DE29600727U1 - Drill chuck - Google Patents

Description

Günter Horst Röhm
Heinrich-Röhm-Strasse 50
89567 Sontheim

89073 Ulm, 20.12.95 File G/9748 f/sr

drill chuck.

The invention relates to a drill chuck with a chuck body that can be connected to a drill spindle, with adjustable clamping jaws that form a holder for the drilling tool between them and with a clamping sleeve that is rotatably guided coaxially to the chuck body for adjusting the clamping jaws, wherein the outer surface of the clamping sleeve is designed as a gripping surface for turning the clamping sleeve by hand.

With such drill chucks, which are usually tightened or loosened by hand without a key, sufficient torque must be applied to the clamping sleeve by hand in order to achieve a sufficiently firm clamping of the drilling tool between the clamping jaws, or a drill chuck that may still be loose during drilling

has been retightened, can be released.

The invention is based on the object of designing a drill chuck of the type mentioned at the beginning in such a way that sufficiently large torques can be easily exerted on the clamping sleeve by hand.

This object is achieved according to the invention in a drill chuck with the features mentioned at the outset in that the clamping sleeve is provided on the gripping surface with flat fields made of a plastic that is softer than the material of the clamping sleeve and has a high coefficient of friction.

The inventive design of the clamping sleeve results in a high static friction between the hand and the clamping sleeve when handling the clamping sleeve, which allows the exertion of greater torques on the clamping sleeve without the clamping sleeve having to be gripped and clamped particularly tightly by the hand 0, which

The forces required by hand are considerably reduced and the handling of the clamping sleeve when clamping and loosening or closing and opening the drill chuck is made much easier.
25

If it is a drill chuck with a retaining ring connected to the chuck body in a rotationally fixed manner with an outer surface also designed as a gripping surface, then in a preferred embodiment of the invention this gripping surface is also provided with fields made of the same softer plastic with high friction force as the gripping surface on the clamping sleeve.

In detail, the arrangement is expediently made such that the fields made of the softer plastic are embedded flush in the surface of the clamping sleeve or the retaining ring. A further preferred embodiment of the invention is characterized in that the fields made of the softer plastic extend in the axial direction over the larger part of the clamping sleeve or the retaining ring and follow one another in the circumferential direction with a mutual distance. It is also recommended that the fields are connected in the circumferential direction by a ring-shaped closed strip made of the same plastic as the fields themselves. A particularly expedient arrangement is obtained when the width of the strip in the axial direction is significantly narrower than the dimensions of the fields and the strip runs approximately in the middle of the fields. The arrangement is expediently made such that the fields on both sides of the strip are each approximately mirror-symmetrical.

In the following, the invention is explained in more detail using an embodiment shown in the drawing; the only figure shows a drill chuck according to the invention, on the left in an axial section, on the right in a side view.

The drill chuck shown in the drawing has a chuck body 1 that can be connected to a drill spindle (not shown), furthermore, between them, a holder for the drilling tool (also not shown), 0 adjustable clamping jaws 5 and a clamping sleeve 9 that is rotatably guided coaxially to the chuck body for adjusting the clamping jaws 5, whereby the outer surface of the clamping sleeve 9 serves as a gripping surface for turning the clamping sleeve.

by hand. This grip surface is provided with flat fields 30 made of a plastic that is softer than the material of the clamping sleeve 9 and has a high coefficient of friction, so that when the clamping sleeve is grasped and enclosed by the hand, large torques can be exerted on the clamping sleeve without the clamping sleeve 9 having to be enclosed particularly tightly by the hand in order to prevent the hand from slipping on the clamping sleeve 9.

In order to hold the drill chuck in place when the clamping sleeve 9 is operated so that it cannot rotate with the other hand, a retaining ring 13 is connected to the chuck body 1 in a rotationally fixed manner, which also has an outer surface designed as a gripping surface. This gripping surface is also provided with fields 31 made of the same softer plastic with high friction as the gripping surface on the clamping sleeve 9.

Whether on the clamping sleeve 9 and/or on the retaining ring 13, in each case the fields 30, 31 made of the softer plastic are embedded flush in the outer surface of the clamping sleeve 9 or the retaining ring 13. These fields 30, 31 extend in the axial direction over the larger part of the clamping sleeve 9 or the retaining ring 13 and follow one another in the circumferential direction at a mutual distance. The fields 30, 31 are connected in the circumferential direction by a ring-shaped closed strip 32 made of the same plastic as the fields 30, 31 themselves, which bridges the distance. The width of this strip 32 in the axial direction is considerably narrower than the dimensions of the fields 30, 31, with the strip 32 running approximately in the middle of the fields 30, 31. On both sides of this strip 32, the fields are approximately mirror-symmetrical to one another.

educated.

