WO2012059194A1 - Device for machining a large-scale thin-walled workpiece - Google Patents

Abstract

The invention relates to a device (1) for machining a large-scale thin-walled workpiece (2), comprising at least one machining device (3), which is arranged so as to be movable relative to the workpiece (2) in order to machine at least one section of the workpiece (2) on a machining side of the workpiece (2), and comprising at least one clamping device for clamping the section of the workpiece (2) at least periodically during the machining thereof. The aim of the invention is to allow quick and inexpensive machining of a large-scale thin-walled workpiece. According to the invention, this aim is achieved in that the clamping device has at least two clamping units (4, 5), of which a first clamping unit (4) is disposed on the machining side of the workpiece (2) and a second clamping unit (5) is disposed on the side of the workpiece (2) opposite the machining side. In order to clamp the section of the workpiece (2), at least one of the two clamping units (4, 5) is mounted so as to be able to move towards the respective other clamping unit (4, 5).

Description

 Device for editing a

 The invention relates to a device for processing a large-format, thin-walled workpiece with at least one machining device, which is arranged for machining at least a portion of the workpiece on a machining side of the workpiece movable relative to the workpiece, and at least one clamping device for at least temporarily Clamping the portion of the workpiece during its machining.

Under a large-sized workpiece should be understood according to the invention, for example, a component from the production of railway cars, aircraft, ships or the like. It is essential that the workpieces to be machined, large-sized workpieces have relatively large dimensions, for example, lengths of about 60 m. In relation to such dimensions, the material thickness of such a workpiece is rather low, which is why these workpieces are referred to as thin-walled in the invention.

From DE 691 07 196 T2 a machine tool is known with which at least a portion of a large-sized, thin-walled workpiece can be processed. The machine tool has a processing device which can execute relative movements in a main direction to a workpiece held stationary during processing. For this purpose, the processing device on a movably mounted on rails support unit, wherein the rails are aligned parallel and spaced from the main direction. The support unit carries a processing tool driving machining unit, the transversely movable to the main direction of the

CONFIRMATION COPY Carrying unit is arranged. The machining of the workpiece section takes place in the machine tool according to DE 691 07 196 T2 from the top of a substantially horizontally arranged workpiece. Thus, here is the top of the workpiece, the processing side thereof within the meaning of the present invention. When the processing device reaches a processing section, the carrying unit is held stationary and the processing unit is moved relative to the carrying unit transversely to the main direction in order to be able to carry out certain processing measures on the processing section. In the context of the present invention, the workpiece may be subdivided in two or more in the main direction, which is defined for example by the longitudinal extent of the large-sized, thin-walled workpiece side by side processing sections or even form a single processing section. The processing unit usually comprises a motor spindle for driving a machining tool suitable for a specific machining operation. Machining measures may be according to the invention, for example, milling, drilling, tapping, notching, grinding or sawing. As a further processing measure comes friction stir welding into consideration. In order to keep the workpiece stationary during its machining, a clamping device for clamping the workpiece to be machined is known, for example, from EP 1 555 084 A1.

During the execution of such processing, it often happens that the workpiece to be machined begins to vibrate. Such vibrations propagate from the workpiece via the machining tool to the processing unit or its motor spindle. As a result, the motor spindle is claimed improperly, which is reflected in significantly reduced service life. There are therefore costly maintenance and repair work on the conventional machine tools required. The vibrations also significantly affect the machining result, especially its accuracy. It is therefore attempted in the prior art to prevent the damaging effects of vibrations on the motor spindle, for example, by using very massive motor spindles. However, the required correspondingly powerful design of the motor spindle is associated with considerable costs. The possible processing at low speeds through the use of powerful motor spindles also does not lead to a sufficient reduction of vibrations. Thus, no more precise and high-quality machining of workpieces can be done by such a design of machine tools. In addition, the use of such a powerful motor spindle increases the weight of the processing unit to such an extent that the dynamics of the processing unit are greatly impaired, which in turn is associated with slower machining of workpieces and inefficient production of finished workpieces. On this basis, it is the object of the present invention to provide an apparatus for processing a large-sized, thin-walled workpiece, with which a fast, qualitative and cost-effective processing of the workpiece can follow.

