SU992143A2 - Machine for working variable pitch threads and splines - Google Patents

Description

(54) MACHINE FOR TREATMENT OF THREADS AND SLIDES OF VARIABLE STEP

one

The invention relates to a machine tool industry and can be used for machining screw grooves such as threads and variable pitch splines, such as spindles, screws, screws, guides, etc.

According to the main author. St. No. 931338 is known for machining the threads and splines of variable pitch, comprising a screw motion drive, a cutting chain, comprising a pitch changing mechanism and interconnecting spindle carrying the workpiece, and a support with a cutter, a switching mechanism mounted in series with the screw motion drive and providing attaching it to different parts of the cutting chain: between the spindle and the pitch changing mechanism when machining threads or between the pitch changing mechanism and the caliper, while machining the splines Step 1.

A disadvantage of the known machine is the impossibility of machining grooves of threads or splines of constant width, which in most cases is unacceptable. This disadvantage is due to the fact that the cutter is rigidly fixed to the caliper, therefore, its position relative to the treated surface is continuously changing due to its variable pitch.

In addition, when machining on a known machine, the kinematic cutting angle of the tool changes significantly, which significantly limits the technological capabilities of the machine and prevents the use of tools with optimal geometry, which negatively affects their durability and machining performance.

The purpose of the invention is to provide machining grooves for threads and splines of variable pitch of constant width and expanding the technological capabilities of the machine.

This goal is achieved by the fact that the tool holder is mounted on the caliper.

20 rotatably around the longitudinal axis and kinematically associated with the tool speed adjustment member inserted into the machine, which is installed in the machine thread.

The drawing shows a structural diagram of the proposed machine.

The device comprises a spindle 1, carrying the workpiece 2, and a caliper 3, carrying the tool holder 4 with the cutter 1 5, mounted with the possibility of continuous rotation around the longitudinal axis, intersecting the spindle axis. The cutter 5 is installed in the tool holder so that its cutting edges are always located in a plane passing through the axis of rotation, and symmetrically with respect to this axis. The caliper 3 and the spindle 1 are interconnected by a screw-cutting chain containing the scap change mechanism 6 and the tuning element (box or guitar) 7. Structurally, the pitch change mechanism can be made in the form of, for example, a variator, non-circular and spiral gears, a copier and and so on. The tool holder 4 is connected to the screw-cutting chain with a kinematic chain containing a setting body 8.

To create a screw motion of the tool relative to the workpiece and the tool holder rotation associated with it, an actuator is used, made, for example, in the form of a series-connected engine 9, a setting body 10 and uncontrolled gears.

The switching mechanism 11 is designed to connect a screw drive drive to different parts of the cutting chain depending on the type of screw grooves being machined (thread or splines).

The machine works as follows.

When machining helical grooves of the thread type of an alternating pin, the drive of the screw movement is connected via a switching mechanism 11 to a cutting chain in the section between spindle 1 and pitch changing mechanism 6. The setting body 10 is set based on the allowable cutting speed, the rotational speed of the spindle 1. During processing, the rotational speed of the spindle 1 is constant, and the speed of movement of the caliper 3 continuously changes according to the law specified by the pitch change mechanism 6.

When machining helical grooves of the variable-pitch spline type, the drive of the screw movement through the switch 9 is connected to the screw-cutting chain in the section between the pitch change mechanism 6 and

caliper 3, therefore, the grooves are formed at a constant speed of movement of the caliper and a variable frequency of rotation of the spindle.

Due to the kinematic connection

simultaneously with the rotation of the spindle 1 and the movement of the caliper 3, the tool holder 4 with a screw-cutting chain receives a continuous rotation, the speed of which is set by the adjustment body 8 so that the front surface of the tool is always perpendicular to the direction of its relative screw movement.

Due to this, when machining on the proposed machine, grooves machined or variable-pitch slots have

constant width, which is impossible to provide on a known machine.

In addition, with the specified orientation of the front surface of the cutter relative to the direction of its screw movement

Kinematic angles are constant for any change in the groove pitch, which allows machining with an optimal cutting geometry and thereby increasing machining performance and tool life.

At the same time, the limitations on the change in the schag of the surface to be machined, which are characteristic of a known machine due to the variability of kinematic angles, are completely eliminated. In this regard, the proposed machine has a wider technological capabilities for changing the pitch of the cut helical grooves.

Claims (1)

Invention Formula Machine for processing threads and splines variable step on ed. St. No. 931338, characterized in that, in order to provide machining of the grooves of the threads and splines of variable pitch of a constant width, the tool holder is mounted on the caliper rotatably around the longitudinal axis and is kinematically connected to the tool holder rotating speed setting tool inserted into the machine machine tool. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 931338 Cl. In 23 G 3/10, 1980. WITH) Lt-C (C eight