SU212024A1 - CARVING DEVICE - Google Patents

Description

Threading machines for machining large internal threads, for example, on aggregate machines, installed in the spindle of the power head and driven by it in rotation are known. The reciprocating movement in a step of the device is obtained from a rifle nut rigidly fixed to the body of the power head.

Threading devices contain a cutting head with mechanisms of rotation, extension of the incisors to the depth of cut and their removal.

In the proposed device, in contrast to the known cutting head, there are several radially located in one plane and alternately inserted cutters installed in tool holders with a pre-selected cutting depth during each pass. The turning mechanism of the incisal head is made in the form of a rolling pin moving along the axis of the head with a carbon copy with a nut, with a spring-loaded finger interacting with each pass with the next wedge groove of the cylindrical copier turning the latter along with the head body at the required angle.

To move the tool holder with a tool in the radial direction, the rolling pin is made with a keying tool that interacts with the tooling tool. For the purpose of smooth removal of the tool at the end of each pass, the head has a copier with a spiral surface. Copier interacts with spring-loaded housing lock.

The drawing shows schematically the described device.

The thread-cutting device consists of a glass}, which is rigidly fixed on the power head, body 2, block 3 s.

cutters installed in the head of the housing, disc 4, spring 5, copiers mounted inside the housing, threaded copier 8, rolling pin 9 with clamps 10 and 11, wedge 12, “screwed to the end of the rolling pin.

When the spindle is rotated, the rolling pin 9 acquires a forward movement due to the screwing in and out of the Konnipa 8 in the fixed threaded sleeve 13. As the rolling pin 9 moves, the lock 11 turns the body 2

with block 3 with cutters at a given angle of the copier 7. Ftsxator 11 enters the measured groove and fixes the position of the block 3.

pressing the spring 5. Stretching the force of the spring 5, the body 2 is detached from the supporting end of the glass 1 and forms a helix, given by the cam 8, i.e., cuts the desired thread. Cutting the thread, the rolling pin 9 returns to its original position. Then the second retainer 10 comes into operation, which falls into the spiral channel of the copier 6 and rotates by / 5 the angle of division (each division of the head by the specified angle is accomplished by reciprocating the rolling pin with the retainers in two copiers).

The disk 4 and the retainer 14 serve to take the cuttings out of the cutting zone and smoothly retract the body 2. After threading, the retainer 14 sinks onto the bearing surface of the disk 4 and at this point the device reverses.

The housing 2 rotates, but has no axial movement, since it is on the stop. Rolling pin 9, returning to its original position with the aid of a wedge 12, lowers the block 3 with the cutters from the cutting zone. The latch 10, turning the housing 2, turns the disk 4. The disk 4 slides over the latch 14 and allows the wedge 12 to be lowered in thickness by the block 3 with the cutters. Upon further sliding of the inclined plane of the disk 4 along the latch 14, the body 2 is gently retracted to the glass.

The described device provides the dimensional stability of the processed thread, improving performance and durability of the cutters.

Subject invention

Claims (4)

1. A thread-cutting device for treating internal threads, for example, on aggregate machines, installed in the spindle of the power head and driven by it in rotation, and reciprocating movement in a step received from a copier (a nut rigidly fixed on the body of the power head containing a cutting head with mechanisms of rotation, extension of the incisors to the depth of cut and their removal, characterized in that, in order to carry out processing in an automatic cycle in several passes by the method of sequential plunging, The head is equipped with several radially located in the same plane and alternately inserted into the work cutters installed in the tool holders with a predetermined depth of cut during each pass. 2. The device according to claim 1, characterized in that the turning mechanism of the cutting head is made in the form of a rolling pin moved along the axis of the head with a cam nut, with a spring-loaded finger interacting with each pass with the next wedge axle of the cylindrical copier turning the latter with the head body on required angle. 3. The device according to claim 2, characterized in that, in order to move the tool holder with the tool in the radial direction, the rolling pin is provided with a wedge copier interacting with the tool holder's wedge surface. 4. Device on PP. 1, 2 and 3, characterized in that, in order to smoothly retract the tool at the end of each pass, the head is equipped with a copier with a spiral surface interacting with a spring-loaded body lock.   5 G, (. .L. I I Yu 7 1L. SfWrЧ-Л: UD // 3 12 /.