EP1787756A2 - Clamping device - Google Patents

Abstract

Clamping device (1) has two fixed clamping blocks (2,3) and a spindle for adjustment of a clamping block. The introduction of clamping force takes place through spindle in upper range of the clamping blocks which is independent of an overall height of the clamping blocks.

Description

The present invention relates to a clamping device, in particular for use in 5-axis milling machines, with at least two clamping blocks and a spindle for adjusting at least one clamping block.

In the course of the ever more demanding processing steps of a workpiece and the ever higher demands on the compliance with very low error tolerances, 5-axis milling machines are becoming increasingly popular even in smaller companies, since they enable the continuous machining of a workpiece without time-consuming and error-prone re-clamping of the workpiece. Thus, the tool can reach the workpiece spatially unhindered, this must be clamped as high as possible and the clamping device itself should be designed as compact as possible. In known clamping devices, the movable clamping block driving spindle is located in the foot area in the housing of the clamping device in the vicinity of a machine table of the 5-axis milling machine. The clamping force applied by the spindle is transmitted to the workpiece via a carriage and the clamping jaw attached thereto. Due to this structure, long lever arms are created between the force application point of the spindle and the clamping object. These long lever arms generate larger torques in the known tensioning devices, so that the height of known clamping devices is limited. It comes to spatial disabilities of the tool access to the workpiece, especially small workpieces on 5-axis milling machines, and difficulties in the required strictly parallel closure of the clamping jaws. It is also known to arrange clamping devices according to the prior art on machine table spacer blocks in order to achieve the highest possible clamping over the machine table. However, this solution is associated with additional length errors with respect to the clamping height and additionally required connecting means.

It is therefore an object of the invention to provide a clamping device, which simultaneously allows a high and rigid clamping of the workpiece with optimum accessibility by the tool.

This object is achieved in that an introduction of a clamping force, preferably by the spindle, takes place in an upper region of the clamping blocks, preferably independent of a height of the clamping blocks. With this extremely advantageous arrangement of the spindle, the occurring lever arms and thus the torque acting on the movable clamping block are significantly reduced. This leads to a high and stiff clamping of the workpiece at a freest possible access of the tools to the workpiece. Due to this advantageous embodiment, the introduction of the clamping force is always in a small distance to the top End face of the clamping blocks, regardless of their height above the machine table. It is thus advantageously possible to increase the height of the clamping blocks of a clamping device according to the invention, without increasing the torque-generating distance from the force application point to the workpiece. The force acting on the movable clamping block tensile force of the spindle and the force exerted by a clamped workpiece on the movable clamping block pressure force can be considered in a first approximation as a pair of forces with parallel, opposite lines of action with a certain distance a. Since, due to the spindle arrangement according to the invention, a much smaller distance a is provided in comparison to the clamping devices of the prior art, the resulting torque is also substantially smaller. This prevents buckling of the tensioning device under load. Particularly advantageous is even provided by the device according to the invention a Niederzugelement for the workpiece, so that the movable clamping block moves due to its fixation on a machine table with its end facing the workpiece in the same direction and thus pulls down the workpiece. At the same time, an additional connection between the clamping device and spacer block as well as this itself can advantageously be dispensed with. This reduces the cost of the device.

In an embodiment of the invention it is provided that at least one support plate for spacing a workpiece is provided by a machine table, wherein preferably each clamping block is associated with a support plate, which is preferably an independent of a clamping block integral component. This inventive separation of the clamping function of the positioning function of the workpiece allows with great advantage the maintenance of the required error tolerances with respect to the distance from the workpiece to the machine table, accurate positioning is possible. In particular, when the platen is made in one piece, cumulative errors in positioning are advantageously avoided, which would otherwise result from the sum of the errors in the manufacturing tolerances of the clamping jaw, clamping block and socket. From this separation also results in a cost savings, since the clamping block can be worked for a longer period. The fact that each clamping block is assigned its own support plate, the positioning of the workpiece is particularly accurate. By the measure that the support plate is independent of the respective clamping block component, advantageously, the manufacture and construction of the device can be simplified and yet its effect can be improved. The support plate can be easily fixed on a machine table and fixed to the respective clamping block, so that no unwanted changes in position are possible.

