WO2019155147A1

WO2019155147A1 - Method for producing a dogbone-type female form in a mechanical component

Info

Publication number: WO2019155147A1
Application number: PCT/FR2019/050228
Authority: WO
Inventors: David Lampis; Pierre COSSART
Original assignee: Psa Automobiles Sa
Priority date: 2018-02-09
Filing date: 2019-02-01
Publication date: 2019-08-15
Also published as: FR3077750A1; FR3077750B1

Abstract

The method relates to producing a dogbone-type female form (FF) in a mechanical component (2), the female form comprising at least one end-head-forming part (21), the method comprising operations for removing material by machining. According to the invention, the method comprises the following steps: a) producing a blank of the end-head-forming part by rapid removal of material with drilling operations using a standard drill bit and/or milling with a standard cylindrical end milling cutter; b) producing a groove (20) which forms a central functional portion of the female form by means of a milling operation about a longitudinal central axis (AC) of the female form; and c) producing first and second functional clamping and bearing zones (23) in the end-head-forming part, which zones are located symmetrically on either side of the longitudinal central axis, by means of a contouring operation with the milling cutter.

Description

METHOD FOR MAKING A FEMALE SHAPE OF THE "DOG BONE" TYPE IN A MECHANICAL PART

[001] The invention relates generally to the clamping of two mechanical parts. More particularly, the invention relates to a method of producing a female form of the type called "dog bone", or "dogbone" in English, in a mechanical part. The invention also relates to an eccentric pinion comprising a device for clamping two mechanical parts of the "dog bone" type. The method applies in particular to mechanical parts made of steel, but not exclusively.

[002] The device for clamping two mechanical parts of the "dog bone" type has a particular application in the variation system of the compression ratio of a heat engine, such as that described by the applicant in its patent application FR3036146A1. . In this system of variation of the compression ratio, there is provided a set of eccentric pinions which are mounted on the crankshaft crank pins of the heat engine so as to cooperate each with a rod end.

[003] An example of an eccentric pinion 1 adapted for this system of variation of the compression ratio is shown in FIG. The eccentric pinion 1 is split into two half-toothed rings 10 to allow its assembly on the crankpin crankpin. The toothed half-rings 10 are assembled on the crank pin by fitting locking elements 11, so-called "dog bones", inside housings 12 which are arranged in the tooth half-rings 10. Pions 13 and corresponding orifices 14 form an indexing device for the assembly of the toothed half-rings 10. In this mechanical connection which is similar to hooping, the locking elements January 1 constitute male elements whose heads at their ends opposite, are provided to engage in the housing 12 constituting the female elements. Supporting planes of a head of the locking element January 1 and the corresponding housing 12 must comprise including respective clearance angles, so that the bonding force between the toothed half-rings 10 increases with the depth of the insertion of the locking element 1 1 in the housing 12.

[004] The realization of the female form of housing housing the locking element in "dog bone" poses a technical difficulty to the skilled person. Indeed, this female form must be very precise to ensure tightening. A method removal of material by electrochemistry would not achieve the required tolerances.

By EP0339777A1, it is known a method of extracting material in a piece of metal or composite material reinforced with fibers. According to this method, four orifices are drilled in the piece at the four corners of a square shape. Abrasive wire is introduced through the orifices and is used to cut a block of cubic material into the workpiece. The block of cubic material is then removed from the part to disengage the desired cubic female form. Such a method is not suitable for producing the female form "dog bone". Indeed, among other things, this method does not allow the realization, with the desired tolerances, tilt angles in the female form "dog bone" and also poses a problem for obtaining a good surface.

[006] It is desirable to provide a person skilled in the art with a method specifically designed for machining a female "dog bone" shape in a room, allowing tolerances and the state to be obtained. required and adapted for mass production with optimized tooling costs.

According to a first aspect, the invention relates to a method for producing a female form of the type called "dog bone" in a mechanical part, the female form comprising at least one end-head part, the method comprising operations extraction of material by machining. According to the invention, the method comprises the following steps: a) making a blank of the end head part by rapid removal of material with standard drill bit operations and / or cylindrical milling cutter two standard sizes , b) forming a groove forming a functional central portion of the female form by a milling operation along a longitudinal central axis of the female form, and c) forming first and second functional clamping and support zones in the forming portion. end head, located symmetrically on either side of the longitudinal central axis, by a contouring operation with the milling cutter.

