CA1272371A

CA1272371A - Tool for and method of making hollow articles

Info

Publication number: CA1272371A
Application number: CA000473871A
Authority: CA
Inventors: Edward A. Langford; Geoffrey A. Morden
Original assignee: PFD Ltd
Current assignee: PFD Ltd
Priority date: 1984-02-18
Filing date: 1985-02-08
Publication date: 1990-08-07
Anticipated expiration: 2007-08-07
Also published as: GB8618146D0; JPS61501831A; EP0153810B1; GB2183187B; BR8507121A; GB2183187A; EP0153810A1; ATE35784T1; AU3887985A; GB8404321D0; ZA85834B; ES540499A0; MX162499A; DE3563821D1; EP0201499A1; WO1985003655A1; ES8603308A1; AU583260B2

Abstract

ABSTRACT

A tool for use in the manufacture of the outer member of a cross-groove type of constant velocity ratio universal joint, by forming a blank in a die with the tool in the interior of the blank to define the internal shape of the joint member. The tool comprises first and second elements (33, 37) with portions (34, 38) which together define the shape required in the joint outer member, having formations (34a, 38a) which form the grooves therein, and have an internal cavity (40) which receives an expander (23) to hold the elements in their operative positions. After withdrawal of the expander, the first elements (33) can be moved radially inwardly to disengage them from the formed joint member and withdrawn, following which the second elements (34) can be moved inwardly and subsequently withdrawn.

Description

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P83 o68/GMD TOOL FOR AND METHOD OF
MAKING HOLLOW ARTICLES

This invention relates to the manufacture of hollow articles. The invention has been developed for the manufac-ture of the outer member of a constant velocity universal joint of the cross-groove type. In such a joint, ~here is an inner member and an outer member, the outer member having an internal cylindrical surface and the inner member an external cylindrical surface which surfaces are grooved and there are two sets of, preferably, helical grooves in each ; member, the grooves of the two sets being on helices of Opposite hand. For manufacturing simplicity, the grooves may be straight and inclined to the rotational axis of the joint member, instead of being truly helical. Balls are engaged in the grooves and are held in a cage and because of the crossed configuration of the grooves the balls are held in the bisector plane of the joint as the parts of the joint articulate, to give the joint constant velocity ratio (homokinetic) properties.

Although the invention has been developed for~ making outer members for such cross-groove constant velocity joints 20 ~it is applicable generall~y to the manufacture of hollow articles of the type, hereinafter referred to as being of the type specified, having at least two grooves in the internal surface thereof, the grooves having longitudinal axes of symmetry (as hereinafter defined) which differ (as hereinafter defined). The article may have at least two ;~ ~ sets of grooves~ wikh the grooves in each set being spaced ~; round the longitudinaI axis of the bore and having longitudinal axes of symmetry which are the same (as hereinafter defined), the longitudinal axes of symmetry of the grooves in one set being dif~erent from the longitudinal axes of symmetry of the~grooves in the other set.

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By 1ongitudinal axis of symmetry of a groore we ~ean the imaginary line which is equalIy spaced from the edges of the groove and which lies in an imaginary surface forming a continuation of the bore surface and containing said edges.

5When we say that the longitudinal axes of symmetry are the same we mean that the loci of points moving in synchronism from the one ends of said axes to the other bear a fixed relation to one another. Conversely, when we say that the longitudinal axes of symmetry dif~er we mean that the loci of such moving points do not lie in a fixed relation to one another. Thus, for example, the axes could i be on helices of different hand, or of the same hand and `~ different pitch or on helices of different pitch and hand.
Some of the axes could be straight and others could be helical Presently in the manufacture of outer members for cross-groove constant velocity joints the blanks are made by forging, extrusion or some other metal forming method and the grooves are then machined in the bore. Such machining operations are expensive in time and equipment besides removing material. It would be convenient to be able to form the grooves ln the bore without removal of metal or even to make them with imprecise grooves which would require less machining than at present. However since the longitudinal axes of symmetry of the grooves differ as defined above a one-piece tool could not be removed from the ; ~bore after the grooves had been formed.
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It is an object of one aspect of the invention to provide a tool for making hollow articles of khe type specified and particularly for making outer members of ` constant velocity joints in which machining of the grooves may be reduced or eliminated.

