DE102005031141A1 - Machine tool with clamping unit having main and top jaws, includes jaw exchange adaptor for automatic replacement of top- or auxiliary jaws - Google Patents

Abstract

A jaw exchange unit (75) is provided for automatic replacement of the top- or auxiliary jaws (12). The jaw exchange unit comprises a top jaw replacement adapter (76). This holds the top jaw in such a position, that the main jaw (6) and top jaw can be fitted together and separated at a plug-in connection (18) of the top jaw. This assembly is achieved by movement of the main jaw relative to the top jaw, using the main jaw actuator unit (9). At least one of the two parts, the clamping unit and/or the top jaw replacement adaptor (76), can be moved relative to the opposite part, transversely with respect to the straight-line path of motion between a closed contact position in which they are fitted together, and a retracted position in which they are spaced apart. The main jaw includes connecting formations (16.1, 16.2) engaging associated formations in the top jaw. The spacing between the parts is so great that the main jaw with attached top jaw can be moved transversely with respect to the direction of spacing, whilst avoiding collision with the top jaw replacement adaptor. Such collision free movement is also possible with or without the top jaw or jaws attached. The design is further detailed and elaborated.

Description

The The invention relates to a machine comprising a tensioning device according to claim 1.

The DE 101 44 753 A1 shows base jaws and top jaws for clamping devices. The base jaws and top jaws are designed as wedge-shaped plug connection elements. The wedge angle between the two wedge sides is not defined in this document. In the drawings of this document, the wedge angle is 40 °. This is the same wedge angle of 40 °, which also have the base jaws and top jaws produced by the patentee in practice.

By the invention to the problem to be solved, the machine such to make the top jaws on the base jaws lighter and attached faster and can be removed again, for. B. can be exchanged for other top jaws.

These Task is carried out according to the invention the features of claim 1 solved.

Further Features of the invention will become apparent from the dependent claims.

Due to the features of the dependent claims, there are further advantages:
A lower tendency to "set" (subsequent deep penetration of the V-shaped connector parts) than in the prior art No jamming of the top jaw on the base jaw or at least a significantly reduced clamping effect of the top jaw on the base jaw over the prior art. In the case of a tensioning device, it is possible to automatically change the top jaws on the base jaws, although this is not possible in the prior art The invention can be implemented in such a way that it can be used alternatively for External clamping and internal clamping of the clamping device is used (clamping a tool or workpiece from the outside or from the inside), while in the prior art, the top jaws and the base jaws and thus the clamping device are each designed only for external tension or only for internal stress The basic jaws and top jaws with high precision precision is simpler than in the prior art. The invention also results in longer operating time accurate positioning of the top jaws on the base jaws. A change of the top jaws on the base jaws of a jig is possible without space problems in a simple manner.

The Invention will now be described with reference to the accompanying drawings based on preferred embodiments described as examples. In the drawings show

1 1 is a schematic front view of a clamping device in the form of a power chuck according to the invention with base jaws, but without top jaws,

2 a partial side view of a machine according to the invention, partially shown in longitudinal section, which is a part of the power chuck of 1 shown in combination with a jaw changing device, wherein of the base jaws and top jaws only a base jaw and a top jaw to explain the attachment and removal of top jaws is shown on or from the base jaws,

3 an enlarged bottom view of a base jaw of 1 and 2 in the direction of an arrow III of 2 seen,

4 a plan view of a top jaw in the direction of an arrow IV of 2 seen,

5 schematically a side view of the machine of 2 wherein the top jaw is fixed to the base jaw and an empty jaw changing device is positioned axially spaced from the base jaws and in the direction of rotation such that a respective positioning of the jaw changing device of a locking opening of the top jaw axially and axially opposite,

6 the machine of 5 After the power chuck has been lowered to the jaw changing device and thereby the positioning of the jaw changing device has penetrated into the locking hole of the additional jaw and the locking bolt has pushed back out of the locking hole in the base jaw, so now the base jaw moves radially relative to the additional jaw and thus the V-shaped Plug connection between the two jaws can be separated

7 the machine of 6 after the radial separation movement of the base jaw from the top jaw, so that they can then be moved axially away from each other,

8th the machine of 7 after the power chuck from the jaw change machine was axially moved away and thus the additional jaw was removed axially from the base jaw,

9 an end view of the power chuck facing the front of a jaw changing device,

10 the schematic representation of the power chuck of 2 in combination with a key for manual rather than automatic locking and unlocking of the locking bolt.