According to a first particular embodiment, step a) of the method comprises two drilling operations with a first standard drill according to first and second axes in the end head portion and a drilling operation with a second standard drill in a third axis in the end head portion, the diameter of the first drill bit being smaller than that of the second drill bit.

According to a second particular embodiment, step a) of the method comprises a drilling operation with a standard drill according to a third axis in the end-head portion and two milling operations with a standard-size cylindrical bur. in first and second axes, the diameter of the cylindrical cutter two standard sizes being smaller than that of the drill.

[008] According to another particular feature, the milling operation of step b) is performed with a two-size cylindrical milling cutter and / or a saw mill.

[009] According to yet another particular characteristic, the contouring operation with the cutter comprises several copying passes.

In another aspect, the invention also relates to an eccentric pinion comprising two toothed half-rings and a clamping device of the toothed half-rings of the type called "dog bone". According to the invention, housings of the clamping device have a female shape produced by the implementation of the method briefly described above.

[001 1] The invention also relates to a heat engine comprising a crankshaft equipped with at least one eccentric pinion as described above.

Other advantages and features of the present invention will appear more clearly on reading the detailed description below of a particular embodiment of the invention, with reference to the accompanying drawings, in which:

- Fig.1 is a perspective view showing an exemplary embodiment of an eccentric pinion for a variation of the compression ratio of a heat engine system;

- Fig.2 is a plan view from above showing a female shape "dog bone" obtained in a room by the implementation of the method according to the invention; FIGS. 3A to 3D show machining steps included in a first embodiment of the method according to the invention; and

- Figs.4A and 4B show machining steps included in a second embodiment of the method according to the invention.

The female form FF "dog bone" made in a part 2 is shown in a top view in Fig.2.

The female form FF comprises a central groove 20 extending along a length L, along a central longitudinal axis AC, and two portions forming end heads 21 located on either side of the central groove 20. The groove 20 is a functional central portion of the female form FF and has a substantially parallelepipedal shape with planar faces.

The end heads 21 each comprise a main wall in a circular arc 22 which is extended at its ends by two zones 22A having the same geometric shape and forming connection areas with the central groove 20. The arc wall of circle 22 is centered on an axis of revolution A which is in intersection with the longitudinal central axis AC and included in a transverse plane of the part 2 perpendicular to the longitudinal central axis AC thereof.

A connection zone 22A is shown in detail in the enlargement AG of Fig.2. As shown in the enlargement AG, the connecting zone 23 is formed of several portions in an arc. The connection zone 22A comprises a first clearance zone 210, a second clearance zone 21 1, a functional support and clamping zone 23 and a third clearance zone 212. The clearance zones 210 and 21 1 are contiguous and centered. on axes of revolution B1 and B2 which are parallel to the axis A, respectively. The functional support and clamping zone 23 is located between the clearance zones 21 1 and 212. The clearance zone 212 forms a rounded edge with the longitudinal wall of the central groove 20.

The FF female form hosting the locking element in "dog bone" must be precise. It is essential to maintain the tolerances on the functional zone of support and tightening 23, the length L and the zones of clearance. A draft angle typically of a few degrees, for example of 2 degrees, is necessary in the functional area of support and clamping 23 to produce the tightening of the locking element 1 1 (FIG. when it is pushed into the female form FF. The surface condition must also be guaranteed.

The method according to the invention uses a specific range of machining. The female form FF is made by machining the different areas with several tools from a solid form.

The method according to the invention comprises four machining steps in which are performed drilling and milling operations. First and second embodiments of the method according to the invention are described below.

The first embodiment of the method according to the invention comprises four machining steps E1 to E4 shown respectively in Figs.3A to 3D.

The machining steps E1 and E2 are intended to achieve a blank in the room 2, removing a maximum of material in a minimum of time. The machining steps E1 and E2 are performed entirely with drilling operations, namely, six holes. Standard commercial drills are used to make these holes.

In step E1, corresponding to Fig.3A, four holes are made along the axes B1. A drill diameter D1 is used for this. These holes make it possible to obtain directly the zones of clearance 210, in arc of circle, in the heads 21.

In step E2, corresponding to Fig.3B, two holes are then made along the axes A. A large diameter drill D2, relative to the diameter D1, is used for this. These holes make it possible to directly obtain the arcuate walls 22 in the heads 21.

