DE3721692A1 - Method of producing a belt pulley for a variable speed mechanism, and belt pulley - Google Patents

Abstract

In a belt pulley for a variable speed mechanism, the one plate disc and the relevant hub are fixed in such a way as to be locked against rotation and displacement relative to one another. In this arrangement, the hub is fitted with an end connecting extension into an adapted, coaxial bore in a hub piece of the plate disc. A method of producing and connecting the hub and the plate disc and a belt pulley produced from this is to be provided in order to be able to join together the hub and the plate disc with little effort in such a way that they are locked against rotation and displacement without additional securing means having to be provided. To this end, the connecting extension of the hub is given a non-circular outer profile and the bore of the hub piece is correspondingly given a non-circular inner profile; a sharp edge is formed at the transition between the outer end face and the peripheral sides of the connecting extension; the bore of the hub piece narrows starting at the insertion side of the connecting extension from a cross-sectional profile which is the same as or greater than that of the connecting extension to a cross-sectional profile which is smaller than that of the connecting extension; and the connecting extension is driven right into the narrowed area of the bore of the hub piece, the sharp edge on the connecting extension cutting an exact fit in the bore of the hub piece.

Description

The invention relates to a method for manufacturing put and connect the hub and the disc Pulley for a variable speed gear, in which the hub with an end connector in one adapted, coaxial bore in a hub of the Tel inserted and rotatably and displaceably is fixed. The invention further relates to a belt disc, which is produced by this process.

The aforementioned adjustment gear is a so-called belt adjustment gear, the two axially paral lel pulleys arranged in alignment with each other. The center distance of both pulleys is constant and that Gear ratio of the belt adjustment gear changed in that the effective diameter of one belt disk enlarged and at the same time that of the other belts disc is reduced, the loop length for  the straps stay the same. The adjustment of the knitting knife of the pulleys can be reached by two each other coaxially opposite washers with conical trained belt sides facing each other and in axi aler direction are displaceable relative to each other, wherein moving with the plate washers at a con constant belt width changes the effective diameter. For this be the first of the two plate washers sits axially in front stationary hub on which the second disc moves Lich is stored. The first disc with its hub piece and the hub with the connection approach become too next manufactured as separate parts, after which they rotate and be connected to each other in a manner that prevents displacement the known method is complex and expensive.

It is known to connect the hub as a flange form the on a corresponding counter surface of the Hub piece of the plate washer. By means of the The flange will pass through the hub the plate washer. In another known version one connects the disc and the hub by means of Shrink gluing together, which is a high machining area accuracy and an exact adhesive application required. Continue Versions are known in which the torsional strength between the hub and the plate washer through a key which is achieved while using the anti-shift device a radially inserted grub screw. Close Lich you already have the hub connection an external thread and accordingly the mounting hole of the Ver the hub piece of the disc with an internal thread see to be able to screw both parts together, in which case the anti-rotation lock is in turn by an axial  set screw to be used was provided.

All of these known methods of making and connecting the hub and the disc are very expensive because additional connecting means to be attached are provided Need to become. As with the feather key, this requires binding, securing with a grub screw and screw connection not additional parts but also increases the Assembly effort. In addition, it is mostly cylindrical Fits between the hub and the washer what he high demands on the locking center against twisting between these two parts, which ultimately also applies to the threaded connection.

The invention is therefore based on the object, a Ver drive of the type mentioned and one afterwards posed pulley to create with little effort the plate washer and the hub are locked and rotatable to be able to assemble without additional security tel must be provided.

This object is achieved in a method of the generic type Kind according to the invention solved in that the connection approach a non-circular outer profile and accordingly the Bore of the hub piece receives a non-round inner profile, at the transition between the outer face and the um a sharp edge on the is formed, the bore of the hub piece is different from the Entry side for the connection approach from a cross section profile that is equal to or larger than that of the verbin approach is tapered to a cross-sectional profile that is smaller than that of the connection approach, and that the  Connection approach into the tapered area of the bore of the hub piece is driven, the sharp edge an exact fit in the hole of the Cuts into the hub piece.

