WO2012083937A1 - Drill chuck - Google Patents

Abstract

The invention relates to a drill chuck (1), in particular for hammer drilling, comprising a chuck body (3) which can be connected to a drill spindle and which has a tool fitting (2), comprising guide receiving areas which are formed in the chuck body (3) in an inclined manner with respect to the chuck axis (4), and comprising guided clamping jaws (6) between which a fitting (5) for the drilling tool is formed and which are in engagement with the clamping thread (8) of a rotatably guided clamping ring (9) via a toothing (7) in order to open and close the drill chuck (1). The point of intersection of the central longitudinal axes (10) of the clamping jaws (6) is offset in the direction of the tool fitting (2) in comparison to a standard drill chuck.

Description

 chuck

The invention relates to a drill chuck, in particular for percussion drilling, with a connectable to a drill chuck body in which a

Tool holder is formed, with inclined in to the feed axis in

Chuck body formed guide seats and guided, between them a receptacle for the drilling tool forming jaws, the opening and closing of the chuck via a toothing with the

Clamping threads of a rotatable clamping ring are engaged.

Drill chucks of the above type have been used for many years, with an inclination of the central longitudinal axes of the clamping jaws with respect to the chuck axis is always 15 degrees.

Already in the filed in 1919 at the Reich Patent Office document DE 359 905 A discloses a chuck with inclined by 15 degrees center longitudinal axes with respect to the chuck axis. Another chuck formed as a dental drill chuck of the type mentioned is shown in DD 131 141 A2 from 1977, in which the inclination is also 15 degrees. Finally, from EP 0 768 930 B1, with priority from 1994, a drill chuck with respect to the chuck axis 15 degrees inclined central longitudinal axes known. As can be calculated from the standard ISO 10 888 for three-jaw chuck, it has meanwhile become almost a standard to guide the jaws along their central longitudinal axes at an angle of 15 degrees relative to the chuck axis, and the art is implementing this standard holds.

The aforementioned chuck have the disadvantage that they have no compact and therefore lightweight construction. They can not be formed as a short drill chuck and in the closed state, especially in the recording of very thin drilling tools, the jaws protrude very far out of the chuck body.

The invention is therefore the object of a drill chuck of the type mentioned in such a way that has a compact design and thus a very short chuck body, wherein the jaws

additional protection against dirt and damage.

These objects are achieved according to the invention in that the intersection of the central longitudinal axes of the clamping jaws is offset from a standard drill chuck in the direction of the tool holder.

This design has the advantage that the

Center longitudinal axes tend more than 15 degrees with respect to the chuck axis, resulting in a very short chuck, which has a compact design. By offset in the direction of the tool holder relative to a standard drill chuck intersection of the central longitudinal axes of the clamping jaws these are protected by the chuck body from contamination or from external forces acting in the form of shocks. at Consequently, only a very small part of the clamping jaws in the form of a tip outside the chuck body is arranged to completely close the chuck.

Therefore, it appears to be particularly advantageous that the central longitudinal axes are located in a point located on the inside of the chuck body

Cut feed axis. As soon as a very small drilling tool is already clamped, the clamping jaws as a whole remain behind the surrounding chuck body and are protected by this.

It is also advantageous if the inclination of the central longitudinal axes with respect to the chuck axis is between 15 degrees and 50 degrees, preferably between 20 degrees and 35 degrees. With an inclination of more than 50 degrees, the chuck does not have enough clamping force to tension a drilling tool, because the projection of the jaws is formed only very short. Desweit must be greatly increased in the interior of the clamping ring formed with the clamping thread cone. If the inclination between 20 degrees and 35 degrees, so it is guaranteed that the clamping jaws are protected in the closed state inside the tool holder by the chuck body, with an optimal clamping force acting on the drilling tool. Another advantage arises with this

Embodiment characterized in that at a constant slope of the

 Tightening thread fewer turns of the clamping sleeve are needed to run the entire clamping range of the chuck with the jaws.

An advantageous embodiment is given by the fact that the end of the tool holder is assigned a stop ring. This reinforcement of the contact point of the jaw guide and the stop of the In addition, the tool holder prevents machine-opening and closing of the drill chuck from causing the chuck body to open due to the movement of the clamping jaws. Through the stop ring is further tilting of the clamping jaws in the direction of

Chuck body center and a jamming of the gears with the

Clamping thread prevented.

