SU984596A1 - Apparatus for finishing cone gear teeth - Google Patents

Description

(54) DEVICE FOR FINISHING TEETH OF TONIC TONES.

one

The invention relates to the processing of metals by pressure and can be used in the manufacture of gears.

A device for trimming the teeth of the bevel gears is known, which comprises a driving toothed wheel drive mounted on an axis in the housing (1.

A disadvantage of the known device is that it cannot process gears with a longitudinal modification of the teeth.

The purpose of the invention is to provide the possibility of machining the teeth with a longitudinal modification by successive running of tooth sections.

The goal is achieved by the fact that in the device for trimming the teeth of the bevel gears, which has a toothed nickle mounted on an axis, the knurled nodule teeth are made with circular generators, and the knurled axis is installed in the housing so that it can be rotated in a plane passing through the geometric axes of the knurler and processed wheels.

FIG. 1 shows a device, a general view; in fig. 2 - the same, the start of running; in fig. 3 - the same, the process of running; in fig. 4 is a section A-A in FIG. one.

The device comprises a cone wheel I to be machined, fixed in Supports of the mechanism 2 for rotating and pulling it. 5 In engagement with the wheel there is an instrumental toothed nickle 3 with circular generators 4. The tool is fixed in the supports of the mechanism 5 of rotation of the nickle 3. The mechanism 5 of rotation is fixed in Q supports rotatably. The instrumental conical toothed nurser can perform the functions of a shaper, priter.

The installation works as follows. The rotation is transmitted from the machined gear to the tool. The tool handles the part.

FIG. 2, and 3 show two successive positions of the toothed nurser and the bevel wheel being machined. In the first position, the tool and the part are engaged so that their point of contact is located on the inner end of the conical tooth. When the bevel wheel rotates, the teeth of the wheel cross each other, the point of contact moves along the tooth profile. Thus, the tooth is processed in one section.

When moving the wheel horizontally, sections of a tooth with a large modulus value fall into a section in which the teeth of the tool and the part come into contact. This process continues until the side clearance is exhausted, then the wheel teeth rest against the tool teeth and the tool rotates as the wheel moves. In this case, the tooth section of the wheel and the tool with large values of the module come into contact in succession; one of such positions is shown in FIG. 3

Geometrically, the movement of the tool and the parts can be represented as rolling without sliding, in a vertical plane, with a long tool circumference along the separating straight wheel. When the wheel is moved by the value S in the dividing straight wheel, the arc of the dividing circle of the tool with the length S is rolled, then the angle of rotation of the tool cf.

The tool can be rotated not by pressing the wheel teeth into the wheel of the wheel, but through the tool turning mechanism, which works out the angle of rotation when moving the wheel by the value S. In this case, the lateral clearance remains and is kept constant.

The tooth cross section of the plane passing through the axis of rotation of the tool, the tooth profile is the same as that of the tapered sprocket (Fig. 4). The consecutive contact of the tooth sections of the wheel of the returning module can be imagined as an engagement of the right wheel. Initially, the sprocket wheels contact with the module m, and the numbers of teeth Zj and Z, then the sprockets with nij with the same number of teeth Zi and Z.

Since the angle y when the wheel divider cone does not change, and the angle when the gear cone knurling dividing cones is variable, to engage the wheel, the need to change the center angle y,

which corresponds to the movement of the rotation of the serrated nakatnik.

To enable the bevel gear to be machined with several tools, it is pulled along its axis of rotation, and the tool generators are made such that, in relative motion of the tool and part, the forming toothed tensioner and the wheel are mutually interchangeable. As the analysis shows, the elements of the toothed nakatnik should be outlined with a modified involute.

Technical and economic efficiency from the introduction of such an installation will be obtained at the expense of increasing the quality of bevel gears. Increased bearing capacity and durability of bevel gears will allow

reduce their size and weight.

Claims (1)

Invention Formula A device for trimming the teeth of the bevel gears, comprising a toothed nickle mounted on an axis in the housing, characterized in that, in order to enable the teeth to be processed with a longitudinal modification by alternating running the teeth sections, the nakatnik teeth are made with circular generators, and the nakatnik axis is installed in the housing so that it can be rotated in a plane passing through the geometric axes of the nakatnik and the processed wheel. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 533436, cl. B 21 N 5/04, 1975 (prototype). (fuz.l IG.2 iuz.