CS255386B1 - Turning tool - Google Patents

Abstract

The subject of the invention is a turning tool, the body of which has an opening with a pin engaging the holes of the holder. Fixing the blade position in the holder is accomplished by the pressure of the springs located perpendicular to the pin axis and at the same distances from the pin axis, their pre-loading being controlled by screws. A sliding guide is formed between the knife bearing surfaces and the holder.

Description

The invention is. concerns a turning tool with a special clamping in the holder.

Known solutions for turning tools allow for their firm grip in _; knife holders. Thereby, a machine-tool-workpiece-jig system is formed which has the property that the change in the cutting force size is transmitted from the tool to the other members of the technology system and causes oscillations. The stable position of the tool relative to the workpiece also results in a continuous chip, especially when machining high-strength and tough materials. These problems led to Developments. solutions that are based on flexible tool clamping. In spring clamping, the tool performs elementary movements, which are used for chip breaking, allow to adjust the position of the tool when machining uneven workpieces, to remove burrs at the tool exit points from the engagement. The elastic clamping is also used in copying on lathes, where the spring presses the copying thumb onto the template, the thumb being firmly attached to the knife. The oscillation direction of the tool during machining can be radial, axial, or tangential to the workpiece axis. When the blade is resiliently mounted and clamped due to chip breaking, the tool is usually mounted in a pin holder and its free arm is supported by a spring adjustable by means of a screw. If one spring is used, the tool is supported on the wall of the holder until it is in contact with the workpieces. In addition, in a number of designs, the vibration is damped by friction of the tool bearing surface against the corresponding holder surface.

The aforementioned disadvantages are overcome by the turning tool according to the invention, fixed in the holder by means of a pin and supported by springs. knife and holder is placed linearly sliding or rolling bearing. Another feature of the present invention is that in the gap between holding the tool in an equilibrium position, of a resilient material.

The solution according to the invention ensures that the tool is kept in an equilibrium position from which it is deflected by the cutting force F _x . The fluctuation of the cutting force results in the oscillating movement of the blade around the equilibrium position, which is defined by the adjustment of the two springs. This also reliably divides the chip into short sections, even when machining high-strength tough alloys. A similar effect occurs when using a flexible fabric that fills the space between the side wall of the tool and the holder.

In FIG. 1 is a cutting tool mounted in a holder, FIG. 2 is a section along line A-A. In FIG. 3 shows the principle of a solution with resilient material in application to a knife in an opening. In FIG. 4 is an axonometric view of the tool; and FIG. 5 is the principle of using a resilient material in drilling tools.

In the holder 1, a knife 2 is fastened by means of a pin 3 with a play between the holder and the knife. At equal distances from the pivot axis 3, springs 4 are located in the openings, which push the side of the knife through the supports 5

2. The biasing of the springs is controlled by screws 6. Between the bearing surfaces of the knife 2 and the holder 1 sliding guides 7 and 8 are provided. Elastic material 9 can be used instead of the compression springs 4 This solution is suitable especially for tools for machining internal rotating surfaces 10 with little space to accommodate the springs.

The present invention significantly improves chip breaking. It is not necessary to grind the mechanical chipbreakers on the blades. It is particularly suitable for automated manufacturing systems that operate without manual operation. When using disc springs, this principle can also be used to dampen adverse vibration. When working on automatic machines, springs can be mounted directly in the heads of machine tools and no special adjustments to the knife holders are required.

Claims (2)

OBJECT A turning tool, mounted in a holder by means of a pin and supported by springs, characterized in that the adjustable compression springs (4) are positioned perpendicular to the axis of the pin (3) and at equal distances and supported on the side of the knife (2), wherein between the movable surfaces of the knife (2) and the holder (11) a linear sliding or rolling guide (7) is formed. Turning tool according to claim 1, characterized in that the guide (7) is formed by a layer of resilient material (9). 5 sheets of drawings 255388, 1 5 4 FIGURE 255386 255386 it OL 98 8 SS? IN 9 8 ε s s z