According to the invention it is further provided that spindle nuts of different lengths are connected to each other connectable, preferably against rotation and / or the spindle nuts have a marking as a positioning aid. The first measure advantageously opens up a simple possibility of achieving even larger grips by combinations of several spindle nuts. For any desired clamping width, the appropriate spindle nut or the matching spindle nut combination can be selected without a variety of different spindle nuts would have to be kept with a fixed clamping width. The rotation can be done in any known to the expert way, preferably at least by means of a tongue and groove connection. The connection is preferably made such that a spindle nut portion is connected to a coupling piece, in which engages the spindle screw or another spindle nut. In this way, can advantageously reduce the cost of spindle nuts, since the coupling function is carried out by identical, separate coupling pieces. The second measure advantageously facilitates the quick and secure positioning of the spindle nut in the movable clamping block for its fixation and support by spindle bolts.

If, as provided according to the invention, a spindle screw is formed engaging only in a spindle nut and / or has a Mindesteindrehanzeige, preferably by means of a circumferential groove, is advantageously ensured that there is no unwanted overdetermination in the total spindle, as in the intervention the spindle screw in several interconnected spindle nuts. Just as too much screwing the spindle screw must be prevented, too low screwing into the spindle nut must be avoided so that not the entire clamping force is applied over one or two pitches of the spindle nut thread. This is done by means of a Mindesteindrehanzeige on the spindle nut, which preferably consists of a circular and visually or haptic well perceptible groove.

If the fixed clamping block has a spindle screw receptacle with a support bearing on which the spindle screw, preferably supported by disk springs, is supported, a stable mounting and permanent functionality of the spindle is advantageously achieved. The spindle screw holder is mounted as a separate fitting by means of bolts in the fixed clamping block and therefore easily replaceable, for example, if the conical support surface should be worn. However, such wear is advantageously prevented by the use of a plate spring between the support surface of the spindle screw receptacle and a conical bearing surface of the spindle screw. In this way, the forces can be handled safely.

The fact that the spindle screw receptacle is fastened by means of bolts to the fixed clamping block and / or the bolts are designed as coupled bolts is advantageous achieved a simple interchangeability at the same time secure mounting of the spindle screw receptacle. If the bolts are coupled, they need not be individually attached and tightened by hand, but can be tightened coupled simultaneously. The coupling can be realized in any way known in the art, for example, by a gear / shaft / gear connection between the two bolts.

If the movable clamping block has a region of reduced material thickness, preferably in the region near the base, its elasticity is used in a simple manner for movement onto the workpiece. The part above the area of reduced material thickness does not force down on a circular path in the direction of the machine table and thus acts as Niederzugelement. It is further provided that the movable clamping block has a display of elasticity and / or the fixed clamping block has a spindle screw cleaning device, preferably a force-loaded Spanabstreifdorn or a Spanabstreiffläche. By the elasticity indicator, a user is easily made aware of the elasticity range of the movable clamping block, so that a leading to damage the device operating error is avoided. By a spindle screw cleaning device is advantageously prevented that fine chips can penetrate into the sensitive thread. This is preferably achieved by means of a spring-loaded mandrel.

In an embodiment of the invention, it is provided that a plate holder, preferably a sucking plate holder, is arranged between the clamping blocks. With great advantage so longer workpieces can be fixed centrally in the desired positioning, so that no, the exact processing impairing, bulges of the workpiece occurs. The not supported by the clamping blocks area is sucked by vacuum on the suction plate and is fixed to.

According to the invention it is provided that the clamping device has a clamping system with Wechselzuganker. According to the invention it is further provided that the tie rod is designed as a chain or rope. This design provides a simple and inexpensive tie rod, which is supported on the movable clamping block and clamped to the fixed clamping block and can be changed as needed. An elaborate spindle can thus be avoided.

According to the invention, it is further provided that the clamping jaws are designed for clamping round workpieces. This can be done in any way known to those skilled in the art and advantageously increases the workpiece types that can be machined on a clamping device according to the invention. If a stop surface is provided, preferably with retaining thorns penetrating into the workpiece, the workpiece is clamped immovably.

In an embodiment of the invention, it is provided that the fixed clamping block is designed as a pull-down system. In this case, in addition to the movable clamping block, another pull-down system is available, so that the workpiece is clamped precisely.

Particularly advantageous is the arrangement of the device according to the invention on a separate base plate, which in turn is mounted on a machine table. This independent of a machine table arrangement allows the device of the clamping device outside the spatially restrictive milling machine and the formation of the device as Zentrierspannvorrichtung. The finished fixture is then mounted on the machine table. In this case, the base plate may according to the invention have a vernier scale in order to allow a zero point voltage.