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The present invention provides a tool for use in the manufacture of a hollow article of the type specified, comprising a plurality of elements having portions together adapted to define a substantially complete external surface having a con~iguration corresponding to that required in the internal surface and having formatiorls corresponding to that required in the internal surface and having formations corresponding to and adapted to form said grooves~ said elements including first elements and second elements interposed between them, and the arrangement being such that - said portions of said first elements can be withdrawn from the artiele to leave a space or space to permit said second elements subsequently to be moved inwardly to disengage them from said internal surface and withdrawn from the article.

15~y a substantially compleSe surface, we mean one in which there are no gaps or discontinuities sufficient for the material of the article to enter during the forming ~ process, and which material would have to be removed - subsequently, e~g. by machining. By use of the tool according to the invention, the requirement for finish machining of the article can be reduced or eliminated.
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Preferably the elements o~ the tool together define an internal cavity into which an expander member is movable to hold the elements in their positions in which they define :
the external surface, and from which the expander member can be withdrawn to permit the first elements of the tool to be moved inwardly into the cavity prior to their withdrawal~
the side faces of at least said portions of the first elements, which contact at least said portions of the second elements being parallel to one another or convergent towards the outside of the tool.

Inward movement o~ the first elements of the tool prior to their withdrawal enables the elements to have formations which form the helical or inclined grooves in the bore of the article.

Preferably each of said portions of said first elements has a formation adapted to form one of said grooves of one set thereof, and each portion of a second element has a formation adapated to form one of said grooves of another set thereof which differs from said one set.

In their operative positions, the second elements may be supported by the side faces of the first elements, rather than directly by the expander member.

Further details of the tool according to the invention ~-^ 10 are described hereafter.

The invention also provides a press fitted with a tool into the invention, and further comprising a die through which a hollow blank having the tool inside it can be pressed to form the article. A particularly useful form of blank is also described hereafter.

The invention will now be described by way o~ exampIe with reference to the accompanying drawings, of which;

Figure 1 is an end view of an outer member of a cross groove constant velocity ratio universal joint, constituting an article of the type specified.
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Figure 2 is a section through the joint outer member of Figure 1.

Figure 3 is an end view of a blank to be used according to the invention in making the joint outer member.

25Figure 4 is a section through the blank of Figure 3.
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Figure 5 is a section through part of the press according to the invention, in a first stage of operation.

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Figure 6 shows the press of Figure 5, in a second stage of operation.

Figure 7 shows the press of Figures 5 and 6, in a third stage of operation.

Figure 8 is an enlarged view of part of a tool according to the invention, in section on the line 8-8 of Figure 9.

Figure 9 is an end view of the tool.
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Referring firstly to Figures 1 and 2, these show the ~o outer member o~ a cross groove constant velocity ratio universal joint, which is a hollow article with a cylind-rical internal bore having a number of grooves therein. The central axis of the cylindrical bore, which is the rota-tional axis of the joint member in use, is indicated at 100.
The joint member contains two sets of three grooves each, the grooves being of arcuate cross sectional shape and having helical longitudinal axes of symmetry. One set of grooves is indicated at 57j 58, 59 and these grooves are inclined in an anticlockwise helicaI sense when considered from above the joint member. The other set of grooves 60, 61, 62 are inclined in a clockwise helical sense when considered from above the joint member. The longitudinal axis of sy~metry of each of the grooves is indicated by the number of the groove with the suffix letter _, such axis of symmetry lying equidistant from the edges of the groove and on the imaginary cyIinder indicated by line 101, the cylinder containing the bore of the joint member.
, At present, in the manufacture of constant velocity joint outer members such as these, the grooves are machined in a blank which has been forged or extruded. Because the grooves are inclined in opposite hands, if they were formed by a one piece tool during extrusion of the article the tool would not be able to be removed from the finished article.
The present invention provides a tool which is capable of being removed from such a joint outer member.

