DE2319060C3 - Device for deburring and breaking the front tooth edges of straight and helical gears - Google Patents

Description

The invention relates to a device such as it is described in the preamble of the main claim.

A device of the type described above has already become known in which the axes of Cross workpiece on the one hand and tool and guide wheel on the other hand at a distance where the with the The workpiece teeth cooperating edges of the teeth are sharp and in which the number of teeth of the Tool is in such a relationship to the number of teeth of the workpiece that after a number of revolutions, all of the workpiece teeth are machined. the Axis crossing requires some structural effort for the device and the teeth are the Tools are not easy to manufacture. (DT-AS; 21 57 619)

Therefore, the invention is based on the object of a simpler device on which a simple manufacturable tool is used, with which every practically possible shape of the bevel on the Front edges of gears can be produced.

The object underlying the invention is achieved with a device that has the features of Claim 1 has.

The features of claim 2 result in a tool that is particularly easy to manufacture.

If, according to claim 3, cylindrical head surfaces are provided with cutting edges, then the base of the workpiece gap becomes machined without creating a chamfer. Is; on the other hand the head surface becomes conical, then at the base creates a chamfer.

The effect of the invention is based on the fact that the sliding in the direction of the tooth height is essentially used for deburring the front edges of gears will. The invention has the advantages that both: The end faces of a workpiece are machined at the same time be able to work with parallel axes of tool and workpiece and that also teeth can be chamfered close to a shoulder. Besides, the tools are Can be produced on normal gear cutting machines. Have in a simple embodiment of the invention the teeth are just different heights. The tooth heads are ground to create the cutting edges, which also makes it easier to sharpen the tools.

For further prior art, US-PS 32 33 518 is mentioned. This shows a device for Deburring and breaking only the acute-angled flank front edges of gears. One on both sides a toothed tool wheel is arranged with the guide wheel meshing with the workpiece. The axes of workpiece and tool combination are parallel. First of all, the teeth of one The tool wheel is pressed axially into the workpiece toothing and the leading edge to be broken in the process compressed outwards. After the axial displacement, the other end face of the workpiece is also machined. This is done with separate cutting tools working on the face side on both sides of the workpiece outside compressed material removed. GB-PS 7 10 238 (DT-AS 10 07 147) describes a method with which a cutting deburring is intended. There tools with cutting grooves are similar to those of shaving wheels intended. The axes of the workpiece and tool are inclined to each other, which is what the invention is avoided. Also, the cutting edges are arranged so that no sliding and cutting so that no noteworthy effect can be achieved. It is also a tool and a method became known (US-PS 29 45 425), with which the longitudinal tooth edges of the workpieces are deburred should. The task differs from that on which the invention is based. Also is the one you want Effect because of the so-called head bow to be doubted.

Another device is known which is based on the principle of the above-mentioned US Pat. No. 2,333,518 the modification that no axial displacement is required if both frontal tooth edges of the Workpiece are to be machined. Since this device is only used to break the edges without cutting acute-angled run-out of the tooth flanks of a helical workpiece is determined, it can be that of the Invention set problem not solve. (DT-AS 16 27 376) Finally, the DT-AS 20 22 937 is closed call, the subject also a device for non-cutting bevelling of the front edges of has pre-cut gears. Here, too, the problem of removing the upset material remains.

The invention is explained on the basis of a few exemplary embodiments.

Fig. 1 shows the view of the end face of two workpiece teeth, the edges of which at the tooth ends with the device according to the invention, as indicated by hatching, are to be calculated.

Fig.2 shows schematically a section from a Device according to the invention, namely a section through the meshing teeth.

FIG. 3 shows a section along the line TII- III in FIG. 2 namely settled.

F i g. FIG. 4 schematically shows the view of the end face of some teeth of a cutting tool according to FIG Invention.

Fig.5 shows a section along the line V-V in Fig. 4.

6 shows a section along the line VI-VI in

F i g. 7 shows a schematic view of the face of some teeth of another embodiment of a Cutting tool according to the invention.

FIG. 8 shows, schematically and developed, a section through the toothing which is in engagement a workpiece and a cutting tool in a further embodiment.

Fig. 9 shows the end face of a cutting tool according to FIG. 8.

