SU1096057A1 - Gear-hobbing machine - Google Patents

Abstract

DUGE DRILLING MACHINE for cutting non-circular gear wheels g 7 with an intermittent rolling method, on the base of which the product table is located with the possibility of rotation around its axis and radial movement and the support carrying the tool spindle, which has that, in order to increase accuracy, the tool spindle is mounted on a carriage additionally inserted into the machine, fixed on the slide with discrete movement in the direction perpendicular to the axis of the table, and coordinated with its rotation and radial movement. ate xi o :) o ate

Description

The invention relates to the field of mechanical engineering and is intended to improve the accuracy of the profile of the teeth of non-circular non-circular spur gears.

A gear milling machine is known for cutting non-circular gears by the method of intermittent running-in on a bed of which the product table is located with the possibility of rotation around its axis and radial movement and a caliper with tool spindle I placed on it.

The disadvantage of the machine is a significant cut of the side surfaces of the teeth of the cut non-circular gear wheels, since each side of the tooth is processed by two slits of a slitter.

The aim of the invention is to eliminate this drawback and improve the accuracy of tooth cutting.

The goal is achieved by the fact that in a gear milling machine for cutting non-circular gear wheels by the intermittent running method, on the bed of which the product table is located, the tool spindle can be rotated around its axis and radially displaced and the caliper mounted on it. a carriage inserted into the machine, fixed on the instrumental caliper with the possibility of discrete movement in the direction perpendicular to its table, coordinated with its turn if and radial movement.

FIG. 1 shows a hobbing machine, general view; in fig. 2 - the relative position of the rack milling cutter and a non-circular gear cut. .

On the base of the gear milling machine, there is a table 2, with the possibility of rotation around its axis 0-0 and radial movement along the axis 0-0. On the product table, a cut-off non-circular gear 3 is closed. In addition, a support plate 4 is mounted on the frame, on which the carriage is placed. 5. On the last fixed tool spindle 5 with a rack mill 7.

The carriage is installed with the possibility of discrete movement along the axis 02 -Oj perpendicular to the axis 0-0 of rotation of the table.

The tool spindle 6 of the gear system 8 is connected to the electric motor 9, which causes the planer to rotate.

The caliper through gear 10 and the helical pair 11 is connected with the electric motor 12, which together supports the feed movement along the axis 0-0 of rotation of the table of the product.

The rotation of the table around the axis 0-0, its radial movement along the axis 0-0, as well as the discrete movement of the carriage along the axis O-O, are carried out from individual stepping motors 13.14 and 15, respectively.

The machine works as follows.

At the beginning of the machining cycle, due to the movement of the carriage along the axis OL 0.i, the rack milling cutter is set so that the plane of symmetry of one of its teeth is aligned with the plane of the tooth of the non-circular gear to be cut.

The caliper is positioned in the initial position (upper in FIG. 1).

From the electric motor 9, the cutters 7 report the cutting movement.

From the motor 12, the caliper is reported to move along an axis.

0-P.

Upon completion of the cut and returning the caliper to the initial upper position, the carriage is reported to have a discrete movement from the stepper motor 15 along the axis 0-02. From the stepper motors 13 and 14, the product table receives a discrete rotation around the axis 0-0 and a discrete radial movement along the axis O -0. After that, the cut non-circular gear wheel together with the barrel of the product 2 are fixed and performs the next cut by moving the slide along the 0-0 axis.

The cycles of matched discrete movements and discrete rotations are repeated until the complete processing of the chopped non-circular gear.

The invention makes it possible to increase the accuracy of cutting non-circular gears by the method of intermittent running by reducing the cut by increasing the number of cuts per tooth profile.

Claims (1)

TOOTH MILLING MACHINE for cutting non-circular gears * according to the intermittent rolling method, on the bed of which there is a product table with the possibility of rotation around its axis and radial movement and a support bearing a tool spindle, characterized in that, in order to increase accuracy, the tool spindle is mounted on an additional a carriage inserted into the machine, mounted on a support with the possibility of discrete movement in the direction perpendicular to the axis of the table, and coordinated with its rotation and radial capacity. owns Figu I