SU1076225A2 - Lathe for threading screws with variable pitch - Google Patents

Abstract

LATHE MACHINE FOR CUTTING SCREWS WITH A VARIABLE STEP, on auth. 810379, characterized in that, in order to increase technological reliability by eliminating torsional vibrations, the machine is provided with a brake made in the form of hydraulic motors kinematically connected with the spindle. (L

Description

The invention relates to a machine tool industry and can be used in any part of the national economy associated with the manufacture of variable pitch propellers.

According to the main auth. 810379, there is a turning machine for cutting screws with variable pitch, which suppresses the kinematic chain of spindle rotation, the kinematic chain of the initial pitch and the associated pitch change chain, including the mechanism that defines the law of pitch change ij.

A disadvantage of the known machine is that when cutting screws with variable pitch continuously according to the law of pitch change, the longitudinal feed changes. This leads to a continuous change in the cutting force, in particular its tangential component, resulting in torsional vibrations arising in the kinematic chains of the machine containing a number of gears. Torsional vibrations in the chains of the initial pitch and pitch change, the kinematic accuracy of which determines the geometric accuracy of the screws produced, reduce the technological reliability of the machines.

The purpose of the invention is to increase the tenological reliability by eliminating torsional vibrations.

The goal is achieved by the fact that the turning lathe for cutting screws with variable pitch, supporting the kinematic chain of the spindle lies, the kinematic chain of the initial pitch and the pitch changing chain, including the mechanism that sets the pitch change law, is connected to it by means of a brake hydraulic motor, kinematichgki associated with the spindle.

The drawing shows a structural diagram of the proposed machine.

The electric motor 1 is connected via a kinematic chain containing tuning organ 2 (a guitar of interchangeable gears, interchangeable pulleys, a gearbox) to a spindle 3. A gear 4 connected to a spindle 3 mounted on the shaft of the hydraulic motor 6 is fixed to the spindle 3, receiving power through pipeline 7 from hydraulic device 8, providing regulation of braking force.

According to the kinematic chain of the initial pitch, the spindle 3 by means of a gear 9-10, the transmission 11 of the tuning organ 12 (the guitar has interchangeable gears), the inputs 13 of the summing mechanism 14 (the differential of bevel or spur gears) and the output 15 of this

The mechanism is connected with the lead screw 16, moving the tool caliper 17.

According to the kinematic chain of pitch change, spindle 3 is via gear 9-10, gear 18, tuning organ 19 (guitar-toothed gear wheels), gear 20, cardan telescopic shaft 21 is associated with the pitch change mechanism. This mechanism is made in the form of a variable pitch screw 22 mounted in a support 23 rotatably. The support 23 is pivotally connected to the bracket 24, which allows the screw 22 to be set at an angle to the axis of the centers of the machine. A variable pitch screw 22 carries a nut 25, on which a gear rail 26 is hinged, hooked with a pinion wheel 27 mounted on a shaft 28 for axial movement.

Shaft 28 via gear 29, tuning organ 30 (guitar of interchangeable gears), inlet 31 of summing mechanism 14, and outlet 15 of this mechanism are associated with a lead screw 16.

The adjustment of the machine to the circular frequency of rotation of the spindle 3 is carried out by the setting body 2. The adjustment to the pitch of the screw being cut and the law of its change is carried out by the setting bodies 12, 19 and 30 and the change in the angle between the axis of the centers of the machine and the screw 22 of the mechanism for changing the pitch. The braking force of the hydraulic motor 6, which ensures the elimination of torsional vibrations, is established by means of the hydraulic device 8.

Before processing, the variable-pitch screw 22 is set at the required angle and secured, and the nut 25 is pulled out to the original position near the support 32. When the electric motor 1 is turned on, the spindle 3 bearing the workpiece will receive rotation with a working circular frequency. At the same time, the brake hydraulic motor 6 is turned on, producing a braking force exceeding the value of the tangential component of the cutting force.

The initial pitch chain rotates from spindle 3 via gear 9-10, gear 11 and tuning body 12 is transmitted to input 1 of summing mechanism 14. At the same time, the increment chain rotates spindle 3 from gear 9-10, gear 18, tuning element 19 , the gears 20 and the PTO telescopic shaft 21 are connected to the variable pitch screw 22. The screw 22 rotates to move the nut 25 pivotally connected to the rack 26, moving together with the pinion wheel 27 in the longitudinal direction.

The nut 25, moving along the variable pitch screw 22 inclined to the axis of the centers of the machine, moves the rail 26 in the transverse direction, which due to the misaligned pitch of the screw 22 also turns out to be variable.

The rail 26 rotates the pinion wheel 27 while moving. The rotation of this wheel through the gear 29 and the tuning element 30 is transmitted to the inlet 31 of the totalizer mechanism 14. The latter

sugimoyuet movement, coming through the chain of the initial step and the chain increments step, and transmits the total movement through the output 15 to the lead screw 16, moving the caliper 17. The movement of the caliper 17 will be variable, so that the pitch of the cut screw will also be variable.

The use of the invention allows to increase the technological reliability of the machine and ensures the accuracy of the cut thread.

Claims (1)

TURNING MACHINE FOR CUTTING SCREWS WITH VARIABLE STEP, by auth. No. 810379, due to the fact that, in order to increase technological reliability by eliminating torsional vibrations, the machine is equipped with a brake made in the form of hydraulic motors kinematically connected to the spindle.