This in 1 shown power chuck 2 according to the invention contains a chuck body 4 and for example three base jaws 6 , The base jaws 6 are around a central longitudinal axis 8th (central center line) of the power chuck 2 arranged around evenly distributed. At the base jaws 6 are topping jaws 12 fastened, which at least one clamping surface 14 to have. The base jaws 6 can from a base jaw motion device 9 in the chuck body 4 along a linear movement path according to arrows 10 be moved radially, thereby between the clamping surfaces 14 the top baking 12 a tool (drill, milling cutter, etc.) or a workpiece to be machined radially from the outside (external tension) or radially from inside to outside (internal tension) clamp. The power chuck 2 can be one around the longitudinal axis 8th be rotating or non-rotating power chuck.

The power chuck 12 is preferably axial to the longitudinal axis 8th movably arranged. This movement can be done manually or preferably by a drive 11 respectively. The power chuck 2 can be mounted non-rotatably or by a drive 13 by means of a motor, preferably an electric motor, about the longitudinal axis 8th be rotatable.

In the 2 to 10 is only one base jaw at a time 6 and a topping jaw 12 to describe the features and functions of the invention, since the features and functions are the same for all other base jaws and top jaws.

The base jaw 6 and the top jaw 12 are each radial to the theoretical longitudinal axis 8th pluggable and separable again. The top jaw 12 has at least one clamping surface 14 , which points in a radial clamping direction for clamping a workpiece or a tool between the clamping surfaces 14 from all top jaws 12 of the power chuck 2 ,

As a connector device is on the one cheek 6 or 12 provided at least one connector part, which has a laterally undercut V-rib, and at the respective other jaw 12 or 6 At least one connector part is provided, which has a laterally undercut keyway, which is open at its wider groove end for insertion of the V-rib. According to the preferred embodiment of the invention, the V-rib is 16-1 (and or 16-2 ) on the base jaw 6 , and the keyway 18 at the top jaw 12 educated. According to another, not shown embodiment of the invention, however, can also in the reverse manner, the V-rib 16-1 (and or 16-2 ) on the top jaw 12 , and the keyway 18 at the base jaw 6 be formed.

The two wedge-shaped side walls of the V-rib 16 and the keyway 18 are each provided with an undercut (undergrip), so that the side walls each side grooves 20 and an associated groove edge projection 22 in the base jaw 6 have, as well as one page groove each 24 and a groove edge projection 26 in the top jaw 12 to have. The Nutrand tabs 22 the base jaw 6 fit into the side grooves 24 under the groove projections 26 the top jaw 12 , The Nutrand tabs 26 the top jaw 12 fit into the side grooves 20 under the groove edge projections 22 the base jaw 6 ,

The Nutrand tabs 22 the base jaw 6 have on their bottom, which has the associated side groove 20 limited, one passport area each 28 , which correspond to the wedge angle α of the V-rib 16-1 (and or 16-2 ) V-wedge-shaped are arranged obliquely to each other.

The Nutrand tabs 26 the top jaw 12 have on theirs the associated page groove 24 bounding bottom each a mating surface 30 , which with the same wedge angle as the keyway 18 V-wedge-shaped are arranged to each other. The wedge angle α is for the base jaw 6 and for the top jaw 12 the same size and in the 3 and 4 shown. Because the mating surfaces 28 and 30 V-wedge-shaped to each other, they limit the Zusammenstecktiefe the two jaws 6 and 12 ,

The wedge angle α is chosen so large that no or only a small wedge-clamping effect can occur, so that the top jaw 12 and the base jaw 6 easily assembled and easily separated from each other again. The wedge angle α is for this reason at least 85 ° or more, preferably 90 ° or more than 90 °, but not more than 140 °.