The object of the invention is to provide the front edges 1 and / or the base edges 2 at the tooth ends of the teeth 3 of a workpiece 4 to beveled, broken or deburred. To this end, the Invention a device (Fig. 2), in which the workpiece 4 and a toothed cutting tool 5 with roll parallel axes, which are not shown, on top of each other so that the teeth mesh. The tool consists essentially of a non-cutting toothed guide wheel 6, on both of which Front sides with suitable, known and therefore not shown means each a cutting wheel 7,8 is attached. The cutting wheels are provided with teeth 9 on the circumference, which are shaped similar to those of bevel gears are in such a way that they penetrate the tooth gaps of the workpiece from the end faces in such a way that that the flanks of the cutting wheel teeth the edges on the flanks and in the bottom of the tooth gap at the ends of the Can edit teeth. Fig. 3 shows a section along the line I1I-III in Fig.2. It's just the teeth 3 of the workpiece but not drawn the meshing teeth of the guide wheel. Grip on the front side in the gaps between the teeth of the workpiece, the teeth 10,11 Cutting wheels. The embodiment of the cutting wheels in FIG. 3 differs from that in FIG. 2 in that fully formed teeth 9 and gaps are present in FIG. 2, while in FIG. 3 the gaps

12 are designed as notches, whereby the cutting wheels are more rigid. The tool is relative to the Workpiece advanced radially, with the flanks pressing

13 of the cutting wheels on the edges at the ends of the workpiece teeth and remove chips in the process.

For the purpose of cutting the flanks of the teeth 9 or 10, 11 are provided with grooves 14, which for Rolling or plane of rotation are inclined. The walls of the grooves form sharp edges with the tooth flanks Cutting edges 15, which roll on the edges of the tooth ends of the workpiece and by the so-called Height glide Remove chips and thereby break or deburr the flank edges on the workpiece. The heads of the tool teeth are also provided with grooves 16 or shoulders 17, which cutting edges that break or deburr the edges of the workpiece. F i g. 5 shows a .Schnitt through the grooves of a cutting wheel tooth in a plane that is parallel to the axis of rotation or more precisely, which lies at right angles to the radius vector on the axis of rotation.

Fig. 6 shows a radial section through a cutting wheel tooth and at the same time through a groove 16 on Head.

If helical workpieces are machined, as is shown schematically in FIG. 3, for example, the helix angles ix and β are different on both sides of the cutting wheel tooth 9 so that chamfers with the same angles result on the workpiece tooth. The angle γ that the cutting wheel tooth head forms with the face depends on the desired bevel at the base of the gap in the workpiece.

Fig. 7 shows an embodiment of a cutting wheel 18 according to the invention, in which the teeth (9, 20, 2 \ are of different heights. The head surfaces form with the tooth flanks cutting edges 22 to 28 with which the flank edges are machined on the face of the workpiece In addition, the cutting wheel is provided at its highest heads with shoulders which, with the head surfaces, form cutting edges 29, 30 which process the edges at the base of the gap in the workpiece.

The inclined teeth on the cutting wheels, as described so far, are a bit uncomfortable can be produced if they are used to machine helical workpieces and therefore on both sides of the tooth must be provided with different angles, as shown in Fig. 5 schematically. In the In the embodiment according to FIGS. 8 and 9, the cutting wheel 31 according to the invention consists of two halves 32, 33. Each half is provided with teeth 34, 35, each only for processing the edges on one side of the tooth Workpiece are determined, as shown in Fig.8 schematically and developed. The manufacture of such Cutting wheels is simpler because there are two full cutting wheels per cutting tool, each with a single one Tooth bevel can be produced, each corresponding to a tooth side of the workpiece. This Cutting wheels are then cut apart. On each side of the guide wheel (not in Fig. 8 two different halves are then fastened with known fastening means 36. However the number of teeth of the cutting tool must then be chosen so that after a certain number of Revolutions all teeth of the workpiece have come into contact with the teeth of both halves. This occurs, for example, if the number of teeth on the cutting tool does not match that of the workpiece has common factor.

For this purpose 3 sheets of drawings

Claims (4)

Patent claims: 1. Device for cutting deburring or breaking the front tooth edges of straight and helical gears with at least one end face to the workpiece and with these meshing the tooth edges machining tool and with an axially next to the Tool arranged with this non-rotatably connected and meshing with the workpiece toothed guide wheel, characterized that the tool (5) on the flanks of its teeth with essentially in the longitudinal direction of the teeth lying cutting edges (15, 22 to 28) is provided. 2. Apparatus according to claim 1, characterized in that the teeth (19, 20, 21) of the Tool (5) are provided with different tooth heights. 3. Apparatus according to claim 1 or 2, characterized in that the head surfaces of the tool ^) are provided with shoulders (17) or grooves (16). 4. Apparatus according to claim 1,2 or 3, characterized in that the cutting part of the Tool teeth is tapered.