Referring now to Figures 3 and 4 of the drawings, there is ~shown a configuration of blank which may with advantage be used with the tool to be described hereafter. It is cup shaped, with its internal and external walls diverging towards its free open end. The internal wall 70 is of generally frusto conical form, with two sets of oppositely inclined recesses therein. One set of recesses is indicated at 71, 72, 73, inclined in one direction, and the other set at 74, 75, 76 inclined in the opposite direction. These recesses, which are to form the grooves in the finished joint outer member, are of a configuration such that a one-piece forming tool can be withdrawn axially from the blank after the blank has been formed. Forming the blank to the finished joint outer member is achieved by inserting the tool to be described hereafter into the blank and forcing the blank through a die so as to deform the side wall of the blank inwardly as indicated by arrows 80 ln Figure 4.

Referring now to Figure 5 of the drawings, there is ~ shown a ram 20 of a press to which is secured, by a screw--~ 25 threaded connection ring 21, a mandrel 22. The lower end of ~ mandrel 22 has secured to it an elongate cylindrical ;~ expander member 23. A sleeve 24 is slidable longitudinally o~ mandrel 22,~ between limits determined by a peg 25 extending inwardly from sleeve 24 into a longitudinally extending slot 26 in mandrel 22. Towards the lower end of sleeve 24, there is a circumferentially extending flange 27, and slidable on sleeve 24 below khe flange 27 is a collar 28. The colIar 28 is spring biased upwardly by a plurality of tension springs 29 spaced around the collar, only one of which springs is shown in the drawing. The springs 29 engage pins 30 extending into the mandrel 22.

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~3~l Within flange 27, the sleeve 24 is provided with three equally circumferentially spaced radial apertures 31. Each aperture 31 receives a ball end of a peg 32 extending outwardly frorn the upper end of an element 33 having a head 34 at its lower end. Circumferentially spaoed about sleeve 24, between the apertures 31, are three slots 35 which extend downwardly from flange 27. Each slot 35 receives a peg 36 extending outwardly from the upper end of an element 37 having a head 38 at its lower end. The pegs 36 are long enough to be engaged by collar 28. The head portions 34, of elements 33, together define parts of` an internal cavity 40 ~ which is frusto conical and in which an end portion of the -~ expander member 23 is a close fit.
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The shapes of the head portions 34, 38 of elements 33, 37 are shown in greater detail in Figures 8 and 9 of the drawings. Head portions 34 have formations 34a thereon which form the grooves of one hand, and head portions 38 have formations 38a which form the grooves of opposite hand in the joint member. It will be noted that head portions 34 have sides which are parallel or converge slightly towards -; the~outside of the tool, while head portions 38 interposed ., there between are wedge shaped and are supported by the ;~ sides of head portions 34 rather than directly by contact with the end portion of the expander member.
~,, In use of the apparatus, the assembly of elements 33, 37, with the expander member 23 therein, is introduced into a blank as shown in Figures 3 and 4. The press is then used to force the blank with the tool within it into a die ~1.
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This has the effect of deforming inwardly the wall of the blank adjacent its free end, to conform to the surface shape ~ of the assembled tooI elements.
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The tool must then be withdrawn from the formed joint outer member, and the first stage in such withdrawal is shown in Figure 6.
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Initially, the open end of the joint outer member is engaged by suitable gripper means, not shown, to prevent its upward movement. Thereafter, mandrel 22 is raised by operation of` the press. Since the elements 33, 37 cannot be withdrawn together from the joint outer member because of the grooves therein the sleeve 2~ remains in a fixed position as the mandrel is raised, until peg 25 abuts the ; lower end of slot 26. During this 7 springs 29 have been tensioned, while the expander member, fast with mandrel 22, has been withdrawn clear of the internal cavity of the head portions of elements 33, 37.
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The elements 33 are now free to tilt inwardly. This tilting is possible by virtue of the ball ends of pegs 32 engaging in apertures 31. Such tilting permits the head 15 portions to be withdrawn from the joint outer member, with continued upward movement of mandrel 22. Head portions 38 of elements 37 remain in contact with the joint outer member, supported by elements 33.