The particular advantage of the method according to the invention is that by the front sharp edge on the Connection approach of the hub a clean counter profile in the Cut hole in the hub of the disc or punched. The exact match between the Connection approach of the hub and the hub piece of the plate This means that the disc only takes place during the joining process, and since there if there is a punching or peeling effect, an individual one Alignment of the parts to be joined conditioned by the Existing tolerances are compensated for are very precise in the drilling of the hub piece the plate and the formation of the outer profile of the Connection hub approach unnecessary.

The hub piece or the entire plate is advantageous disc with integral hub piece a light metal, such as aluminum, which is relatively high Has thermal expansion coefficient. You can then before the one insert the connecting plate onto a plate Heat the temperature of around 100 ° C to the hole for the To expand the joining process slightly. At one temperature of about 100 ° C there is still no structural change in the Light metal instead. It is particularly advantageous to call Tel disc with the hub piece made of die-cast aluminum to deliver, then the hole in  the hub piece can be cast. In addition, the aluminum minium die casting relatively brittle, what the punching or Peeling process when inserting the connection approach into the Drilling favored. To blunt the sharp edge the front of the Ver to avoid hub attachment, it is advantageous to to manufacture the hub with the connecting lug from steel. Another advantage with the choice of materials mentioned is still in that the cut surfaces of the bore in the Na Then swell the surface of the plate a little and thereby a slight positive connection in the axial direction between the hub connection piece and the hub piece the disc is reached, which makes the displacement resistant speed increased significantly.

The fit profile of the connection approach is expedient the hub and the bore of the hub piece of the disk polygonal. It is particularly suitable here for the standard polygon profile "PC 4". It can be beneficial is responsible for taking a turn between the first plate be and the second plate of a complete belt slice can be used if namely the second plate pulley on the pulley of the first tel washer axially displaceable is a correspondingly polygonal hub has continued in the process of joining between the hub and the first plate, Polygonpro fil of the hub piece of the first disk with a ge suitable game for axial displacement. One does the hub hub connection shorter than the length  the bore of the hub piece of the disk and drives him so far into the bore of the hub piece that for Correspond to the pulley of the first disc the engaging portion of the bore of the hub piece ver remains.

The invention is based on the drawing an embodiment explained in more detail. Here demonstrate:

Fig. 1 shows a longitudinal section through a pulley for a speed belt drive,

Fig. 2 is a perspective view of the first plate washer and the associated hub of the pulley of FIG. 1 before the joining process and

Fig. 3, the plate with the hub accordingly Fig. 2 after the joining process.

In detail, Fig. 1 shows a complete pulley for a belt adjustment gear, which consists essentially of a first plate 1 and a second plate 2 , which are arranged coaxially to each other, and with conical end faces 3 and 4 , the belts, opposite each other. Between the plate discs 1 and 2 runs on the pulleys 3 and 4 with wedge-shaped flanks supporting belt 5 , for which the effective diameter of the pulley can be changed.

For this purpose, the two table discs 1 and 2 1 are axially adjustable to each other, and in the upper half of FIG. 1 is at the smallest possible distance between the table discs 1 and 2, the largest effective diameter, and in Fig. Below at the maximum possible distance between the two table discs 1 and 2 shows the smallest effective diameter for the belt 5 ge.

The first disk 1 has a hub piece 6 , which protrudes on the side of the pulley 3 remote in the axial direction Rich. In the hub piece 6 , a hub 7 is rotatably and non-displaceably inserted, which for this purpose has at one end a radially projecting connecting projection 8 , which corresponds to a bore 9 of the hub piece 6 .

As illustrated in FIG. 2, the disk 1 with the hub piece 6 arranged in one piece thereon and the hub 7 with the connecting projection 8 are produced as initially separate parts. The plate 1 is made in die-cast aluminum, the bore 9 is immediately cast into the hub piece 6 . The bore 9 has a polygonal cross-sectional profile, which corresponds to the standard version "PC 4". An adapted outer profile has the connecting approach of the hub 7 , which is made of steel. The connection projection 8 has a radial end face 11 and axially parallel peripheral surfaces 12 which close at right angles to the end face 11 . As a result, the connecting projection 8 has a sharp edge 13 at its front end in the joining direction, which has the function of a peeling or punching cutting edge.