According to a further embodiment it is provided that a clamping spindle is provided which introduces a clamping force in an upper region of the clamping blocks, and an adjusting spindle for adjusting the clamping blocks is provided.

The thus configured device therefore has two spindles, a spindle for introducing force into an upper region of the device, and an adjusting spindle for adjusting the movable clamping blocks. The separation of adjustment and clamping function according to the invention allows with great advantage an easy to adjust and thus suitable for the aforementioned automated machining, and specify torques on their base frame avoiding jig. This combines the advantages of easy adjustability with those of torque-free force transmission. An adapter plate for a device according to the invention need not have any additional mass as a countermeasure for the deflection of the tensioning device which no longer occurs with great advantage, and may therefore be correspondingly thin. The same applies to the main body, which is inventively also formed with relatively low mass and which allows a great advantage easy adjustment of the clamping blocks.

In an embodiment of the invention, it is provided that the adjusting spindle is arranged in the base body, preferably guided on three sides, that it preferably has two sections with opposing threads and their ends as a drive adapter, in particular hexagonal sections, are formed and preferably consists of hardened material. The adjusting spindle according to the invention serves only for adjusting the movable clamping blocks and does not have to transmit any clamping forces. It is therefore simply inserted into the body. Their ends, designed as drive adapters, in particular hexagonal sections, preferably have a substantially smaller diameter than the threaded section itself in order not to mislead a user of the clamping force Apply over this adjusting spindle. The fact that it is only guided on three sides in the body, it can be easily taken up out of this and extremely easy to clean. If the adjusting spindle is made of hardened material, it has a particularly high durability and resistance to chips and process fluid.

In an embodiment of the invention, it is provided that the base body is integrally formed and has a Verstellspindelaufnahme, clamping block guide rails and preferably bores for connection to other clamping devices and / or a Spannblockarretiereinrichtung. A one-piece body is simple and inexpensive to manufacture and stable. The ability to be connected by means of holes with other fixtures, can be easily multiply the maximum span of the device. The adjusting spindle mount consists of a milling in the base body into which the adjusting spindle is inserted from above. Since the adjusting spindle does not have to transmit any clamping forces, it can be dimensioned relatively small.

According to the invention it is provided that a clamping block is integrally formed in one piece or two parts or two parts articulated and that a clamping device may have these clamping blocks in any combination. One-piece clamping blocks are stable, two-part clamping blocks are next variable and articulated, Two-part clamping blocks are a drawback element with great advantage. If a clamping device contains these clamping blocks in any combination, it can be adapted with great advantage to the respective clamping situation.

According to the invention, it is provided that the two-part clamping blocks consist of a base plate and an attachment, which are preferably connected to one another in an articulated manner. By articulated connection of an essay with a base plate a Niederzugelement is provided with great advantage, which prevents bulging of a tensioned workpiece, the bipartite allows the replacement of various essays while maintaining a base plate. Advantageously, so essays that can span, for example, round workpieces can be easily exchanged for others without a second base plate would be required.

If the articulated connection has a multi-linearly mounted propeller shaft, the play of the propeller shaft is advantageously minimized. The linear bearing is realized by a hinge shaft receptacle, which is equipped as a through hole through the base plate not with exactly circular cross-section but rather with a diameter-expanded area. The two line-shaped edges in the transition region of through-hole and diameter-expanded area act as a V-shaped bearing. It is also according to the invention provided to provide two opposing V-shaped bearings, so that an inventive articulated clamping block can be used rotated by 180 °. The adjusting spindle finds its counterpart in the threaded sleeve, which is incorporated in the bottom of the base plate / the one-piece clamping block. This threaded sleeve is designed so that the adjusting spindle is not completely enclosed. By setting the clamping blocks by means of the clamping block locking device, in particular designed as clamping claws, on one of the clamping block guide rails of the base body, it is achieved that the adjusting spindle experiences no supporting forces.

According to the invention it is provided that the clamping blocks are designed to be removable from the base body upwards. In this way, they can easily be exchanged for differently designed clamping blocks and do not have to be led out of the main body in a cumbersome manner in the longitudinal direction. This embodiment is also made possible in that the adjusting spindle is not encompassed by the threaded sleeve but is only surrounded. The removal is made possible in that the clamping block guide rails do not overlap the corresponding guide sections of the clamping body.