In step E3 corresponding to Fig.3C, the groove 20 is made by milling. A two-size cylindrical bur is typically used. Alternatively, a saw mill may be used in place of the two-size cylindrical milling cutter. This milling operation makes it possible to directly obtain the groove 20 in a functional state with the desired tolerances.

In step E4, corresponding to FIG. 3D, the functional support and clamping zones 23 are obtained in their functional state by contouring with the milling cutter. Typically, multiple copy passes are made to achieve the desired contour with the specified draft angle, geometric tolerances, and surface condition. Alternatively, it may be used a specific form of cutter tool, incorporating an angle to obtain the draft. Note however that the use of specific tools increases the machining cost of the female form FF.

The second embodiment of the method according to the invention comprises four machining steps E1 'to E4' shown respectively in Figs.4A, 4B and 3C, 3D.

As in the first embodiment, the machining steps E1 'and E2' are intended to achieve a blank in the room 2, removing a maximum of material in a minimum of time. The machining steps E1 'and E2' are performed with drilling and milling operations, namely, two holes and four millings. A standard drill bit and a standard two-size cylindrical bur are used to perform these operations.

In step E1 ', corresponding to Fig.4A, two holes are made along the axes A. A drill diameter D2 is used for this. These holes make it possible to directly obtain the arcuate walls 22 in the heads 21.

In step E2 ', corresponding to Fig.4B, four milling, with a cylindrical milling cutter two standard sizes, are then performed along the axes B1. These millings make it possible to directly obtain the zones of clearance 210, with the diameter D1, in the heads 21.

The steps E3 'and E4' performed next are identical to the steps E3 and E4 of the first embodiment.

In the two embodiments described above, the realization of the blank, with the steps E1, E2 or E1 ', E2', allows a rapid removal of material and a substantial time saving in the duration of performing step E4 or E4 '. Indeed, the length to be machined by contouring in step E4 or E4 'is substantially reduced by the operations performed in steps E1, E2 or E1', E2 '. The total time gain obtained is of the order of 60%, due to a reduced finishing time.

The method according to the invention has been described above relative to the realization of a female form "dog bone" complete. Of course, the method according to the invention also applies to the realization of a female half-form "dog bone" such as the housing 12 shown in Fig.1. The invention is therefore not limited to the particular embodiments which have been described here by way of example. Those skilled in the art, according to the applications of the invention, may make various modifications and variations that fall within the scope of the appended claims.

Claims

1. A method of producing a female form (FF) of the type known as "dog bone" in a mechanical part (2), said female form (FF) comprising at least one end-head part (21), said method comprising material extraction operations by machining, characterized in that it comprises the following steps: a) producing (E1, E2; E1 ', E2') a blank of said end-head portion (21) by rapid removal of material with standard drill bit operations and / or cylindrical milling cutter two standard sizes, b) producing (E3, E3 ') a groove (20) forming a functional central part of said female form (FF ) by a milling operation along a longitudinal central axis (AC) of said female form (FF), and c) producing (E4, E4 ') first and second clamping and supporting functional areas (23) in said portion forming end head (21), located symmetrically ent on both sides of said central longitudinal axis (AC), by a contouring operation with the cutter.

2. Method according to claim 1, characterized in that step a) comprises two drilling operations (E1) with a first standard drill bit (D1) along first and second axes (B1) in said end-head portion. (21) and a drilling operation (E2) with a second standard drill bit (D2) along a third axis (A) in said end head portion (21), the diameter (D1) of the first drill bit being smaller than that the second drill (D2).

3. Method according to claim 1, characterized in that step a) comprises a drilling operation (E1 ') with a standard drill bit (D2) along a third axis (A) in said end-head portion (21). ) and two milling operations (E2 ') with a standard two-size cylindrical milling cutter according to first and second axes (B1), the diameter (D1) of the standard two-size cylindrical milling cutter being smaller than that of the drill bit (D2).

4. Method according to any one of claims 1 to 3, characterized in that said milling operation of step b) is performed with a two-size cylindrical milling cutter and / or a saw mill.

5. Method according to any one of claims 1 to 4, characterized in that said contouring operation to the milling of step c) comprises several copying passes.

6. eccentric pinion (1) comprising two toothed half-rings (10) and a device for clamping the toothed half-rings of the so-called "dog bone" type, characterized in that housings (12) of said clamping device have a female form (FF) produced by carrying out the process according to any one of claims 1 to 5.

Heat engine comprising a crankshaft equipped with at least one eccentric pinion (1) according to claim 6.