It is advantageous if the stop ring is formed of a hardened metal. As a result, this is very wear and a corresponding Auslaibung the stop ring is also reduced. A further advantage is that the stop ring is formed as a stop disk. This can also be used as a stop for a male boring tool. The production of a disc is economically and ecologically more efficient than the production of a ring, as this less waste is produced and thus disposal costs can be saved.

It is also advantageous if a clamping jaw stop is formed on the clamping ring and an abutment surface is formed on the clamping jaws. By

Interaction of the jaw stop with the abutment surface can make the opening movement of the chuck and thus the movement of the chuck

Clamping jaws along their central longitudinal axes are limited in the chuck body.

It is also advantageous if the jaw surfaces are arranged parallel to the chuck axis. As a result, the greatest possible frictional engagement between the drilling tool and the chuck can be created during the clamping process. Are the jaw surfaces associated with clamping inserts, so this has the advantage that the jaws individually to different

Drilling tools for a tight fit in the chuck can be adjusted. The clamping inserts can be used in guides of the projections of the jaws, which can also protrude beyond the projections, to a greater frictional engagement between

To produce clamping jaws and drilling tool.

Furthermore, clamping inserts receiving pockets may be formed in the chuck body, which are preferably formed in an annular groove pockets. This has the advantage of being extended

 Insert clamping inserts during the opening process of the drill chuck into these pockets and thus a larger area for the inclusion of drilling tools with different diameters is created.

It is also advantageous if the clamping inserts are completely or partially formed as with the stop ring interacting impact elements. One

immediate abutment of the jaws on the stop ring is avoided and the resulting wear is reduced.

It is also advantageous if the clamping inserts are formed from carbide or hard metal, whereby their material wear is greatly reduced and a long product life cycle is created for the drill chuck.

A further advantageous embodiment is given by the fact that the diameter of the tool holder is formed larger than that of the connection for the drill spindle. As a result, a simplified assembly of the chuck is created because so the stop ring can be easily attached to the closed end of the tool holder. A further advantageous embodiment is characterized in that the clamping jaws are formed as round jaws. The arranged in the chuck body guide the jaws can thus be made by a simple hole. An almost around the jaws arranged, this limiting guide also supports the jaws against tilting towards the center of the chuck down.

If the chuck is formed as a toothed chuck, so this has the advantage that the drilling tool by simply turning the

Sprocket with a sprocket having key can be secured very strong in the tool holder.

In the following the invention is shown in the drawing

Embodiments explained in more detail; show it:

Fig. 1 is a sectional side view of a shortened chuck without stop ring, Fig. 2 is a sectional side view of a shortened drill chuck with stop ring, and

Fig. 3 is a sectional view of an inventive

 Keyed chuck.

1 shows a chuck 1 is shown, in particular for impact drilling, with a connectable to a drill spindle, a tool holder 2 having chuck body 3, with inclined to the chuck axis 4 in the chuck body 3 formed guide seats and guided between them a receptacle 5 for the drilling tool forming jaws 6, the to Opening and closing of the drill chuck 1 via a toothing 7 with the clamping thread 8 of the clamping ring 9 are engaged. In the embodiment shown here, the clamping ring 9 is rotatably guided on the chuck body 3.

As can be seen from FIG. 1, the point of intersection of the central longitudinal axes 10 with respect to a standard drill chuck is offset in the direction of the tool holder 2. The central longitudinal axes 10 of the clamping jaws 6 intersect in this preferred embodiment within the chuck body 3 and are inclined with respect to the chuck axis 4 by 30 degrees.

In this embodiment, the jaw surfaces 14 are associated with clamping inserts 15, which may also consist of carbide or hard metal. The clamping jaws 6 further have a movement along their central longitudinal axis 10 limiting abutment surface 13 for cooperation with the jaw stop 12 of the clamping ring 9.

The chuck 1 shown here also has a locking ring 17 for axially securing the clamping sleeve relative to the chuck body.

FIG. 2 shows a drill chuck 1 which, in addition to FIG. 1, has one arranged at the closed end of the tool holder 2

Stop ring 1 1 has. The parallel to the chuck axis 4 arranged jaw surfaces 14 are associated with clamping inserts 15 which are formed as wholly or partially with the stop ring 1 1 interacting impact elements. To reduce the wear of the clamping inserts 15 and the stop ring 1 1, these may consist of carbide or hard metal. As with the chuck 1 shown in Figure 1 is also here

Diameter of the tool holder 2 formed larger than that of the terminal 16 for a drilling spindle, not shown.