According to the invention, it is provided that the attachments have a clamping spindle receptacle, wherein the clamping spindle receptacle is fastened by means of bolts to the attachments. This type of attachment is simple, stable and durable. The clamping spindle according to the invention and its attachment corresponds to that of the utility model DE 20 2005 018 193 , whose disclosure content is explicitly included in this disclosure in terms of the design of the clamping spindle, the clamping spindle receptacle and their attachment.

Furthermore, the invention provides that at least one support plate is provided for spacing a workpiece from the base body, wherein preferably each clamping block is associated with a support plate which is independent of a clamping block integral component. This inventive separation of clamping and positioning function in the clamping blocks allowed with great advantage compliance with the required error tolerances with respect to the length of distance from workpiece to machine table, so that a highly accurate positioning is possible. In particular, when the platen is made in one piece, cumulative errors in positioning are advantageously avoided, which would otherwise result from the sum of the errors in the manufacturing tolerances of the clamping jaw, attachment and base plate. From this separation also results in a cost savings, since the clamping block can be worked for a longer period. The fact that each clamping block is assigned its own support plate, the positioning of the workpiece is particularly accurate. By the measure that the support plate is independent of the respective clamping block component, advantageously, the manufacture and construction of the device simplified and yet its effect can be improved. The support plate is fastened in a simple manner to the base plate of the clamping block by means of screws, wherein this attachment can be made on both sides of a clamping block.

The invention will be described by way of example in a preferred embodiment with reference to a drawing, wherein further advantageous details are shown in the figures of the drawing. Functionally identical parts are provided with the same reference numerals.

Fig. 1:

eine perspektivische Ansicht einer erfindungsgemäßen Spannvorrichtung in Explosionsdarstellung,

Fig. 2:

eine perspektivische Ansicht einer erfindungsgemäßen Spannvorrichtung mit langer Einspannung,

Fig. 3:

einen Schnitt durch eine Spindelhülse,

Fig. 4:

eine geschnittene Aufsicht auf die erfindungsgemäße Spindel in Höhe der Befestigung im festen Spannblock,

Fig. 5:

eine perspektivische Darstellung einer weiteren erfindungsgemäßen Spannvorrichtung,

Fig. 6:

eine Aufsicht auf die verstellspindel,

Fig. 7:

eine perspektivische Ansicht einer Grundplatte,

Fig. 8:

eine perspektivische Ansicht eines Spannbackens und

Fig. 9:

eine Frontansicht eines gelenkig gelagerten Spannblocks.

The figures of the drawing show in detail:

Fig. 1:

a perspective view of an inventive clamping device in exploded view,

Fig. 2:

a perspective view of a clamping device according to the invention with a long clamping,

3:

a section through a spindle sleeve,

4:

a sectional plan view of the spindle according to the invention in the amount of attachment in the fixed clamping block,

Fig. 5:

a perspective view of another clamping device according to the invention,

Fig. 6:

a view of the adjusting spindle,

Fig. 7:

a perspective view of a base plate,

Fig. 8:

a perspective view of a jaw and

Fig. 9:

a front view of a hinged clamping block.

In Fig. 1 shows a clamping device 1 according to the invention consisting of a fixed clamping block 2, arranged on a base 15 which has grooves on its side facing a machine table 8, not shown, and holes 16 through which the base 15 with the machine table 8 by means of fastening means is connectable. Here, two groups of holes 16 are provided, an outer and an inner group, so that the Sokkel 15 can be locked on different grooves of a machine table 8. The clamping block 2 and the base 15 may consist of one piece, for example of higher alloy steel, stainless steel such as 16MnCr5. The base 15 has on its side facing the movable Spannbakken 3 at least one blind hole with thread on which the clamping block associated with this support plate 6 can be fastened. The fixed clamping block 2 is Chamfered in the spindle drive, preferably at an angle of 45 °. This facilitates tool access from this page. The spindle drive in this embodiment consists of a ring or open-end wrench, not shown, which is plugged onto the screw head of the spindle screw 10.