The bore 9 in the hub piece 6 of the disk 1 is initially slightly conical, but the taper angle α is shown exaggerated ben for clarification in Fig. 2. In practice, it is approximately 0.5 to 1 degree, and as a result the bore 9 tapers from a cross section on the belt side 3 of the plate disk 1 , which is the same size or slightly larger than the cross section of the connecting projection 8 of the hub 7 Cross section, which is smaller than that of the connecting projection 8 of the hub 8 . As a result, the connection projection 8 with its sharp edge 13 can be easily attached to the bore 9 lying on the pulley 3 , which can be further favored by heating the plate washer 1 and corresponding slight expansion of the bore 9 , but thereafter the connection attachment 8 must be used with force dung are further driven into the bore 9 until it reaches the end position shown in FIG. 3. Only then the final inner profile of the bore 9 is finished cut, whereby an individual adjustment between the connec tion approach 8 of the hub 7 and the bore 9 of the hub piece 6 of the disk 1 takes place. After assembly, the plate 1 and the hub 7 are absolutely rotatably and ver slidingly connected to each other.

Fig. 3 also reveals that the connecting extension 8 is shorter in the axial direction than the bore 9 , thereby ver remains in the driven end position of the hub 7, a cut engagement area A of the bore 9 to the belt pulley 3 of the plate disc 1 , in the the second plate disk 2 axially displaceably engages in Fig. 1 he identifiable hub extension 10. The hub extension 10 of the second plate 2 has a correspondingly adapted, polygonal outer profile, so that the second plate 2 and the first plate 1 are axially displaceable relative to each other, but non-rotatably connected. This relieves the guidance of the second disk 2 on the hub 7 of the torque transmission.

Claims (7)

1. A method for producing and connecting the hub and the plate washer of a pulley for an adjusting gear, in which the hub is inserted with an end connection connection into an adapted, coaxial bore in a hub piece of the plate disk and is fixed in a rotationally and displaceably, characterized in that the connecting lug ( 8 ) receives a non-round outer profile and correspondingly the bore ( 9 ) of the hub piece ( 6 ) receives a non-round inner profile, at the transition between the outer end face ( 11 ) and the peripheral sides ( 12 ) of the connecting lug ( 8 is formed) has a sharp edge (13), the bore (9) of the hub portion (6) extends dung approach of the insertion side for the Verbin (8) made from a cross-sectional profile, which as equal to or greater of the connecting lug (8) , tapered to a cross sectional profile than the smaller of the connecting lug (8), and in that the dung Verbin projection (8) extends into the tapered B rea of Boh tion of the hub piece (6) is driven, wherein the sharp edge (13) an exact fit (6) cuts into the bore (9) of the hub portion of the connection neck (6). 2. The method according to claim 1, characterized in that at least the hub piece ( 6 ) of the disc ( 1 ) consists of a light metal, such as aluminum, and heated to a temperature of about 100 ° C before inserting the connecting approach ( 8 ) becomes. 3. The method according to claim 2, characterized in that the plate ( 1 ) with the hub piece ( 6 ) consists of die-cast aluminum. 4. The method according to any one of claims 1-3, characterized in that at least the connecting projection ( 8 ) of the hub ( 7 ) consists of steel. 5. The method according to any one of claims 1-4, characterized in that the taper angle ( α ) of the bore ( 9 ) of the hub piece ( 6 ) of the disc ( 1 ) is approximately 0.5 degrees. 6. pulley for an adjusting gear with a disk disk, which has a hub piece with a coaxial bore and a fitting hub fitted therein, via which the hub is connected to the disk pulley and non-rotatably, characterized in that the connecting projection ( 8 ) a polygonal outer profile and the bore ( 9 ) of the plate ( 1 ) has a corresponding polygonal inner profile, which has been cut by means of a sharp peripheral edge ( 13 ) on the front in the joining direction ( 11 ) of the connecting approach ( 8 ) during the joining process . 7. Pulley according to claim 6, characterized in that the bore ( 9 ) of the hub piece ( 6 ) of the disc ( 1 ) is longer than the connecting projection ( 8 ) of the hub ( 7 ) and the connecting projection ( 8 ) so far into this bore ( 9 ) is driven in that to the pulley ( 3 ) of the tel lersplatte ( 1 ) is a cut engagement section A of the bore ( 9 ), in which a hub extension ( 10 ) engages with a corresponding polygonal outer profile of a second plate ( 2 ), which is axially displaceably mounted on the hub ( 7 ) projecting axially on the belt pulley ( 3 ) of the first plate disk ( 1 ).