DE1059313B - Ball grinder - Google Patents

Description

Ball grinding machine The invention relates to a ball grinding machine with two discs arranged one above the other, of which at least one is concentric Guide grooves are provided for the balls to be ground and one of them fixed and the other is circumferential.

In these machines, the balls are made by the rotation of one Disc set in rotation and take on their circumference more or less the speed the rotating disk, so that a small relative movement arises that the Should cause grinding process. It has been shown that the rotating balls pull off the grinding wheels. With this arrangement, therefore, can not be a normal cutting speed for grinding wheels can be used. Much more can only grind with very slow and, above all, very hard ones Grinding wheels are carried out. The performance of the machine is as a result low.

The invention is based on the object of a ball grinder to create a flawless one as a result of repeated changes in the movement of the balls Grinding effect achievable, but also an increased cutting speed is applicable, so that the production output per unit of time is a corresponding increase learns.

This goal can be achieved according to the invention in that the stationary The disc has an off-center recess into which a rotating grinding disc protrudes, the whole thing in such a way that the grinding wheel in a partial area with the circumferential Disc interacts. The grinding wheel advantageously has the same Rotational movement like the rotating disk.

If the balls are now transported forward by means of the lower, grooved disc, so they are at the cutout of the upper disk under the rotating grinding wheel guided. This in turn endeavors to set every ball in motion. Included However, due to the kinematic sequence of its movements, this becomes first - at Entry under the disc - from one flank of the groove supporting it, the lower one Guide disk supported while being tangential in the middle of the grinding process runs to the guide groove of the lower disk to then on the opposite Flank of the groove to be supported. Roughly in the middle of the process it turns out that one ball is supported against the other and that by the Loops initiated rotary movement of the ball through the preceding ball is braked. Because of this constantly changing position of each ball during its Rotation - once supported on one side, once against the balls themselves and once supported on the other side - there is a certain deceleration of the Balls one that allows a normal grinding wheel at an economical cutting speed to perform regular machining of the balls, d. H. to grind these economically. This process also causes a certain alternating movement of the balls, which can be traced back to the explained changing system of the balls. Through this alternating contact of the balls also results in a certain deceleration of the same in their course. The balls cannot have the same speed on their surface how to assume the grinding wheel. This also prevents the balls grind, but actually be properly ground.

Furthermore, the invention allows the balls immediately after To take over pressing on the machine for grinding, because by the way, how the balls are detected, protruding burrs or the like. To a certain extent, under strong Pressure to be rolled flat, then sanded off immediately upon reaching the grinding wheel to become. The expensive grinding or filing that has been customary up to now is no longer necessary of the balls. In addition, the grinding process is brought to an economical grinding and the performance of the machine compared to that of previously known grinding machines increased several times.

According to the further invention does not find a one-piece grinding wheel Use, but a grinding wheel made of several concentric slip rings, which correspond in number to the guide grooves of the rotatable disc. It goes Another feature of the invention is that these slip rings in their grinding hardness are different, preferably such that the product grinding hardness times cutting speed is roughly the same everywhere. According to the invention, therefore, the grinding hardness changes Grinding wheel rings depending on the diameter, hence from the cutting speed of the rings. Hence the progress that at every job; So for each guide groove, the balls have the same grinding effect because the diameter at each work point is in the same proportion to Slip ring hardness.

The invention is shown schematically in the drawing, for example Illustration illustrated. It shows . 1 shows a section through the working disks a ball grinder, FIG. 2 a plan view thereof, FIG. 3 a partial section at A in Fig. 2, the direction of movement of the balls when gripped by the grinding wheel to show, Fig. 4 is a partial section at B in Fig. 2 to show the direction of movement of the Bullets. in the guide groove, Fig. 5 shows a partial section at -G in Fig. 2 to show the direction of movement of the balls as they exit the grinding wheel.

Two guide disks a and b are provided, which are coaxial are arranged one above the other. The lower disk a is rotatable by means of the support hub c. The upper disk b is fixed. The disk a is arranged concentrically with Provide guide grooves d for the balls e to be machined.

According to the invention, the ceramic grinding wheel is the two disks a and b g assigned, which is rotatable and in a circular arc-shaped cutout h of the stationary Disk b protrudes. The axis of rotation i of the grinding wheel g is eccentric to the axis of rotation k of the disk a, arranged. The two disks advantageously rotate a and g in the same direction according to the arrows X. Moved at the respective workplaces therefore the grinding wheel g is angled to the wheel a, the angle being from 90 ° changes over 180 ° to 90 °. Each ball is first supported on one flank (Fig. 3) and later to the opposite flank of the V-groove (Fig. 5), while in the middle Area of the grinding process (Fig. 4) to the preceding and the following Ball creates.

The grinding wheel g can consist of several grinding rings g¹, g², g³, g4, g5 and g6 must be composed. These slip rings have different grinding hardnesses. The hardness changes in the same proportion as the diameter of the rings. It practices hence the outermost slip ring g6, although it has the highest cutting speed has the same grinding effect as the other slip rings.

The fixed disk b is used to form the ball inlet @ and of the ball outlet m used. For this purpose, the partition wall n with the insertion tongue o provided. This overlaps the groove p, in which the balls are rotated the bowl q, which forms the bottom of the channel, is fed to the inlet Z and after leaving it of the outlet m are discharged.

Claims (1)

P ATE NT TO S -PR, UH & :. 1. Ball grinder with two disks arranged one above the other, of which at least one is provided with concentric guide grooves for the balls to be ground and one of which is stationary and the wandering is circumferential, characterized in that the stationary disk (b) eccentrically one Has recess (h) into which a rotating grinding wheel (g) protrudes, the whole thing in such a way that the grinding wheel (g) interacts with the rotating wheel (a) in a partial area. -2. Ball grinding machine according to claim 1, characterized in that the grinding wheel (g) has the same direction of rotation as the rotating wheel (a). 3. Ball grinding machine according to claims 1 and 2, characterized in that the grinding wheel (g) is composed of several concentric slip rings (g1 to g6) corresponding to the number of guide grooves (d) of the rotating disk. 4. Ball grinder according to claims 1 to 3, characterized in that the hardness of the individual slip rings (gx to g6) is chosen so that the product grinding hardness times the cutting speed is approximately the same for the individual slip rings. Considered publications: German Patent Nos. 119 120, 224 336, 283 410; 328 485, 834 815.