The summit 32 the wedge angle α preferably points in the same radial direction as the clamping surface 14 the top jaw 12 , Thereby who the overlapping mating surfaces 28 the base jaw 6 and 30 the top jaw 12 by the clamping forces of the power chuck when clamping a tool or workpiece between the clamping surfaces 14 of several top jaws 12 not pushed away from each other, but pushed against each other. This creates no play between the base jaws 6 and the topping jaws 12 , By avoiding play between base jaws and top jaws tools and workpieces between the clamping surfaces 14 be positioned very accurately and without play.

The two mating surfaces 28 of the basic body 6 are in 3 With 28-1 and with 28-2 designated. The two mating surfaces 30 the top jaw 12 are in 4 With 30-1 and 30-2 designated.

According to the preferred embodiment of the invention shown in the drawings, each base jaw has 6 two identical but radially oppositely facing away from each other, plug connector parts each in the form of two laterally undercut V-ribs 16-1 and 16-2 (or laterally undercut keyways when the associated top jaw 12 has a V-rib instead of a keyway). According to the preferred embodiment, the V-ribs 16-1 and 16-2 formed with radially opposite to each other arranged wedge angle α and α2, preferably on a double wedge headboard 16 , The headboard 16 has a radially inwardly facing end with the described, wedge-shaped side grooves 20 , what a 3 With 20-1 and 20-2 are designated, and with the limiting Nutrandvorsprüngen 22 , what a 3 With 22-1 and 22-2 are designated. Radially opposite thereto are also wedge-shaped side grooves 20 and they outwardly bound Nutrandvorsprünge 22 educated. In 3 are the side grooves 20 With 20-3 and 20-4 and the groove edge projections 22 With 22-3 and 22-4 designated. The wedge angle of the two V-ribs 16-1 and 16-2 can be different sizes, but is preferably the same size, but each directed radially opposite. The wedge angle of the radially outwardly pointing V-rib 16-2 is in 3 denoted by α2. His angle top is with 32-2 designated.

This makes it possible to use the top jaws 12 according to the drawings radially from the inside out with the base jaws 6 to connect for the external clamping of tools or workpieces, or the top jaws 12 to turn 180 ° and then from outside to inside on the base jaws 6 for the internal clamping of workpieces or tools. In the latter case, the Nutrandvorsprünge grab 26 the top jaw 12 under the groove edge projections 22-3 and 22-4 in the side grooves 20-3 respectively. 20-4 the base jaw 6 ,

In 4 are the two wedge-shaped Nutrandvorsprünge arranged 26 With 26-1 and 26-2 designated. The wedge-shaped side grooves arranged 24 are in 4 With 24-1 and 24-2 designated.

The width of the V-ribs 16-1 and 16-2 and the width of the keyway 18 may theoretically extend in any direction, but extends according to the preferred embodiment in a plane which is perpendicular to the theoretical central longitudinal axis 8th extends. The base jaw 6 has, preferably on the front end side of the V-ribbed head portion 16 , an end-face positioning surface 40 , which are in one to the longitudinal axis 8th radial plane extends.

The top jaw 12 has a frontal positioning surface 42 , which are in one to the longitudinal axis 8th radial plane extends and preferably a continuation of the groove base 43 the keyway 18 is.

This allows the top jaws 12 and the base jaws 6 in the longitudinal direction of the longitudinal axis 8th be moved towards each other until the positioning surfaces 40 the base jaws 6 on the positioning surfaces 42 the top baking 12 rest while the V-rib 16-1 (or 16-2 ) and the keyway 18 are in a radially separated position. Thereafter, by radial adjustment of the base jaw 6 the V-rib 16-1 (or 16-2 ) with the keyway 18 the top baking 12 are radially brought into engagement, wherein the end-side positioning surfaces 40 the base jaws 6 on the frontal positioning surfaces 42 the top baking 12 can slide. For the radial movement of the base jaws 6 serves in the chuck body 4 Typically available base jaw movement device 9 , which because of the reputation of such movement devices 9 not shown in detail.

According to the preferred embodiment of the invention, the mating surfaces 28 the V-ribs 16-1 and 16-2 to the groove bottom of the side grooves 28 arranged obliquely sloping and also arranged obliquely sloping obliquely to a radial transverse plane of the longitudinal axis. The mating surfaces 30 the top baking 12 are parallel to the groove bottom of the side grooves 24 towards and thus also obliquely to a radial transverse plane of the longitudinal axis 8th arranged sloping sloping. This will be when mating the base jaws 6 with the top jaws 12 the mating surfaces 28 the base jaws 6 on the mating surfaces 30 the top baking 12 pushed and thereby the frontal positioning surfaces 42 the top baking 12 against the frontal positioning surfaces 40 the base jaws 6 curious; excited.