The toothing 7 of the clamping thread 8 with the clamping ring 9 causes the movement of the clamping jaws 6 along their central longitudinal axes 10th

The jaws 6 have here abutting surfaces 13 which with the

Clamping jaw stops 12 of the clamping ring 9 interact, and thus limit the movement of the clamping jaws 6 along their central longitudinal axes 10 in addition. FIG. 3 shows a drill chuck 1 according to the invention, which in its preferred embodiment is in the form of a toothed-wheel drill chuck 19.

This has a coaxial with the chuck axis 4 toothed ring 20 with external teeth and in the chuck body 3 is arranged radially to the chuck axis 4 key holder 21 is formed. A key 22 is inserted into the key holder 21 and engages with a pinion in the

 Sprocket 20 a. A rotation of the key 22 causes a rotation of the ring gear 20 relative to the chuck body 3. The ring gear 20 is fixedly connected to the clamping ring 9, whereby the sprocket drill chuck 19 with its axis of rotation about 30 degrees inclined central longitudinal axes 10 of the jaws 6 by the operation of the Key 22 reversible from a release configuration into a clamping configuration for a

male boring tool can be transferred. LIST OF REFERENCE NUMBERS

1 drill chuck

 2 tool holder

3 chuck bodies

 4 feed axis

 5 recording

 6 jaws

 7 toothing

 8 tensioning thread

9 clamping ring

 10 center longitudinal axis

1 1 stop ring

 12 jaw stop

13 impact area

 14 baking surfaces

15 clamping inserts

16 connection

 17 circlip

18 clamping sleeve

 19 toothed chuck

20 sprocket

 21 key holder

22 keys

Claims

claims:

1 . Drill chuck (1), in particular for impact drilling, with one on one

 Drill spindle connectable, a tool holder (2) having chuck body (3), with in inclined to the chuck axis (4) in the chuck body (3) formed guide seats and guided, between them one

Receiving (5) for the drilling tool forming jaws (6) for opening and closing the chuck (1) via a toothing (7) with the clamping thread (8) of a rotatable clamping ring (9) are engaged, characterized in that the Intersection of

 Central longitudinal axes (10) of the clamping jaws (6) with respect to a

 Standard drill chuck is offset in the direction of the tool holder (2).

2. Chuck (1) according to claim 1, characterized in that the

 Central longitudinal axes (10) intersect at a point located inside the chuck body (3) on the chuck axis (4).

3. Chuck according to claim 1, characterized in that the

 Inclination of the central longitudinal axes (10) with respect to the chuck axis (4) is between 15 degrees and 50 degrees, preferably between 20 degrees and 35 degrees.

4. chuck (1) according to one of claims 1 to 3, characterized

 characterized in that the closed end of the tool holder (2) is associated with a stop ring (1 1).

5. chuck (1) according to claim 4, characterized in that the

Stop ring (1 1) is formed of a hardened metal.

6. drill chuck (1) according to claim 4 or 5, characterized in that the stop ring (1 1) is formed as a stop disk.

7. chuck (1) according to one of claims 1 to 6, characterized

 in that a clamping jaw stop (12) is formed on the clamping ring (9) and an abutment surface (13) is formed on the clamping jaws (6).

8. drill chuck (1) according to one of claims 1 to 7, characterized

 in that the jaw surfaces (14) are arranged parallel to the chuck axis (4).

9. chuck (1) according to one of claims 1 to 8, characterized

 characterized in that the jaw surfaces (14) clamping inserts (15) are assigned.

Drill chuck (1) according to claim 9, characterized in that in

 Chuck body (3) a plurality of the clamping inserts (15) receiving pockets are formed, which are preferably formed in an annular groove pockets.

1 1. Drill chuck (1) according to claim 9, characterized in that the

 Clamping inserts (15) made of carbide or hard metal are formed.

12. drill chuck (1) according to one of claims 1 to 1 1, characterized

in that the diameter of the tool holder (2) is made larger than that of the connection (16) for the drill spindle.

13. drill chuck (1) according to one of claims 1 to 12, characterized

 characterized in that the clamping jaws (6) are formed as round jaws.

14. Chuck (1) according to one of claims 1 to 13, characterized

 characterized in that the chuck (1) is formed as a toothed chuck.