Fig. 1 also shows the jaw 21, which comes into contact with a workpiece, not shown. The clamping jaw 21 is screwed or stuck on top of the clamping block 2, and 3 respectively. It has on its side facing a workpiece on small retaining pins. As seen in the direction of the movable clamping block 3 in front of the fixed clamping block 2 is the support plate 6 associated therewith. The support plate 6 is manufactured in one piece and is fastened directly on the machine table 8. It defines the distance from the workpiece to the machine table 8 and thus defines the zero point of the workpiece. The platen 6 minimizes with great advantage the length error of the device, by avoiding a sum error. Such would arise if the position of the workpiece over the machine table 8 by base 15, clamping block 2, 3 and jaw 21 would be defined, each component contributes a few hundredths of a millimeter to a sum error that is not tolerable at today's required machining accuracy. The support plate 6 has a passage 22 for the spindle screw 10 and the spindle nut 9, 9a and a support web 23. This only shows about one third of the material thickness the support plate 6 on. In cooperation with the clamping block 2, this results in a groove that allows undisturbed support of the workpiece despite spatial proximity to Spannbakken 21. The support plate 6 rests against the fixed clamping block 2. Between fixed and movable clamping block is the spindle 4, which as shown in Fig. 1 can be composed of one or more spindle nuts 9, 9a different or equal length. In this way, clamping distances of up to 740 mm can be achieved. The spindle nuts 9, 9a have on their the movable clamping block 3 side facing an eye 25, to which a hole in the movable clamping block 3 corresponds. At least one spindle bolt 26 penetrates through both openings, so that the spindle nuts 9, 9a are secured against rotation in the movable clamping block 3 in this way. The spindle nuts 9, 9a in turn penetrates a passage 22 in the support plate 6 of the movable clamping block 3. This support plate 6 corresponds to the first support plate 6 with the exception of the missing support web 23. The movable clamping block 3 also corresponds to the fixed clamping block 2 with a significant difference. The clamping movement of the clamping block consists of an elastic deformation. For this purpose, it has a region of reduced material thickness 13 in its region near the base and a distance to the base edge, which points in the direction of the fixed clamping block 2. The area of reduced material thickness 13 consists of two millings, the material thickness more than thirds. The millings can be different diameters have, so that stops in the weakening a convex material web. The movable clamping block 3 may further comprise a display of elasticity and / or a vernier scale. The elasticity indicator indicates to the user the deformation in the elastic range, for example as a deviation from the parallels in mm. The display of elasticity in the form of an angular display simultaneously represents an operating safety device which warns the user of the elasticity of the movable clamping block 3 being exceeded. The vernier scale is used for exact centering of the clamping device, if it is used as a centric vice without own base plate 8.

If the device according to the invention as shown in Fig. 2 are operated, the spindle is removed with spindle holder from the recess and rotated by 180 ° used again.

Fig. 3 shows the structure of a spindle nut coupling for preventing rotation. First, the spindle screw 10, which engages in a spindle nut 9, not engage in a second to avoid unwanted overdetermination. It is therefore provided according to the invention to combine spindle nuts 9, 9a of different lengths together. One side of the spindle nuts 9, 9a has a smaller diameter cylindrical portion with external thread 29, the end face of which is closed by a spring 30. This spring 30 engages in one corresponding groove 31 a corresponding side of a second spindle nut 9, 9a a. This second side has a smaller diameter cylindrical portion with external thread 29, which carries a union nut 32 with internal thread. This union nut 32 is screwed onto the external thread of the first side to produce a rotationally secure connection between the two spindle nuts 9, 9a, until it rests against the larger diameter portion of the spindle nut. The inventively achievable clamping distances are dependent on the combination of the spindle nuts 9, 9a. With a spindle nut 9 clamping distances of 20 to 80 mm can be realized at a stroke of 60 mm. By using a spindle nut 9a, clamping distances of 80 to 140 mm are made possible with a stroke of 60 mm. The combination of two spindle nuts 9 and 9a allows clamping distances of 140 to 200, the two spindle nuts 9a such from 200 to 260 mm, so that by stepwise combination clamping distances up to 760 mm can be achieved.