According to another embodiment of the Invention, the mating surfaces through the groove base of the side grooves 20 and 24 be formed.

According to a preferred embodiment of the invention, at least one of the two jaws has a base jaw 6 or top jaw 12 , Preferably according to the drawings, the base jaw 6 , a locking bolt 48 which is in a guide hole 50 parallel to the longitudinal axis 8th slidably disposed and of a compression spring 52 is partially pushed out of the guide bore out into a locking position, which in 2 is shown. The movement distance of the locking bolt 48 is through a locking pin 54 limited. The guide hole 50 is preferably in the frontal positioning 40 the base jaw 6 educated. As a result, the locking bolt protrudes 48 only in the locking position from this positioning 40 out.

Preferably, a key or a manually operated by a key actuator cylinder 56 provided, with which the locking bolt 48 against the pressure of the compression spring 52 from the locking position into an unlocking position in the guide bore 50 manually moved back. The key or actuating bolt 56 is in a keyhole 57 the base jaw 6 guided and has an eccentric to the key axis 58 arranged bolts 60 which is in a hole 62 of the locking bolt 48 can be used. Further, in the same embodiment according to the drawings, or in another embodiment without manual operation possibility, there is the possibility of the locking bolt 48 by a jaw changing device against the pressure of the compression spring 52 to operate automatically.

The locking bolt 48 can in its locking position in a locking hole 64 the top jaw 12 extend and thereby the top jaw 12 with the base jaw 6 lock what's in 5 is shown. In the locking position of the locking bolt 48 although radial forces between the two jaws 6 and 12 absorb, but are not moved back by such radial forces in the unlocked position. The locking hole 64 is in the frontal positioning surface 42 the top jaw 12 educated. The locking hole 64 preferably extends through the entire top jaw 12 through, so that from the other cheek side ago a positioning bolt 78 can be plugged into it.

According to a further embodiment of the invention, the base jaw 6 with one or preferably two spring-loaded inhibiting elements 70 provided, which by spring force of a spring element, not shown, from the positioning 40 stick out and in opposite recesses 72 the top jaw 12 engage when the base jaw 6 and the top jaw 12 their mated position of 5 and 6 to reach. This prevents the inhibiting elements 70 unintentional slipping of the top jaw 12 from the base jaw 6 when the locking bolt 48 for example, from the key 56 is held in the unlocked position.

The wells 72 are preferably in the positioning 42 the top jaw 12 , This positioning surface 42 pushes the inhibitors 70 against the spring force so far back that the positioning surface 42 the top jaw 12 on the positioning surface 40 the base jaw 6 can rest when the two jaws 6 and 12 in the longitudinal direction of the longitudinal axis 8th be brought together while they are radially offset so far that the locking bolt 48 offset to the locking hole 64 is positioned. This situation shows 7 , In this radially offset position urges the positioning 42 the top jaw 12 the inhibiting elements 70 and also the locking bolt 48 against their spring forces in the base jaw 12 back.

If then the base jaw 6 is moved radially to the top jaw 12 to be plugged together radially, the inhibitors snap 70 in the recesses 72 one and the locking bolt 48 snaps into the locking hole 64 one when the two cheeks 6 and 12 are completely plugged together.

If after that the locking bolt 48 can be moved back into its unlocked position, then the base jaw 6 by, not shown, adjustment of the power chuck relative to the top jaw 12 be moved back radially, with the Hemmstifte 70 from the wells 72 be pushed out.

The inhibitors 70 are preferably pins or balls, which from the one end of a sleeve 74 protrude, in which there is a spring element. Such spring loaded locking elements 70 . 74 are known.

The invention enables a manual and an automatic change of a single or several or all top jaws 12 simultaneously.

