DE387332C - Drill chuck - Google Patents

Description

The invention relates to an improvement of the drill chuck according to patent 354356. In this The drill chuck is clamped in that the bottom of the two The loose bushings surrounding the drilling spindles are screwed onto the upper one. It turned out to be proven difficult to make this hand tightening effective enough.

It is known to arrange a rotatable guide part in the axially movable sleeve in such chucks. According to the invention, this guide part is used to drive a fine adjustment device known per se.
The rotation of the guide part takes place advantageously around a ball bearing mounted between the bushes carrying it and the drilling spindle. The size of the rotation of the guide part is advantageously made adjustable. This last-mentioned configuration ensures that the drill can be easily triggered.

The drawing shows an embodiment of the invention in vertical longitudinal section shown.

The drill spindle 10 is surrounded by two loose sleeves 1 and 2, which one inside the other are screwed. The sleeve 1 cannot move in the axial direction. Your axial Movement is prevented by a ball bearing 7, which is on a shoulder of the drill spindle 10 rests. A grinding spring 8 generates the necessary friction between the drill spindle 10 and the rifle 1.

Have the screw threads of the sleeves 1, 2 a slope roughly corresponding to the angle of friction. The sleeve 2 carries a ring 9 with which it is against the drill spindle 10 supports, which carries a ring 11 below. These two rings guide the sleeve 2 in their axial movement. The sleeve 2 has an inner bead at the bottom, on which loose the guide part 3 for the jaws 5 is seated. The guide part '3 is immovable by a disk 4 held opposite the sleeve 2.

The cylindrical jaws are inclined in Holes in the guide part 3 out. They are pointed at the bottom and grip the upper ends into radial recesses 12 of a driver 13, so that the jaws are forced are to move out and in when the sleeve 2 moves down or up and is prevented from rotating about its longitudinal axis; the jaws turn together with the driver 13. This has a pin 17 at the top with fine screw threads of the opposite slope to that between sleeves 1 and 2 and is screwed into the drill spindle 10 against an adjustable stop 18, which is of a lock nut 19 is held. The driver 13 is screwed into its' below Position held by a coil spring 16. Its rotary motion is through a locking screw 14 limited, which is in a sector-shaped recess 15 of the drill spindle 10 extends so that the driver 13

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against the action of the spring 16 by only one Throw unscrewed a certain ^ angle can.

The chuck works in the following way. The drilling spindle io with the driver 13, the jaws 5 and the guide part 3 rotates constantly and takes the loose bushings 1 and 2 by friction with. If you now hold the sleeve 1 with your hand, it rotates Bush 2 continues because of the friction between it and the guide part 3. It is thereby unscrewed from the sleeve 1, whereby the jaws are removed from each other. If you let go of sleeve 1 and hold sleeve 2 open, it is screwed upwards, since the sleeve 1 of the rotating drill spindle 10 by the grinding spring 8 taken becomes, and the cheeks approach each other. If you press the drill with your little finger against the palm of your hand and if you insert it between your cheeks, you can use the top two fingers to pinch the Stop sleeve 2, which is thereby screwed upwards; the cheeks tighten that around the drill together. The pressure of the jaws on the drill increases the friction between the guide part 3 and the sleeve 2 increases, and this friction soon becomes so great "that it becomes greater than that Tension in the spring 16. At the same time, the friction in the screw threads increases between the sleeve 1 and 2 and overcomes the slide spring 8, so that the sleeves 1 and 2 rotate together around the ball bearing 7 and take the guide part 3 with it by friction as well as the jaws 5 and the driver 13. This is thereby a Piece unscrewed; its rotation is limited and effected by the locking screw 14 secure clamping of the drill due to the low pitch of the screw threads and the small diameter of the pin 17 in relation to that of the sleeve2. If you let go of the sleeve 2 before the locking screw 14 stopped the movement the resistance of the drill will continue to tighten while drilling, because the friction between the drill and the jaws is greater than the friction in the ball bearing 7 and the screw threads on the pin 17.

If you then hold the sleeve 1 with the Hand on, which is not difficult, because the friction between the bushes 1 and 2 and because of the ball bearings 7 is only small, the bush 2 is screwed downwards and the drill falls out. At the same time, the spring 16 leads the driver 13 back into its initial position, held up by the stop 18. When setting this stop one can see the mutual rotation between the driver 13 and the drilling spindle 10 set larger or smaller and thereby change the size of the post-tensioning, so that one achieves a secure hold of the drill without removing its shank damaged by excessive pressure.

Claims (2)

Patent Claims: 1. Drill chuck according to patent 354356, in which the axially movable sleeve has a contains rotatable guide part, characterized in that this guide part (3) is used to drive a known fine clamping device (17) and this drive by the friction caused by the working pressure between the guide part (3) and the bushing (2) receiving it. 2. Drill chuck according to claim 1, characterized in that the rotation of the Guide part (3) with the bushings (1, 2) carrying it around a between them and the drill spindle (10) attached ball bearing and their size compared to the Drilling spindle is adjustable.