SU1113219A1 - Gear-milling machine - Google Patents

Abstract

A DUBE BRAKE MACHINE for sprockets with a spindle and a Norton mechanism mounted on its frame, kinematically connected between itself by means of two brackets with toothed pairs and a differential, characterized in that with the aim of expansion. technological capabilities, an additional differential placed in the housing and a bracket with a gear pair, kinematically connected with the Norton mechanism and an additional differential housing, whose input shaft is connected to the output shaft of the first differential and the output shaft to the mill spindle, are inserted into the machine. (Lc co tc co

Description

The invention relates to mechanical engineering and can be used in gear processing machines.

A gear milling machine for spur wheels is known, on the frame of which the spindle of the cutter and the Norton mechanism, kinematically interconnected by means of two brackets with toothed pairs and differential, are installed.

The disadvantage of this is the limitation on automatic changeover within 200-250 teeth of the wheel being cut, due to the fact that, due to the correct engagement between the gears of the cone of the Norton mechanism and the gear-wheels of the bracket, the number of wheels of the cone of the Norton mechanism is limited to 5-7. At the same time, a whole series of cut gear sectors of devices contain 400-600 or more teeth.

The purpose of the invention is the expansion of the technological capabilities of the machine.

The goal is achieved by the fact that the cutter spindle and the Norton mechanism, kinematically connected to each other by means of two brackets with gear pairs and differential, are inserted into the gear-milling machine for the spur gear on the base of which, the additional differential placed in the housing and the bracket with the gear pair are kinematically inserted associated with the Norton mechanism and hull. additional differential, the input shaft of which is connected to the output shaft of the first differential, and the output shaft - with the cutter spindle.

The drawing shows a kinematic diagram of a gear milling machine.

On the machine bed G, a spindle 2 of the milling cutters and a Norton 3 mechanism are installed, which are kinematically connected to each other by means of two brackets 4 to the gear pairs 5 and the differential 6.

The input shaft 7 of the additional differential 8 is connected to the output shaft 9 of the differential 6, and the output shaft 10 with the spindle of the cutter 2.

The third bracket with a gear gift 1

kinematically connected to the body 12 of the additional differential, and the Norton mechanism, the cone of which is connected to the spindle 13 of the product.

The machine works as follows.

Part of the movement from the spindle of the product through the transmission 14 enters the input shaft of the first differential. Through this channel, the main amount of movement, i.e., the third bit of the set number, flows to the spindle 2 of the cutter. For example, in the case of setting the machine to the number of teeth 357 for one revolution of the spindle of the product, the spindle del mills makes 357 revolutions.

Since after passing a long spindle transfer, the product conforms Norton's mechanism for one revolution of the product spindle l-ig revolutions, where / g is the gear ratio of the additional gear, 300 // g is transmitted through the gear 14 to the cutter spindle from one revolution of the product spindle. turns. Accordingly, through the gear train 15, the movement 50 / ig goes to the cutter spindle and 7 / Jg Q turns go through the bracket with the gear pair 1 1 to the cutter spindle. Since all these movements are summed up on the differential mechanisms, in the end, from one turn of the cone of the Norton mechanism 3, the spindle 3 of the cutter performs 357 / ig revolutions.

5 The invention expands the technological capabilities of gear milling gears, namely the possibility of machining gear wheels having up to 1000 teeth.

Claims (1)

DENTAL MILLING MACHINE for spur gears, on the bed of which are mounted the spindle of the cutter and the Norton mechanism, kinematically connected by means of two brackets with gear pairs and a differential, characterized in that, for the purpose of expansion. of technological capabilities, an additional differential and an arm with a gear pair kinematically connected to the Norton mechanism and an additional differential housing, the input shaft of which is connected to the output shaft of the first differential and the output shaft to the cutter spindle, are inserted in the machine.