The spindle bolts 26 penetrate the clamping blocks 2, 3, not shown, and engage in the spindle screw receptacle 34 and the spindle nut 9, 9a. The receptacle 34 is located in recesses of the clamping blocks 2, 3. The spindle screw receptacle 34 has a conical support bearing 28 on which a disc spring 33 is applied. On the plate spring 33 is in turn the spindle screw 10, wherein the spindle screw 10 has at its free end a spindle screw drive in the form of a hexagon for applying, for example, a ring or open-end wrench. The spindle screw 10 also has a conical contact surface 19 for the support bearing 28. Instead of a mechanical manual spindle drive, according to the invention, hydraulic or pneumatic power amplifiers or drives can also be provided. The spindle nut 10 is sealed with an O-ring 18, so that neither chips nor process fluid can penetrate into the spindle bearing. The clamping pressure of up to 4 t is thus safely and wear-induced in the fixed jaws 2. Fig. 4 also shows an inventively configured connection between the spindle screw 10 and spindle nut 9a, which is rotatably connected to a spindle nut 9. The spindle nut engages with its external thread in the internal thread of the spindle nut 9a, which further has an external thread to be connected by means of a union nut 32 with further spindle nuts 9a. Fig. 4 also shows the Mindesteindrehanzeige 11 of the screw screw 10. Instead of the spindle screw 10, a further spindle nut 9a could be attached to its external thread by means of the union nut 32 on the first spindle nut 9 for extending the spindle, the spindle screw 10 then in this further spindle nut 9a would intervene. Fig. 4 also shows the closed connection between a spindle nut 9 and a spindle nut 9a.

Figure 5 shows another clamping device 1 consisting of a base body G and two clamping blocks 2, 3. The main body G is inventively formed in one piece, but may also be formed in several parts as shown. It has bores 39, which serve for connection to further tensioning devices according to the invention. In the body G is incorporated a Verstellspindelaufnahme 38, which has a larger diameter and a smaller diameter area. The smaller diameter portion corresponds to a smaller diameter portion in the region of the end portions of the adjusting spindle 4. In this Verstellspindelaufnahme 38 from above an adjusting spindle 4 is inserted, which is not shown for reasons of clarity in Fig.%. Adjusting spindle 4 and clamping blocks 2, 3 are hardened. The clamping blocks 2, 3 slide in the body G, guided by clamping block guide rails 48. On the latter can be provided a centric scale. The clamping blocks 2, 3 are constructed in two parts, they consist of a base plate 40 and an attachment 41. To a clamping device 1 according to the invention includes at least two clamping blocks 2, 3, but it is conceivable that between these, another, fixed clamping block is arranged, so that a double vice results. The essays 41 have clamping spindle receptacles 45, wherein the clamping spindle 37 is not shown for reasons of clarity. The clamping spindle 37 is supported by bolts, not shown, 46, which is the bearing pin hole 54 enforce. The clamping spindle 37 is inventively provided to apply the clamping force to the arranged between the clamping jaws 52 and not shown workpiece. The device according to the invention therefore has two spindles: one for clamping force application, one for adjusting the clamping blocks 2, 3. To increase the span, the invention provides that the clamping blocks 2, 3 rotated 180 ° to each other can be installed. The one-piece support plate 47, not shown, is fastened by means of a screw on one of the two blind holes 49 of the base plate 40, depending on the orientation in which the clamping blocks are used. Both clamping blocks 2, 3 are chamfered in the region of the clamping spindle 37, preferably at an angle of 45 °. This facilitates tool access. The clamping jaw 52 is screwed or plugged onto the clamping blocks 2, 3. It has on its side facing a workpiece on small retaining pins. For cleaning and replacement, the clamping blocks 2, 3 can be easily removed from the base G upwards. The thus released adjusting spindle 4 can also be taken upwards. A cleaning of the device according to the invention is not usually required, since the chips removed from the workpiece from the clamping spindle 37 slide down, and do not block the adjusting spindle 4.

Fig. 6 shows a plan view of an adjusting spindle 4 with left-hand thread 4a and right-hand thread 4b and two ends in the form of a hexagonal section 4c. The adjusting spindle 4 is made of hardened material. It lies loosely in the Verstellspindelaufnahme 38 of the body G. The smaller compared to the threaded portions 4a, 4b end portions 4c are formed so that a malfunction of the device is omitted, since an operator does not assume that such a small diameter hexagonal edge could serve for power transmission.