On continued upward movement of mandrel 22, springs 29 20 are tensioned further as pegs 36 on elements 37 move down slots 35, taking collar 28 down the sleeve 24 with them.
Ultimately a position as shown in Figure 7 is reached, in which pegs 36 have reached the lower ends of slots 35 s tensioning springs 29 to their fullest extent~ The elements 25 37 are now no longer supported by elements 33~

The condition shown in Figure 7 will not exist more than momentarily, since there will be a tendency for the elements 37 to move inwardly as soon as their support by elements 33 ceases. However, as a consequence of the 30 deformation of the material of the joint outer member, the elements 37 and indeed, elements 33 at an earlier stage, may ~ 1 ~,J ~C3 ~ ~

adhere thereto so that an appreciable force needs to be exerted, by pegs 36 engaging bottoms of slots 35, before the elements 37 will remove from the joint outer member. This is why the joint outer member must be engaged by some form of gripper. As soon as the elements 37 are clear of the joint outer member, springs 29 will bring collar 28 upwardly and return, firstly, the elements 37 to their starting position. Thereafter springs 29 will bring sleeve 24 along with collar 28 upwardly to its original position relative to mandrel 22, and the parts will then regain their relative positions illustrated in Figure 5.

Although as described the apparatus is used for the manufacture of the outer member of a constant velocity ratio universal joint9 it will be appreciated that it is suitable for manufactur-e of other components of the same general configuration, having an internal surface with grooves of different hand therein. There may be other numbers of elements such as elements 33, 37, according to the shape of the component to be manufactured.
~' Although as described above the tool assembly i3 mounted on the ram of the press and the die is fixed on the base of the press, it would be possible for the die rather than the tool assembly to be moved by the press ram. The relative movements occuring between the parts of the tool asse-bly and the die would be the same.

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Claims

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A tool for use in manufacture of a hollow article, said tool comprising a plurality of elements having portions which are together adapted to define a substantially complete external surface having a configuration corresponding to that required in the internal surface of the article and an internal cavity into which an expander member is movable to hold said elements in positions in which they define said external surface, said elements comprising first elements and second elements interposed between them, and the arrangement being such that the expander member can be withdrawn from said cavity to permit said first elements of the tool to be moved inwardly into said cavity and said portions thereof withdrawn from said article to leave a space or spaces to permit said portions of said second elements subsequently to be moved inwardly into said space(s) to disengage them from said internal surface, and withdrawn from said article, the tool being adapted to make an article having at least two sets of grooves in said internal surface thereof said sets of grooves having longitudinal axes of symmetry which differ such that the loci of points moving in synchronism from one end of said axes to the other do not bear a fixed relation to one another, while the grooves in each set have axes of symmetry which are the same such that the loci of such moving points have a fixed relation to one another, said portions of said elements having formations corresponding to and adapted to form said grooves.

2. A tool according to Claim 1 in which side faces of at least said portions of the first elements, which contact at least said portions of the second elements, are parallel to one another or convergent towards the outside of the tool.

3. A tool according to Claim 2 in which said second elements are supported in use by said side faces of the first elements, rather than by said expander member.

4. A tool according to Claim 2 or 3 in which each of said portions of said first elements has one formation adapted to form one of said grooves of one set thereof, and each of said portions of said second elements has one formation adapted to form one of said grooves of another set thereof.

5. A tool according to Claim 2 or 3 in which the expander member has a tapered portion which enters said internal cavity defined by said elements of the tool, to facilitate withdrawal of the expander member after a forming operation.

6. A tool according to Claim 2 including a holder member which holds said first elements to allow for said inward movement thereof, said holder member being mounted for movement relative to said expander member, abutment means engaging said holder member when said expander member is withdrawn from said cavity, to withdraw said first elements from said article, and further abutment means engaging said second elements after further withdrawal of said expander member to withdraw said second elements from said article.

7. A tool according to Claim 6, including spring means operative between said expander member and said first and second elements to return said elements to their operative positions and said expander member to said cavity.