SU420434A1 - STAND FOR MEASUREMENT - Google Patents

Description

one

The invention relates to the field of mechanical engineering and can find application in the study of deep hole machining, the development of new cutting tool designs and tooling for machining deep holes.

Stands are known for measuring the magnitude and direction of the radial movement of a boring head by means of tensometric instruments.

The described stand is characterized in that a boring hole is made in the body of the boring head to accommodate a stepped mandrel capable of axial movement and carrying two rows of axially mounted strain gauges, one of which is located inside the boring head and the other outside. are the pin and the cylindrical protrusion placed in the bore of the head, made on the head from the installation side of the cutting tool, which allows to increase the measurement accuracy.

FIG. 1 shows the proposed stand, a longitudinal section; in fig. 2 is a section along A-A in FIG. one; in fig. 3 - the shape of the steps on the surface of the cylindrical protrusion and the boring head shaft.

The measuring bench is mounted on the bed of the machine for processing deep holes with hollow core.

The bushing sleeve 1 is installed in the bore of the pipe 2 and is fastened thereto with screws 3. The pipe L is connected to the coupling shaft with a cardan device consisting of

cylinders 4 and fingers 5, and supported by cams about lunettes U attached to the frame of the machine. The cardan device allows to exclude the influence of the beat of the chip on the accuracy of measuring the radial displacement

boring head 5.

Inside the pipe 2 and the gimbal device is located a borschtg U with a boring head L fixed in it. The boring head has a boring with a pin 10 mounted therein and a cylindrical protrusion.

The machine bed has a fixed stand 11, in the bore of which a rod 12 is installed, moving in the axial direction. In bar 12, a mandrel is engaged and with

the strainer 14, and the stoic and is located on the frame so that the mandrel id is located inside the bore bore and bore in the body of the boring head, and the strainer 14 rests on the pin 10 and the cylindrical vystun. A pipe 15 with seals is installed on the cylindrical protrusion of the boring head and the rod to prevent the shavings of the chips and the cooling coolant to the strainer bar. Strain gauges mounted on strainer 14 are connected to a recording annatura.

The device works as follows.

In the process of boring a deep hole, the boring head may move radially relative to the bore pipe and the shape of the surface (cut, waviness) of the bore hole, as well as the size of the hole axis, depends on it.

When boring the sleeve 1, the pipe 2 is rotated by the machine tool string by means of a gimbal device. Coolant lubricant is supplied to the cutting edges through the inner hole in the boring bar 9 n holes in the boring head 8. The forming chips are removed together with the liquid but the gap between the inner surface of the sleeve 1 and the outer surface of the pipe 2 with seals, thereby preventing the chip from entering and coolant to teizobalki.

When the boring head 8 is not displaced in radial direction, the cylindrical protrusion of the boring head and pin 10 will move along with it, on which the strainer pins 14 are mounted. The deflection will be determined by the radial displacement of the head 8. A signal proportional to the amount of movement of the boring head will be recorded from the strain gauges pasted on the strainer bar.

Since strainers can register movements of the boring head together with pipe 2, and movements of head 8 relative to the bore pipe are of interest, it is necessary to exclude radial

pipe movement, which may occur due to the radial beating of the machine tool pin. This is ensured by using a gimbal device and installing the pipe in the cams 6 of the non-movable supports 4. In the course of operation, the boring head 8 moves in the axial direction and does not move the pipe 15 together with itself, which pushes the shaft 12 with the mandrel and strain grip 14, thereby

ensuring the contact of strain gauges with the protrusion and pin surfaces along the entire boring length. When calibrating the recording (strain gauge) equipment of the strain gauge can be moved but stepped

over the points of the pin and the cylindrical protrusion, thereby obtaining a deflection equal to the size of the steps, and a signal proportional to the previously known value of the steps is received from the strain gauges.

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Subject invention

Claims (2)

1. A bench for measuring the magnitude and direction of the radial displacement of the bore head by means of strain gauge apparatus, characterized in that, in order to improve measurement accuracy, a bore is made in the body of the boring head for accommodating a stepped mandrel having axial displacement and carrying two rows of axially mounted strain gauges, one of which is located inside the boring head, and the other outside, with the support of the strain gauge pin and a cylindrical protrusion placed on the head from the side of the cutting tool. 2. A stand according to claim 1, characterized in that the outer surface of the cylindrical protrusion and the pin is stepped. p tenzostantsh p 1 V7 / W ///. I N NX4 / 2 / I. T. g. -. if / f /;. ijLL S Stand / // // I / / v ZZZZZJ-ZSr SSLSSXS fivyi / Rig. L 74 / 0