear wheel and a positioning bearing element in the form of a wear disc 9.

  When the camshaft 1 is manufactured, the gear wheel 5 and the wear disc 9 are drawn directly onto the cylindrical outer wall of the camshaft tube 3 and are axially extended onto the camshaft tube 3 in an appropriate manner. / Or arranged radially. Positioning bearing elements in the form of a gear wheel 5 with a collar 7 and a wear disc 9 are fixed by shrinkage fitting.

  The locating bearing seat 11 is formed along and bounded by a part of the outer wall of the camshaft tube 3 by a locating bearing element (in the form of a wear disk 9) and a side collar 7 of the gear wheel 5 and is therefore demarcated. A wheel seat is provided. The positioning bearing seat 11 is provided for receiving a positioning bearing or a positioning bearing ring (not shown here). The camshaft tube 3 has a constant thickness at least in the region of the positioning bearing seat 11 and the gear wheel seat, that is, in the region shown in FIGS. 1a and 1b.

  The camshaft 1 has a further component shown only in FIG. 1 a and takes the form of a cam 13. When the camshaft 1 is manufactured, this cam 13 is also retracted onto the camshaft tube 3 and axially and / or radially in a manner appropriate to the other components of the camshaft 1, ie It must be arranged radially and / or axially in a suitable manner with respect to the wear disk 9 and / or the gear wheel 5 and for example other cams or shafts (not shown in FIGS. 1a and 1b). The cam 13 and other components (not shown) of the camshaft 1 can be fixed to the camshaft tube 3 by shrink fitting. In addition, a larger dish-type boundary limiting element 17 arranged coaxially with respect to the collar 7 is fixed to the gear wheel 5 by a fixing device 15.

  In each of FIGS. 2a and 2b, a portion of a second embodiment of a camshaft 19 according to the invention is shown schematically, which camshaft 19 has a gear wheel seat. Here, the individual components of this so-called assembly camshaft 19 are shown in cross-section in FIG. 2b. The camshaft 19 is a hollow cylindrical camshaft tube 21 having a constant thickness, and is attached directly to the outer wall of the camshaft tube 21 at the end of the camshaft tube 21 by, for example, shrink fitting, and a side collar 27 is attached. It has a gear wheel 23 and in this case a positioning bearing element which takes the form of a cam 25 or a special cam and is also attached to the camshaft tube 21 by shrink fitting.

  The ring 29 is integrated with the cam 25. A gear wheel 23 and a cam 25 with a collar 27 attached are arranged radially and axially with respect to the camshaft tube 21 and with respect to each other. Accordingly, a ring 29 integrated with the side collar 27 and the cam 25 of the gear wheel 23 receives or provides a positioning bearing or positioning bearing ring (not shown here) along the outer wall of the camshaft tube 21. A purpose-made positioning bearing seat 31 is formed or delimited.

  As shown in FIGS. 1 a to 2 b, the assembled camshaft 1, 19 is basically composed of at least two components. The assembled camshafts 1, 19 that have been described are mounted as end pieces of hollow cylindrical camshaft tubes 3, 21, camshaft tubes 3, 21 and have gear wheels 5, 23 with side collars 7, 27 and wear. It has a positioning bearing element such as a disc 25 or a cam 25 with an integral ring 29.

  Camshafts 1, 19 of FIGS. 1 a-2 b (in these camshafts the gear wheels 5, 23 with collars 7, 27 are cylindrical camshaft tubes 3, which are also hollow in the region of the gear wheel seat, Each of which is smaller than the prior art camshaft 37 of FIGS. 3a and 3b (in which the gear wheel 35 is fitted into a solid steel cylinder). Has mass.

  As a result of using a press-fit or welded flange 45, when the prior art camshaft 37 is manufactured, an additional work step occurs, so that the prior art camshaft 37 is the camshaft of FIGS. 1a-2b. 1 and 19 are complicated to manufacture.

FIG. 1 schematically shows a first embodiment for forming positioning bearings and gear wheel seats in the case of an assembly camshaft. FIG. 1 a shows the embodiment of FIG. FIG. 3 schematically shows a second embodiment of molding seats for positioning bearings and gear wheels in the case of an assembly camshaft. FIG. 2 a shows the embodiment of FIG. 1 shows a schematic view of a prior art assembled camshaft. Fig. 3a is a cross-sectional view of the prior art assembled camshaft of Fig. 3a.

Claims (10)

  A gear wheel (5, 23) is a camshaft attached to a camshaft tube (3, 21), and a collar (7, 27) attached to the gearwheel (5, 23) and the camshaft tube (3 21) A camshaft characterized in that the positioning bearing elements attached to 21) delimit the positioning bearing seats (11, 31).   Camshaft according to claim 1, characterized in that the gear wheel (5, 23) with the attached collar (7, 27) is shrink-fitted to the camshaft tube (3, 21).   Camshaft according to claim 1 or 2, characterized in that the positioning bearing element is in the form of a wear disc (9).   Camshaft according to claim 1 or 2, characterized in that the positioning bearing element is in the form of a cam (25) having an integral ring (29).   5. The gear wheel (5, 23) having the positioning bearing element and the attached collar (7, 27) is fixed axially by a positioning seat. The camshaft as described in.   The gear wheel (5, 23) having the length of the cam shaft (1, 19) coincides with the cam shaft tube (3, 21) and has the collar (7, 27) attached thereto. Camshaft according to any one of the preceding claims, characterized in that it is attached to the end of the tube (3, 21).   A method of manufacturing a camshaft (1, 19) in which a gear wheel (5, 23) is attached to a camshaft tube (3, 21), the collar (7, 27) attached to the gear wheel (5, 23). ) And positioning bearing elements attached to the camshaft tube (3, 21) delimit the positioning bearing seat (11, 31) relative to the camshaft (1, 19).   8. A method according to claim 7, characterized in that the gear wheel (5, 23) is shrink fitted to the camshaft tube (3, 21).   9. Method according to claim 7 or 8, characterized in that the positioning bearing element is shrink-fitted onto the camshaft tube (3, 21).   The collar (7, 27) is attached to the gear wheel (5, 23) before being attached to the camshaft tube (3, 21). The method described.

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