A suitable preferred jaw changing device for this purpose 75 has a top jaw changing body, preferably a top jaw change plate 76 on. On the removable plate 76 are one of the number of base jaws 6 of the chuck 2 corresponding number and accordingly distributed positioning bolts 78 arranged, which protrude from a plate side in the direction of the power chuck axis parallel and on each of which a top jaw 12 with its locking hole 64 is pluggable. Depending on the shape of the top jaw 12 If necessary, a spacer sleeve 80 on the positioning bolt 78 be plugged.

If no change of top jaws 12 takes place, is the removable disk 76 in one of the power chuck 2 so far away base position that the power chuck 2 can pick up a workpiece or a tool and then a work operation can be performed with this workpiece or tool.

For attaching, changing and removing top jaws 12 on or from the base jaws 6 becomes the removable disk 76 , preferably by a feed movement.

transverse to the longitudinal axis 8th , brought from the base position or from a charging station in an axial distance position. In the axial distance position, the positioning pins are aligned 78 with the base jaws 6 in a defined manner and the axial distance is so great that the base jaws 6 are radially movable without touching the top plate located on the removable plates and without the base jaws 6 located top jaws 12 the positioning bolts 78 touch. The defined manner of axial alignment is such that thereafter the base jaws 6 by axial movement of the power chuck 2 (or the top jaws 12 by axial movement of the removable plate 76 ) are movable from the axial distance position into an axially moving contact position. In the contact position are the top jaws 12 with its frontal positioning surface 42 each on the opposite positioning 40 the base jaws 6 on, and the wedge-shaped connector part 18 the top baking 12 lies the wedge-shaped connector parts 16-1 (or 16-2 ) of the base jaws 6 radially opposite so that they by a radial movement of the base jaws 6 (or topping baking 12 ) are radially plugged together and again auseinandersteckbar.

According to one embodiment of the invention is a transport device 81 provided, z. B. a conveyor belt, which under the vertical longitudinal axis 8th arranged power chuck 2 is arranged to supply these tools or workpieces. These are from the power chuck 2 taken and after performing a machining operation back to the transport device 81 placed. This same transport device 81 can also for the supply of top jaws 12 be used to or from the axial distance position. Here, the removable disk 76 at a loading station on the transport device 81 placed and at an unloading station again from the transport device 81 be taken. In this case, forms the transport device 81 also a part of the jaw changing device 75 for automatically attaching, removing or replacing the top jaws 12 on or from the base jaws 6 ,

According to other embodiments of the invention, the jaw changing device 75 be realized by another construction, for. B. by a robot for positioning the top jaw change plate 76 or for positioning the top jaws 12 without removable plate.

The following is the function of power chuck 2 and the jaw changing device 75 existing machine described.

In 5 are the base jaws 6 (only one shown) on the top jaws 12 (only one shown) attached. This is the connector position. An empty removable disk 76 got into a power chuck 2 placed axially opposite distance position and positioned in the direction of rotation such that in each case a positioning pin 78 a locking hole 64 the relevant top jaw 12 axially opposite with distance.

At the in 6 shown situation was the power chuck 2 lowered so far that the positioning bolt 78 into the locking hole 64 the top jaw 12 immersed and from it the locking bolt 48 has displaced. By lowering the power chuck 2 it has reached the said axial contact position.

Now the base jaw can 6 by means of the chuck body 4 commonly included base jaw movement device 9 relative to that of the removable disk 76 held topping jaw 12 be moved so far radially outward that the radial connector between the keyway 18 and the V-rib 16-1 is disengaged.

This radial disengaged position is in 7 shown and is in the axial contact position. In this radial movement are the inhibiting elements 70 from the wells 72 pushed out and they slide, as well as the locking bolt 48 , on the frontal positioning surface 42 the top jaw 12 , This disengaged position when separating the base jaws 6 from the top jaws 12 corresponds to a plug-in readiness position when the base jaws 6 at the top jaws 12 be infected.

After the two cheeks 6 and 12 radially out of engagement with each other, they can also be separated axially from each other Starting up the power chuck 2 , 8th shows the axially apart driven base jaw 6 and topping jaw 12 in said axial distance position.

