SU891277A1 - Machine for working non-round gears - Google Patents

Description

The invention relates to machine tool I is intended primarily for the treatment of spiral, spiral-helical and other non-circular gears.

Known machines for processing non-circular. _$ gears, in which the implementation of the rolling chain connecting the tool and the workpiece with a variable gear ratio. The break-in chain guitar in these machines is made in the form of non-circular cylindrical wheels. In addition to the _10- meter run-in chain connecting the cutter and the table with the workpiece, the machine has a chain of circular feed and reciprocating movement of the cutter (1].

However, the technological capabilities of such. _{) 5} machines are limited to machining flat gears only.

The purpose of the invention is the expansion of technological capabilities of the known machine, i.e. providing processing both flat and spatial pro- _m noncircular gears.

The goal is achieved by the fact that in the machine containing the kinematic rolling chain, made with a variable gear ratio, connecting the cutter and the table with the workpiece, the circular feed chain and the reciprocating motion of the cutter are introduced custom kinematic chains of axial and radial table feeds associated with the rolling circuit.

The drawing shows a structural diagram of the machine. The machine contains a cutter 1 n table 2 with the machined wheel 3, interconnected kinematic rolling circuit with the body 4 settings, interchangeable wheels which may have different shapes depending on the configuration of the processed gears.

For example, when machining spiral helical wheels with a standard cutter, the tuning body 4 is performed in the form of transferring interchangeable flat spiral and round cylindrical gears, and when processing non-circular wheels with a non-circular cutter, in the form of interchangeable non-circular gears.

Dolbyak 1 is installed with the possibility of rotation and reciprocating motion. To carry out the rotation of the cutter, a circular feed kinematic chain containing the engine 5 and the tuning organ 6 (box or guitar) of the feeds is used, and for reciprocating motion, a chain with the motor 7 and the cutting speed adjusting organ 8 is used.

Table 2 of the machine is mounted to rotate around its axis and move along and perpendicular to this axis.

For the implementation of these translational movements of the table, two kinematic chains connected with the running-in chain are used: an axial feed chain with a replaceable gear 9 guitar and a radial feed chain with a tuning organ 10 in the form of a round or non-circular gear guitar or cam mechanism.

The machine also contains traditional for gear shaping machines mechanisms for cutting the cutter and its retraction during the return stroke (not shown).

Before processing, the following kinematic chains of the machine are configured: reciprocating movement of the cutter, circular feed, running, axial and radial movement of the table.

The machine when processing a spiral-helical gear works as follows. zom.

Dolbyak 1 receives a reciprocating movement Πι from engine 7, the speed of which is adjusted by body 8, and rotational movement B ₂ (circular feed) from engine 5 through tuning body 6. At the same time, the rotational motion B _{3 of} table 2 also receives along the run-in chain.

In the process of processing, the gear ratio of the organ and the setting is continuously changed so that the ratio of the angular speeds of movement B ₂ and B ₃ is equal to the ratio of the angular speeds of engagement of the spur gear with the cut wheel.

Simultaneously with the rotation, table 2 receives the axial P ₄ and radial P ₅ movements associated with it, while the ratio of the speeds of movement B ₃ and P ₄ is set by the tuning guitar 9, and the ratio of the speeds of movements B ₃ and U is given by the organ 10.

As a result, the simultaneous execution of these movements on the machine is cut (teeth located on a spiral surface, the guide of which represents a conical helical line, i.e. a spiral-helical gear is processed.

With different settings of the organs 9 and 10 for one non-circular flat wheel of a rolling guitar 5, spiral-helical wheels with different spatial parameters can be processed.

Round and non-circular cylindrical wheels can also be machined on the machine.

When cutting non-circular wheels with a round cutter, a non-circular gear wheel is installed in the break-in chain and the axial table feed circuit is switched off.

When cutting non-circular wheels non-circular

With a chain cutter or round wheels, the axial and radial feeds of the table are turned off by a round cutter, while in the first case, the tuning body 4 is set to non-circular ₅ and in the second, round interchangeable gears.

When installing round interchangeable gears and. inclusion axial supply circuit section 2 is treatment of teeth disposed on the surface of the guide ₅ in vi2 de cylindrical helical line, i.e. helical wheels.

Thus, the machine allows to process not only round and non-circular cylindrical, but also spiral-shaped wheels with a constant or variable radius of the spatial spiral.

