DE971514C - Process for processing surfaces, in particular for fine grinding - Google Patents

Description

Process for processing surfaces, in particular for fine grinding When grinding surfaces, there is a risk that the machined surface There are grooves or scratches. This formation of grooves is due to the fact that the protruding abrasive grain runs through the same path several times.

It has already been suggested to avoid this formation of grooves by that for workpieces that are bodies of revolution, see the surface of the workpiece slowly turns past the grindstone and this simultaneously vibrates, whose direction coincides with the axis of rotation of the workpiece. This However, the method was applied to workpieces that are rotational solids, limited. It is also known to create the surfaces of any shaped body to smooth that the abrasive in a liquid in which to be treated Bodies are immersed, suspended and this fluid by one or two Sound wave generators are set in vibration, with those in the liquid suspended abrasive particles traverse complicated spatial vibrational paths and act on the surface of the body to be treated. The production Sharp cutting is not possible with this method. It is also known cutting tools to increase. the material-removing effect an additional one To impart vibratory motion that is wholly or partly with the Direction of work movement coincides and a frequency of over Iooo oscillations has in the second. This very high vibration frequency of the tool should a loosening of the molecular connection of the processed material is achieved will. Devices through which vibrations of different frequencies in two perpendicular Mutually lying directions are generated are known per se. they were used in vibrating tables and as cutting or stripping tools, whereby the vibrations also had the purpose of loosening the structure of the treated fabrics.

Finally, it is known to make flat surfaces by the flat lapping process to give high surface quality. This known method is that a rotating lapping disc with the addition of abrasive-containing lapping paste with a large Force is pressed against the surface to be processed, grinding wheel and surface to be processed are slowly shifted against each other. This method is time consuming and in many cases with consideration of the geometric shape of the surface to be processed or the workpiece not applicable. In particular, could the flat lapping process is not used in the manufacture of high quality cutting edges will.

The method according to the invention enables all types of processing of surfaces that are based on a grinding or rubbing process, the formation of grooves reliably to avoid .. According to the invention the - grinding or reaming tool Instead of a rotary movement, perform two oscillating movements with parallel directions to the surface to be machined, but not parallel to each other and from at least one of which has an oscillation rate of more than Iooo oscillations per minute Has. The directions of the two oscillations should preferably be perpendicular to one another stand and the two vibrations have significantly different frequencies and / or different frequencies Have amplitude. It has been found to be beneficial at different frequencies to choose the higher frequency at least three times as high as the lower frequency.

The inventive method is achieved that the individual Abrasive grain on the surface to be processed a zigzag line or loop-shaped Path travels, with the individual points of the surface to be processed in changing Direction to be edited.

The inventive method is particularly useful for fine and Fine sanding of already pre-sanded surfaces, but can in principle also already can be used for pre-grinding. When fine-sanding pre-sanded surfaces the direction of the oscillating movement in which the higher speeds occur, expediently at right angles to the direction of the previous grinding process. For example the method according to the invention can be used to carry out a very fine grinding process for the production of the most favorable grinding edges on cutting tools, in particular on Carbide tools. The surfaces to be ground are proportionate with such tools small.

An embodiment of one according to the method according to the invention working grinding device is in Fig. I in side view, in Fig. 2 in plan view .shown.

The cutting edge of the hard metal tool I is to be finely machined using the method according to the invention. For this purpose, the cutting edge 2 is pressed against the grinding body 3. This grinding body 3 is expediently rotatably fastened in a holder 4. By means of a suitable device, the grinding body 4 is set in vibratory motion in the direction of the arrows and 6 shown in the two figures. If the cutting edge 2 was ground perpendicular to its longitudinal direction during the previous grinding process, the oscillation in the direction of arrow 6 should have a higher speed than the oscillation in the direction of arrow s in the direction s approximately zoo to 700 oscillations per minute, or the oscillation in the direction 6 can have a greater amplitude than the oscillation in the direction s.

The vibrations of the grinding or friction body can be mechanical or are generated electromagnetically. Mechanical generation can. for example by means of two motors driven by the same or by two different motors Eccentric disks are made, the electromagnetic in such a way that two in different Frequency or strength excited electromagnets act on the grinding wheel.

Compared to grinding with rotating grinding wheels, the inventive Method still has the further advantage that with a relatively small grinding wheel or a small grinding surface - which is a significant one, especially with diamond wheels Brings savings - and you can work at a lower speed, so that the process is also economically favorable and the grinding work is gentle is carried out. In addition, the procedure is simple and accident-proof and provides information all a very favorable sanding pattern.

Claims (7)

PATENT CLAIMS: i. A method for machining surfaces, in particular for fine grinding, by means of non-rotating grinding tools, characterized in that the grinding tool is given two vibratory movements, the directions of which are parallel to the surface to be ground but not parallel to one another and of which at least one has a number of vibrations greater than 10000 Has vibrations per minute. 2. The method according to claim I, characterized in that that the directions of both vibrations are perpendicular to each other. 3. Procedure according to claim 1 or 2, characterized in that the two vibrations are different Have frequencies. 4. The method according to claim 1, 2 or 3, characterized in that that the two oscillations have different amplitudes. 5. The method according to claim 3 or 4, characterized in that the two frequencies are at least around the Distinguish factor 3. 6. Application of the method according to any one of claims I to 5 for fine grinding of pre-ground surfaces, with the direction of the oscillation higher frequency is perpendicular to the direction of the previous grinding process. 7th Application of the method according to claim 6 for the fine grinding of the cutting edges of Cutting tools, in particular hard metal tools. Considered publications: German Patent Nos. 98 491, 407 033, 805 985, 823 666, 915 769; U.S. Patents No. 2 544 604, 2 46o 9I8.