The removable plate 76 can now from the in 8th shown axial distance position in one of the power chuck 2 further axially and / or further radially removed base position or loading position can be brought. There the top jaws can 12 be exchanged for others. In the base position, the loading position and preferably in the axial distance position of 8th there is the possibility of the top jaws 12 or other top jaws on the removable plate 76 180 ° around the central axis 79 the positioning bolt 78 turn so that its keyway 18 no longer pointing radially outward, but radially inward. After that, the top jaw 12 in this rotated by 180 ° position on the radially outer V-rib 16-2 be plugged. In this case, the clamping surfaces show 14 radially outwardly for receiving a radially outwardly exciting tool or workpiece.

For attaching the top jaws 12 at the base jaws 6 the procedure described above should be carried out in reverse order: the removable plate 6 with the top jaws 12 will be in the position of 8th brought. Then the power chuck 2 corresponding 7 on the top jaws 12 lowered. Thereafter, the base jaws 6 through the base jaw movement device 9 of the power chuck 2 moved radially and thereby accordingly 6 with the top jaws 12 assembled radially, then the power chuck 2 corresponding 5 again from the removable disk 76 lifted off together with the on the base jaws 6 attached top jaws 12 ,

The removable plate 76 can lateral guide surfaces 82 for the direction of rotation positioning of the top jaws 12 on the positioning bolt 78 exhibit.

9 shows a plan view of the removable disk 76 and their positioning bolts 78 , The latter are on a circle 84 which is for the positioning of the jaws 6 and 12 is suitable for the external clamping of workpieces and tools according to the representations of 2 to 8th , Due to the limited radial adjustability of the base jaws 6 It may be necessary to use the top jaws 12 each time on a different circle, z. B. a relative to a circle 84 larger and thus outer circle 86 to position when the top jaws 12 rotated by 180 ° on the radially outwardly pointing V-ribs 16-2 (please refer 3 ). In this case, the removable disk 76 additionally with one of the number of base jaws 6 corresponding number of positioning bolts 78-2 on this other, z. B. outer circle 86 be provided.

10 shows the power chuck 2 with a key 90 for manually moving the locking bolt 48 against the force of its compression spring 52 from the locking position to the unlocked position.

Of the Wedge angle α and α2 is between 85 ° and 140 °, preferably between 88 ° and 100 °, still more preferably between 89 ° and 91 °, and is on most preferred 90 °.

The angular center line of the wedge angle is in each case along the rectilinear movement path 10 the base jaws 6 ,

Claims (13)

