FR2550598A1 - Pulley - Google Patents

Abstract

The invention relates to a pulley, formed of two sheet metal discs 10 comprising a flat central part 12, a hollowed peripheral rim 14 and an axial boss 16 shaped projecting on the central part 12 on the same side as the rim 14. The discs are fixed to each other by spot welds in their central parts 12, and the axial bosses 16 allow good positioning on a pulley-support shaft.

Description

PULLEY
The invention relates to a pulley, of the type formed by two discs each having a flared peripheral rim and a circular central part, which are fixed back to back by their central parts and the peripheral rims of which delimit the groove of the pulley.

We know, from French Patent 2,473,666, a pulley of this type in which the discs are welded to each other by their central parts, and a solid solid core coats these central parts and fills aligned holes formed in these central parts. Such a pulley is obtained by placing the two discs welded to each other inside a mold in which is poured said material intended to form the core, for example aluminum or a metal alloy.

To use this pulley, a cylindrical hole is drilled in the aluminum core and the hole is bored to the size of the shaft on which the pulley has to be mounted, a keyway is formed in the bore of the core and on the 'shaft, and the pulley is mounted on the shaft by placing the key in the grooves of the bore of the core and the shaft and using a stop screw for immobilization of the key.

The object of the invention is to avoid these machining operations and to reduce to a large extent the cost price of the pulley and of its mounting operations.

The invention therefore provides a pulley of the aforementioned type, formed by two discs with a flared peripheral rim and a circular central part, which are fixed back to back by their central parts and whose peripheral rims delimit the groove of the pulley, characterized in that said central parts of the discs each comprise an axial boss centered on the axis of the pulley or axis of the central part, the two bosses being distant or spaced from one another when the discs are fixed one to another.

Advantageously, the central parts of the two discs are fixed to each other by means of a welding press, by welded bosses which are distributed around the axial bosses.

With such a pulley, it is no longer necessary to provide an axial core of metal or alloy cast on the central parts of the discs. When mounting the pulley on a shaft, it suffices to drill, with the desired precision, the two axial bosses of the discs to the diameter of the shaft, to arrange the pulley on the shaft and to immobilize it by welding.

The distance separating the two axial bosses makes it possible to obtain a very good positioning of the pulley on the shaft, without risk of tilting or of being placed obliquely with respect to the axis of the shaft.

A pulley according to the invention, thus mounted on a section of shaft, has a cost price at least 50% lower than that of a conventional pulley.

In the description which follows, given by way of example, reference is made to the appended drawings in which - FIG. 1 is a front view of a pulley according to the invention - FIG. 2 is a view in axial section according to the line
II-II of Figure 1 - Figure 3 is a view similar to Figure 2, but showing the pulley mounted on a shaft.

The pulley shown in FIGS. 1 and 2 is formed by two identical discs 10, for example made of sheet metal, which each comprise a flat central part 12 of annular shape, an annular peripheral flange 14 of flared shape, and an axial boss 16 with contour circular, centered on the axis 18 of the pulley or axis of each disc. The central boss 16 projects, on the plane of the central part 12, on the same side as the peripheral rim 14.

The two discs 10 are placed back to back, their central parts 12 being applied to each other as shown in FIG. 2, and are fixed to each other by welding points 20 of the central parts 12, which are distributed around the axial bosses 16. During this welding operation, the two discs are held from the outside, and the welding points 20 can be prepared in the flat central parts 12 by bosses. Advantageously, a welding press is used.

This gives the pulley shown in Figures 1 and 2, and whose groove 22 is formed between the peripheral flanges 14 of the discs.

Advantageously, each disc 10 is obtained with its flared peripheral rim 14 and its axial boss 16 by stamping a sheet metal disc.

For mounting such a pulley on a cylindrical shaft section 24, it suffices to pierce the bosses 16 of the discs along the axis 18, to bore the holes to the diameter of the shaft 24, then to introduce the 'shaft 24 in the holes thus formed and weld it as indicated at 26 on the edges of the holes of the bosses 16. The distance between the two bosses allows to obtain a very correct positioning of the pulley on the shaft 24, without risk tilting or placing obliquely to the axis of the shaft, which could occur if the bosses 16 did not exist and if the through holes of the shaft 24 were formed directly in the flat parts 12 applied to each other.

 Gracie at the distance separating the bosses 16 in which the through holes of the shaft 24 are formed, the withdrawal of the material occurring during the cooling of the weld 26 cannot cause the pulley or one of the discs to tip over. 10 relative to the axis of the shaft 24, provided of course that the through holes of the shaft 24 formed in the bosses 16 have ur. diameter adjusted to that of the shaft 24.

Preferably, the pulleys s-; on the invention which are delivered by the manufacturer to users have the structure shown in Figures 1 and 2, that is to say that the bosses 16 are not drilled. It is the user who drills the bosses to the dimensions of the shaft section 24 that he intends to use and who welds the shaft 24 on the edges of the boss holes.

The replacement of a pulley, by the user, is therefore carried out by destruction of the old pulley and its shaft section, by taking a new pulley as shown in Figures 1 and 2, by piercing the bosses 16 to the desired diameter, and by scudding a section of shaft 24 on the edges of the boss holes.

This procedure reduces the cost price of a pulley and its assembly operations by at least 50%.

As shown in FIGS. 1 and 2, the position of the axis 18 of the pulley can be identified on the bosses 16 by axial impressions 28.

Claims (7)

Claims 1. Pulley, formed of two discs with a flared peripheral rim and a circular central part, which are fixed back to back by their central parts and whose peripheral rims delimit the groove of the pulley, characterized in that said central parts (12 ) discs (10) each comprise an axial boss (16) centered on the axis (18) of the pulley or disc axis, the two bosses (16) being distant or spaced from one another when the discs (10) are fixed to each other. 2. Pulley according to claim 1, characterized in that the axial boss (16) of a disc (10) projects, on the plane of the flat central part (12) of the disc, on the same side of this plane as the peripheral edge (.4) of the disc. 3. Pulley according to claim 1 or 2, characterized in that each axial boss (16) is formed by stamping the central part (12) of the disc. 4. Pulley according to one of the preceding claims, characterized in that the discs (10) are fixed to one another by their central parts (12) applied to one another, by means of points of weld (20) distributed around the axial bosses (16). 5. Pulley according to one of the preceding claims, characterized in that the discs (10) are made of sheet metal. 6. Pulley according to one of the preceding claims, characterized in that the axial bosses (16) of the pulley discs are pierced with an axial cylindrical hole for the passage of a cylindrical shaft (24) for supporting the pulley . 7. Pulley according to claim 6, characterized in that the shaft (24) is welded to the edges of the cylindrical hole of each axial boss (16).