Fig. 7 shows the underside of a base plate 40 and in particular the threaded sleeve 50, in which the adjusting spindle 4 engages. Good to see that this threaded sleeve 50, the adjusting spindle 4 does not completely surround. Rather, it has a circumferential angle of less than 180 °, in particular 120 °. This allows an extremely low susceptibility to dirt, easy cleaning, as well as the upward removal of the clamping blocks 2, 3 and thus their simplest replacement against others. Furthermore, in this base plate 40, the cardan shaft receptacle 44 of the propeller shaft 42 of the articulated connection between the base plate 40 and attachment 41 can be seen. Also indicated is the linear engagement of the articulated shaft 42 (not shown) within this articulated shaft receptacle 44, which is designed as a through-hole. The support plate connection bore 49, to which a support plate 47 for a workpiece is fastened, is also shown. Also shown is a clamping block locking means 43 in the form of a Spannpratzenaufnahme with a Spannpratzenbohrung 51. The clamping claw is used to determine of the clamping block 2, 3 on the base body G, in which the approximately perpendicular in the rest position clamping claw is tilted by tightening a screw over the edge of the Spannpratzenaufnahme and pressed against the clamping block guide rail 48.

Fig. 8 shows a clamping block 2 which is rigidly connected to a base plate 40. Good to see the clamping spindle receptacle 45, the bearing pin bore 54 and the jaw receiving 53. Shown is also the beveled by about 45 ° back of the clamping block. 2

Finally, FIG. 9 shows a front view of an attachment 41 connected in an articulated manner to a base plate 40. In addition to the details shown in FIG. 8, the joint fastenings 55 are additionally shown. However, the embodiment with four fasteners 55 is only one embodiment, according to the invention, any conceivable attachment between attachment 41 and propeller shaft 42 is conceivable.

According to the invention, the clamping spindle 37 can also be equipped with a power amplifier. For clamping the clamping blocks 2, 3 by means of the adjusting spindle 4 as far approached each other until the workpiece would be held just between their jaws. Subsequently, the clamps are tilted from their vertical position by tightening the Spannpratzenschraube over the edge of the Spannpratzenaufnahme and jammed against the clamping block guide rail 48. Thus, the clamping blocks 2, 3 are secured. The clamping spindle 37 is inserted, fastened with bolts 46 and then tightened. The clamping spindle 37 transmits a clamping pressure of up to 4 t, wherein the hinged clamping block 4 is inclined by means of the propeller shaft 42 in the direction of the base body G and thus pulls down the workpiece. Thus the Werkstückeinspannvorgang is finished, the processing can begin.

LIST OF REFERENCE NUMBERS

• 1 tensioning device
• 2 Fixed clamping block
• 3 movable clamping block
• 4 spindle
• 4a right-hand thread
• 4b left-hand thread
• 4c hexagonal section
• 5 end surface
• 6 platen
• 7 workpiece
• 8 machine table
• 9, 9a spindle nut
• 10 spindle screw
• 11 Minimum turn indicator
• 12
• 13 area of reduced material thickness
• 14
• 15 sockets
• 16 hole
• 17
• 18 O-ring
• 19 contact surface
• 20 stroke
• 21 jaw
• 22 passage
• 23 support bar
• 24
• 25 eye
• 26 spindle bolts
• 27 Convex material web
• 28 support bearings
• 29 Small diameter cylindrical section with external thread
• 30 spring
• 31 groove
• 32 union nut
• 33 plate spring
• 34 Spindle screw receptacle
• 35
• 36 mark
• 37 clamping spindle
• 38 Verstellspindelaufnahme
• 39 bore
• 40 base plate
• 41 essay
• 42 PTO shaft
• 43 Clamping block locking device
• 44 Cardan shaft mount
• 45 clamping spindle receptacle
• 46 bolts
• 47 support plate
• 48 clamping block guide rails
• 49 platen connection hole (blind hole)
• 50 threaded sleeve
• 51 Spannpratzenbohrung
• 52 clamping jaws
• 53 Clamping jaw holder
• 54 Bearing bolt bore
• 55 joint fixings
• G basic body

Claims (25)