Machine comprising at least one tensioning device ( 2 ), which at least one base jaw ( 6 ), which of a base jaw movement device ( 9 ) of the tensioning device ( 2 ) along a rectilinear path of movement ( 10 ) is movable for clamping a tool or a workpiece between clamping surfaces ( 14 ), of which at least one clamping surface ( 14 ) on a top jaw ( 12 ) is provided, which at the base jaw ( 6 ) releasably attachable, wherein the base jaw ( 6 ) and the top jaw ( 12 ) matching connector parts ( 16-1 . 16-2 . 18 ), on which the base jaw ( 6 ) with the top jaw ( 12 ) along a straight path of movement ( 10 ) is plugged together and again auseinandersteckbar, characterized in that a jaw changing device ( 75 ) for automatically changing the top jaws ( 12 ) is provided. Machine according to claim 1, characterized in that the jaw changing device ( 75 ) a top jaw change body ( 76 ) for holding the at least one top jaw ( 12 ) in such a position that the base jaw ( 6 ) at its connector part ( 16-1 . 16-2 ) with the connector part ( 18 ) the top jaw ( 12 ) is pluggable and auseinandersteckbar, and that the top jaw change body ( 76 ) to the tensioning device ( 2 ) is adapted, that the mating and unfolding each by a movement of the base jaw ( 6 ) relative to the top jaw ( 12 ) by means of the base jaw movement device ( 9 ) is executable. Machine according to claim 1 or 2, characterized in that at least one of the two parts clamping device ( 2 ) and / or top jaw change body ( 76 ) relative to the concerning other part transverse to the rectilinear path of movement ( 10 ) between a moving contact position, in which the at least one base jaw ( 6 ) at its connector part ( 16-1 . 16-2 ) with the connector part ( 18 ) of the associated top jaws ( 12 ) is plugged together and again apart, and one from each other across the linear movement path ( 10 ) distanced distance position is movable, wherein in the distance position, the distance of the two parts from each other is so large that the at least one base jaw ( 6 ) with the attached top jaw ( 12 ) relative to the top jaw change body ( 76 ) is movable transversely to the distance direction without collision with the top jaw changing body ( 76 ), and also so big that the base jaw ( 6 ) without top jaw ( 12 ) relative to the top jaw change body ( 76 ) and optionally relative to top jaws ( 12 ) is movable transversely to the distance direction without collision with the top jaw changing body ( 76 ) or with the optionally arranged thereon at least one top jaw ( 12 ). Machine according to claim 3, characterized in that the tensioning device is a part which can be moved in the distance direction is. Machine according to at least one of the preceding claims 2 to 4, characterized in that the direction of the mating movement of the base jaws ( 6 ) in the same direction as the one on the top jaws ( 12 ) provided clamping surface ( 14 ), and that the direction of the unfolding movement of the base jaws ( 6 ) is opposite to the direction in which the clamping surface ( 14 ) shows. Machine according to at least one of the preceding claims 3 to 5, characterized in that a transfer device ( 81 ) for the transfer of the top jaw exchange body ( 76 ) is provided from a starting position to the distance position, wherein the starting position of the tensioning device ( 2 ) is farther away than the distance position. Machine according to claim 6, characterized in that the transfer device ( 81 ) has a transport device for the transport of workpieces in the distance position, so that the clamping device ( 2 ) can receive the workpieces in the distance position of the transport device for a machining operation and subsequently return the workpiece to the transport device for transporting away from the distance position and the clamping device. Machine according to at least one of the preceding claims, characterized in that the plug connection parts are wedge-shaped and mating surfaces ( 28 . 30 ) which are arranged at a defined wedge angle relative to each other; with the top jaw ( 12 ) at least one clamping surface ( 14 ), which points in a clamping direction for clamping a workpiece or a tool between this clamping surface ( 14 ) and at least one further clamping surface ( 14 ); wherein the connector part of a jaw a V-rib ( 16-1 . 16-2 ) with an undercut on both wedge sides, and wherein the plug connection part of the other jaw a keyway ( 18 ) with an undercut on both wedge sides and is open at its wider groove end for insertion of the V-rib ( 16-1 . 16-2 ); whereby due to the undercuts, each jaw ( 6 . 12 ) on each wedge side a side groove ( 20 . 24 ) and a Nutrand projection ( 22 . 26 ) and in each side groove at least one of the mating surfaces ( 28 . 30 ) is formed; wherein the Nutrandvorsprünge ( 22 . 26 ) of the two jaws ( 6 . 12 ) into the side grooves ( 20 . 24 ) of the other cheek ( 12 . 6 ) are suitably formed and their according to the wedge angle obliquely arranged mating surfaces ( 28 . 30 ) the depth of insertion of the two jaws ( 6 . 12 ) limit their mating; and wherein the wedge angle is at least 85 ° or greater but not more than 140 °. Machine according to claim 8, characterized in that that the wedge angle between 88 ° and 100 °, preferably between 89 ° and 91 °. Machine according to claim 8 or 9, characterized in that the tip ( 32 . 32-2 ) of the wedge angle in the same direction as the clamping surface ( 14 ). Machine according to at least one of claims 8 to 10, characterized in that the base jaw ( 6 ) the at least one V-rib ( 16-1 . 16-2 ), and that the top jaw ( 12 ) the matching at least one keyway ( 18 ) having. Machine according to at least one of claims 8 to 11, characterized in that the base jaw ( 6 ) two of the claimed wedge-shaped connector parts ( 16-1 . 16-2 ), wherein both plug connection parts have the claimed features, but along the rectilinear movement path ( 10 ) at opposite end portions of the base jaw ( 6 ) and with the angle tip ( 32 . 32-2 ) are arranged radially pointing away from each other. Machine according to at least one of the preceding claims 8 to 12, characterized in that the at least one base jaw ( 6 ) and the at least one top jaw ( 12 ) in each case at least one end-side positioning surface ( 40 . 42 ), wherein the frontal positioning surface of a jaw of the frontal positioning of the other jaw transverse to the clamping direction ( 10 ) and they abut each other when the connector parts ( 16-1 . 16-2 . 18 ) are in a position in which they are pluggable.