Claims (2)

The invention relates to machine tool industry 1 intended primarily for the treatment of spinal, helical and other non-circular gear wheels. Known machines for processing non-circular gears, in which the execution of the chain of rolling, connecting the tool and the workpiece, with variable gearing motion. Guitar chain rolling in these machines are perfect in the form of non-circular cylindrical wheels. In addition to the rolling chain linking the table to the workpiece, the machine has a chain of feed and reciprocating movement of the pit 1. However, the technological capabilities of such machines are limited to processing only flat gears. The purpose of the invention is to expand the technological capabilities of a known machine, i.e. ensuring the processing of both flat and spatial non-circular gears. The goal is achieved by the fact that in a machine containing a kinematic chain of rolling, performed with a variable gear ratio. linking the table with the workpiece, circular feed chains of the reciprocating movement of the slot introduce customizable kinematic chains of the axial and radial table feeds (wired with the rolling chain. The drawing shows the structural diagram of the machine. The machine contains the table 2 with the wheel 3 being machined, interconnected kinematic chains of the rolling with the adjustment body 4, whose interchangeable wheels may have a different shape depending on the configuration of the gear wheels being machined. When the spiral wheels are machined with non-circular dolby, in the form of interchangeable non-circular gears, the rotary wheels 4 are configured for rotational and reciprocating motion. The dda rotation is a kinematic round feed circuit containing engine 5 and tuning organ 6 (box or guitar) of feeds, and for reciprocating movement a circuit with motor 7 and organ 8 cutting speeds. The table 2 of the machine is mounted for rotation around its axis and moving along and perpendicular to this axis. To perform these translational movements of the table, there are two kinematic chains connected with the running-in chain: an axial-feed chain with a guitar of interchangeable gears 9 and a radial-feed chain with a tuning body 10 in the form of a guitar with round or non-circular gears or a cam mechanism. The machine also contains traditional mechanisms for chisel shaping and retraction during the return stroke (not shown). Before machining, the following machine kinematic chains are adjusted: reciprocating motion of the chisel, circular feed, running-in, axial and radial movement of the table. The machine when processing the spiral-helical gear works as follows. zom. Dolby K receives from the engine 7 a reciprocating motion IIi, the speed of which is adjusted by the body 8, and the rotational movement Bz (circular feed) from the engine 5 through the setting body 6. At the same time, the rolling chain also receives a rotational movement on the table 2. In the course of processing, the ratio of the organ and the setting continuously changes so that the ratio of the angular velocities of the motion Bj and Bj is equal to the ratio of the angular velocities of the engagement of the cylindrical gear wheel with the cut wheel. Simultaneously with the rotation, table 2 receives the axial P4 and radial Ils movements associated with it, while the ratio of the speeds of the KB and PA is set by the guitar tuning 9, and the ratio of the speeds of the movements of the KB and Us is a body 10. As a result of simultaneous movement of the indicated movements on the machine the teeth are cut on the spiral surface, the guide of which is the conical screw face, i.e. The helical gear is machined. For different tuning of the organs 9 and 10 on one non-circular flat wheel of the guitar running-in, you can handle spiral-helical wheels with different spatial parameters. On the machine you can also handle Kpjo-lye and non-circular cylindrical wheels. When cutting non-circular wheels with a round bit in the run-in chain, a non-circular gear wheel is installed and the axial table feed chain is turned off. When cutting non-round wheels with non-circular lob or round wheels with a circular lobe, the axial and radial table feed chains are disconnected, while in the first case, in the organ 4, the settings are set to non-circular and in the second - round interchangeable gears. When installing round with young gears and turning on the axial feed chain of the table 2, the teeth located on the surface of the guide in the helical helical line, i.e. screw wheel. Thus, the machine allows processing not only round and non-twisted cylindrical, but also spiral-shaped wheels with a constant or variable radius of spatial sleeper. Claims A machine for processing non-circular gears, comprising a rolling kinematic chain, performed with a variable gear ratio, connecting a dolly and a table with the workpiece, a circular feed chain and a reciprocating movement of the chuck, characterized in that, in order to extend technological capabilities , customized kinematic chains of axial and radial table feeds are introduced into the machine, connected to the rolling chain. Sources of information taken into account in the examination 1. Metal-cutting machines. Ed. Acherkana N. S. M., Mashchinostroenie, 1961, vol. 1, p. 602-603. - rrxi 5 IX | 2 r g one -.- / V zl .. x / .-i-i I I