Clamping device (1), in particular for use in 5-axis milling machines, with at least two fixed clamping blocks (2, 3), and a spindle (4) for adjusting at least one clamping block (3), characterized in that an introduction of a clamping force, preferably formed by the spindle (4), in an upper region of the clamping blocks (2, 3), preferably independent of a height of the clamping blocks (2, 3). Clamping device according to claim 1, characterized in that at least one support plate (6) for spacing a workpiece (7) from a machine table (8) is provided, wherein preferably each clamping block (2, 3) is associated with a support plate (6), preferably one of a clamping block (2, 3) independent one-piece component. Clamping device according to claim 1 or 2, characterized in that spindle nuts (9, 9a) of different lengths are connected to each other connectable, preferably against rotation and / or that the spindle nuts (9, 9a) have a marking (36) as a positioning aid. Clamping device according to claim 1, 2 or 3, characterized in that a spindle screw (10) only in a spindle nut (9, 9a) is formed engaging and / or a Mindesteindrehanzeige (11), preferably by means of a circumferential groove. Clamping device according to one of the preceding claims, characterized in that the fixed clamping block (2) has a spindle screw receptacle (34) with a support bearing (28) on which the spindle screw (10), preferably by means of a plate spring (33) supported supported. Clamping device according to one of the preceding claims, characterized in that the spindle screw receptacle (34) by means of bolts (26) on the fixed clamping block (2) is fixed and / or the bolts (26) are designed as coupled bolts. Clamping device according to one of the preceding claims, characterized in that the movable clamping block (3) has a region (13) with reduced material thickness, preferably in the region near the base. Clamping device according to one of the preceding claims, characterized in that the movable clamping block (3) has a display of elasticity (14) and / or the fixed clamping block (2) comprises a spindle screw cleaning device, preferably a force-loaded Spanabstreifdorn or Spanabstreiffläche. Clamping device according to one of the preceding claims, characterized in that a plate holder, preferably a sucking plate holder, between the clamping blocks (2, 3) is provided. Clamping device according to one of the preceding claims, characterized in that a clamping system is provided with Wechselzuganker. Clamping device according to one of the preceding claims, characterized in that a tie rod is designed as a chain. Clamping device according to one of the preceding claims, characterized in that the clamping jaws (21) are designed for clamping of round workpieces and / or have a stop surface. Clamping device according to one of the preceding claims, characterized in that the fixed clamping block (2) is designed as a pull-down system, preferably by means of a partial gap. Clamping device according to one of the preceding claims, characterized in that it is arranged on a base plate, which preferably has a Noniusskala. Clamping device (1) according to claim 1, characterized in that a clamping spindle (37) is provided, which introduces a clamping force in an upper region of the clamping blocks (2, 3), and an adjusting spindle (4) for adjusting the clamping blocks (2, 3 ) is provided. Clamping device according to claim 15, characterized in that the clamping device comprises either two movable clamping blocks or a fixed and a movable clamping block or two movable and an interposed, fixed clamping block. Clamping device according to claim 15 or 16, characterized in that the adjusting spindle (4) in a base body (6) is arranged, preferably guided on three sides, that it preferably has two sections with opposite threads (4a, 4b), and their ends as a drive adapter, in particular smaller-diameter hexagonal sections (4c) are formed, and it preferably consists of hardened material. Clamping device according to claim 15, 16 or 17, characterized in that the base body (6) is integrally formed and a Verstellspindelaufnahme (38), clamping block guide rails (48) and preferably bores (39) for connection to other clamping devices and / or a Spannblockarretiereinrichtung (43). Clamping device according to one of claims 15 to 18, characterized in that a clamping block (2, 3) is integrally formed in one piece or two parts or two parts articulated and that a clamping device may have these clamping blocks in any combination. Clamping device according to one of claims 15 to 18, characterized in that the two-part clamping blocks (2, 3) consist of a base plate (40) and an attachment (41), which are preferably hinged together. Clamping device according to one of claims 15 to 21, characterized in that the articulated connection has a multiply linearly mounted propeller shaft (42). Clamping device according to one of claims 15 to 21, characterized in that the base plate (40) has a threaded sleeve (50) for the adjusting spindle (4) and / or a Spannblockarretiereinrichtung (43) and / or a Gelenkwellenaufnahme (44) for the propeller shaft (42). Clamping device according to one of claims 15 to 22, characterized in that the Spannblökke (2, 3) are designed to be removed from the base body (G) upwards. Clamping device according to one of claims 15 to 23, characterized in that the attachments (41) have a clamping spindle receptacle (45), wherein the clamping spindle receptacle (45) by means of bolts (46) on the attachments (41) is attached. Clamping device according to one of claims 15 to 24, characterized in that at least one support plate (47) for spacing a workpiece from the base body (G) is provided, wherein preferably each clamping block (2, 3) is associated with a support plate (44), the one from a clamping block (2, 3) independent one-piece component.

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