This application claims the benefit of priority under 35 U.S.C. §119 of German Patent Application DE 10 2007 003 673.8 filed Jan. 18, 2007, the entire contents of which are incorporated herein by reference.
The present invention pertains to a self-centering chuck for accurately fixing the position of workpieces on tables.
Self-centering chucks are known, which comprise a basic body consisting of a steel casting with guide grooves, a threaded spindle, which is mounted rotatably about its longitudinal axis and has a right-handed external thread in a first axial area and a left-handed external thread in a second axial area and is provided centrally with a groove surrounding the circumference of the threaded spindle, two slides screwed onto an external thread each of the threaded spindle with a clamping jaw each arranged in the head area, which are guided movably in the axial direction with sliding blocks screwed onto the slides in the guide grooves of the basic body and on the threaded spindle, wherein the threaded spindle is centered in a central piece, which is arranged between the slides and against which the two slides are to be clamped, and can be fixed and locked at the basic body and at the central piece by fastening means guided in the groove, so that rotation of the threaded spindle leads to an axial motion of the slides with the clamping jaws towards or away from each other.
One problem of the self-centering chucks of the class described is that the clamping jaws made integrally in one piece with the top side have only one clamping surface each suitable for clamping only. Only two clamping jaws arranged opposite each other with their clamping surface are suitable for fixing the position of workpieces. The outer surfaces of the clamping jaws have predominantly a material-saving shape, but they have no functional significance. Based on this, the clamping path between the clamping jaws remains very limited. Furthermore, the slides are equipped each only with a right-handed or left-handed thread, and they can therefore be screwed only onto the right-handed or left-handed thread of the spindle. In addition, the sliding blocks screwed to the slides may become loose and tilt, which requires time-consuming and labor-intensive maintenance in view of the required precision.
The object of the present invention was therefore to provide a self-centering chuck for accurately fixing the position of workpieces to be machined on tables, which self-centering chuck guarantees expanded clamping paths, higher stability for guiding the slides and against twisting of the slides, a substantially reduced weight and less complicated logistics.
According to the invention, a self-centering chuck is provided for accurately fixing the position of workpieces to be machined on tables. The self-centering chuck comprises a basic body with guide grooves as well as a threaded spindle mounted rotatably about a longitudinal axis thereof. The threaded spindle has a right-handed external thread in a first axial area and a left-handed external thread in a second axial area. The threaded spindle is provided centrally with a circumferential groove extending around a circumference of the threaded spindle. A first slide is screwed onto the right-handed external thread of the threaded spindle. The first slide includes a clamping jaw in a head area. The first slide has sliding blocks guided in the guide grooves of the basic body and guided movably in an axial direction on the threaded spindle. A second slide is screwed onto the left-handed external thread of the threaded spindle. The second slide includes a clamping jaw in a head area. The second slide has sliding blocks guided in the guide grooves of the basic body and guided movably in an axial direction on the threaded spindle. A central piece is arranged between the slides. The two slides are clamped against this central piece. The threaded spindle is centered by the central piece and is fixed on the basic body by a fastening means of the central piece wherein the fastening means is guided in the groove so that rotation of the threaded spindle leads to an axial motion of the slides with the clamping jaws towards each other and away from one another. The clamping jaws that are arranged on the slides on the head side have clamping surfaces on both sides and can be used on both sides, and the slides can be screwed on both sides onto the left-handed and right-handed external threads of the threaded spindle.
The design of the clamping jaws, which can be used on both sides, as a result of which a considerable expansion of the clamping width is guaranteed for workpieces to be machined, shall be emphasized in particular. The clamping jaws, which are to be provided according to another variation, has different contours, support surfaces and auxiliary stops, to support not only their usability on both sides, but they also expand the versatility of their use.
Another great advantage is the embodiment of the slides, which can be screwed onto the threaded spindle on both sides independently from the thread being right-handed or left-handed, as a result of which their use becomes more flexible. This advantage is achieved, according by the arrangement of right-handed and left-handed internal threads in each slide, as a result of which the slides can be rotated by 180° only and can again be screwed onto the spindle.
The sliding blocks, which may be made integrally in one piece on both sides at the foot area of the slides may have a working surface extending above and below the guide groove. This feature is such that the slides acquire a greater stability concerning their guiding in the guide grooves of the basic body. In particular, the one-piece design eliminates the problem of loosening of the screwed-on sliding blocks and hence the risk of tilting in the guide grooves of the basic body. Furthermore, larger guiding and working surfaces are obtained due to the shape of the sliding grooves made integrally in one piece, the advantageous effect of such larger surfaces being that the forces acting on the slides are better distributed on the basic body. This brings about a considerable reduction of the load on the material and of the wear of the material on the basic body. As a consequence of this favorable effect, it is possible to manufacture the basic bodies from lighter materials, for example, aluminum or plastic, which in turn leads to a considerable weight reduction of the self-centering chucks. This favorable effect implies, moreover, more far-reaching advantages in terms of the storage and the transportation of self-centering chucks. The considerable weight reduction of these self-centering chucks makes it possible to use storage and transportation technology with lower load-bearing capacity and consequently to reduce the amount of materials used and the costs in the area of logistics.
The present invention shall be described in more detail below on the basis of an exemplary embodiment. The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and specific objects attained by its uses, reference is made to the accompanying drawings and descriptive matter in which a preferred embodiment of the invention is illustrated.
In the drawings:
Referring to the drawings in particular, the exemplary embodiment shown in
While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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10 2007 003 673 | Jan 2007 | DE | national |
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Number | Date | Country | |
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20080174077 A1 | Jul 2008 | US |