The drawing also shows that the chuck body 1 has a threaded receptacle 2 for connecting the drill spindle. The clamping jaws 5 can be adjusted centrally to the chuck axis in a tool holder 4 that is coaxial with the chuck axis 3 and engage with a toothing in a clamping thread 7 of a clamping ring 8 that is guided on the chuck body 1 so that it cannot be moved axially and can be rotated by hand relative to the chuck body 1 with the help of the clamping sleeve 9, which is also not movable axially. In order to prevent undesired adjustments of the clamping jaws 5, the rotational position of the clamping ring 8 can be fixed. For this purpose, a locking device, generally designated 11 and formed between the clamping ring 8 and the chuck body 1, is used, which consists of a coaxial ring of locking recesses 10 on the outer circumferential surface of the chuck body 1 and of at least one locking member 12, which engages under spring force essentially radially from the outside to the inside into the locking recesses 10. The locking member 12 can be adjusted between its states of engagement and disengagement at the locking recesses 10, for which purpose the locking member 12 can be adjusted by a control cam on the clamping sleeve and the clamping sleeve 9 can be rotated relative to the clamping ring 8 accordingly. This rotation of the clamping sleeve 9 relative to the clamping ring 8 is limited by a positive fit in both directions of rotation. The clamping ring 0 has a coaxial intermediate ring 18 which forms a guide for the clamping sleeve 9 and which has stop pieces designated 29 to limit the rotation between the clamping sleeve 9 and the intermediate ring 18, each of which is inserted into a

The stop piece 29 engages in the recess 33 on the clamping sleeve 9, whereby the stop piece 29 comes to a stop at the ends of the rotation path with one of the two end faces that limit the recess 3 in the circumferential direction. A stop ring 15 that can rotate freely relative to the clamping sleeve 9 is provided axially in front of the clamping sleeve 9 and is mounted on the chuck body 1 so that it cannot be moved axially and can rotate, for which purpose the stop ring 15 is held axially to the rear via a collar 16 of the clamping sleeve 9 on an annular shoulder 17 of the chuck body and axially to the front on a snap ring 20 that sits in an annular groove on the chuck body 1. The stop ring 15 protects the clamping sleeve from hitting the workpiece when drilling through it and being slowed down as a result, which could lead to the drill chuck tightening so much that it can only be opened again with difficulty. This stop ring 15 also protects the clamping sleeve 9 against greater axial loads from the front, so that the axial support of the clamping sleeve to the rear on the intermediate ring 18 is subjected to correspondingly low stress. In addition, the stop ring 15 protects the clamping sleeve 9, which is often designed as a pure plastic part, from the particularly high wear stresses in the front part of the sleeve.

Claims (7)

Protection claims: 1. Drill chuck with a drill spindle connectable chuck body (1), with a holder for the drilling tool formed between them,
adjustable clamping jaws (5) and with a clamping sleeve (9) which is rotatably guided coaxially to the chuck body for adjusting the clamping jaws (5), whereby the outer The outer surface of the clamping sleeve (9) is designed as a gripping surface for turning the clamping sleeve by hand,
characterized in that the clamping sleeve (9) is provided on the gripping surface with flat fields (30) made of a plastic which is softer than the material of the clamping sleeve (9) and which has a high
friction coefficient. 2. Drill chuck according to claim 1, characterized in that in the case of a chuck body (1) which is rotationally fixed connected retaining ring (13) with also as Gripping surface formed outer surface also this gripping surface with fields (31) made of the same softer plastic with high friction force as the
Gripping surface on the clamping sleeve (9). 3. Drill chuck according to claim 1 or 2, characterized
characterized in that the fields (30, 31) from the
softer plastic in the surface of the
Clamping sleeve (9) or retaining ring (13) flush 0 are embedded. 4. Drill chuck according to one of claims 1 to 3, characterized in that the fields (30, 31) made of the softer plastic extend in the axial direction over the larger part of the clamping sleeve (9) or the retaining ring (13) and follow one another in the circumferential direction with a mutual spacing. 5. Drill chuck according to claim 4, characterized in that the fields (30, 31) are connected in the circumferential direction by an annularly closed strip (32) made of the same plastic as the fields (30, 31) themselves. 6. Drill chuck according to claim 5, characterized in that in the axial direction the width of the strip (32) is significantly narrower than the dimension of the fields (30, 31) and the strip (32) runs approximately in the middle of the fields (30, 31). 7. Drill chuck according to claim 6, characterized in that the fields (30, 31) on both sides of the strip (32) are each approximately mirror-symmetrical.