This object is achieved by a device of the type mentioned above in that the clamping device has at least two clamping units, of which a first clamping unit on the machining side of the workpiece and a second clamping unit on the opposite side of the machining side of the workpiece is arranged, wherein at least one of two clamping units for clamping the portion of the workpiece to the other clamping unit is mounted to be movable.

According to the invention, at least the portion of the workpiece to be machined is thus clamped during its machining in a manner which reliably prevents vibration of the workpiece during machining. As a result, the machining can be carried out using high speeds, which allows a relatively fast machining of the workpiece and the cost-effective use of conventional motor spindles lower power without the life of a appropriately equipped processing device or apparatus for processing a large-sized, thin-walled workpiece is shortened and costly repairs incurred.

The large-format, thin-walled workpieces can in the context of the invention, for example, from a relatively thin-walled metal, such as steel or aluminum, made of plastic, a composite material or wood.

Incidentally, the invention is not limited to a horizontal orientation of the workpiece to be machined, as required for example in DE 691 07 196 T2. Instead, any orientation of the workpiece is possible. Vibrations of the workpiece occur at every possible alignment of the workpiece and can be prevented equally with each use of the device according to the invention.

According to an advantageous embodiment of the invention, the second clamping unit on a stationary support on which rests at least the portion to be machined of the workpiece during its processing, wherein the first clamping unit comprises a relative to the support movably arranged hold-down, with which the portion of the workpiece during its Machining is at least temporarily pressed from the machining side of the workpiece against the support. According to this embodiment of the invention, the workpiece is preferably aligned substantially horizontally during its machining. As a result, the second clamping unit can be relatively simple, for example as a support table or the like, formed and arranged stationary. The hold-down of the first clamping unit can be moved by means of at least one actuator in order to clamp the portion of the workpiece to be machined in a suitable manner.

According to a further advantageous embodiment of the invention, the processing device has a carrying unit and a machining unit arranged movably thereon, wherein relative movements in a main direction can be carried out between the carrying unit and the workpiece. The Carrying unit is formed, for example portal-shaped. The processing unit is arranged in particular transversely to the main direction movable on the support unit. The relative movements between the support unit and the workpiece can be achieved by either moving the support unit relative to the stationarily held workpiece, moving the workpiece relative to the stationarily held support unit or moving both the support unit and the workpiece in the main direction relative to one another become.

A further advantageous embodiment of the invention provides that the hold-down is movably arranged on the support unit and extends the support under the entire workpiece. As a result, it is ensured in a simple manner that the clamping device moves with the machining device and thus any desired section of the workpiece to be machined can be clamped. This allows the clamping of the portion of the workpiece can be done in any machining position of the processing device.

According to a further advantageous embodiment of the invention, the processing unit is arranged in a processing direction relative to the support unit movable on this, wherein the processing direction is aligned parallel and spaced from the main direction. As a result, when the carrying unit is held stationary, the processing unit can be moved in the direction of the longitudinal extension of the workpiece over a certain distance, without it being necessary, as in the prior art, to move the entire processing device together with its heavy-weight carrying unit. Thus, according to this embodiment of the invention, the dynamics of the processing unit is significantly improved, which is associated with a shorter processing time and lower processing costs.

According to a further advantageous embodiment of the invention, the hold-down on at least one arranged on a support roller, which serves for transmitting power from the carrier to the portion of the workpiece and which rolls during a relative movement between the support unit and workpiece in the main direction on the workpiece. Preferably, the Hold-down several roles on to clamp the workpiece in its transverse to the main direction arranged width as evenly as possible. In particular, this is advantageous if the processing unit is movable relative to the support unit in the machining direction, since the support unit can move to another section of the workpiece to be machined still at the beginning or already towards the end of a processing carried out with the processing unit and ensured in each state of movement is that the workpiece is clamped sufficiently to avoid vibration. Preferably, the carrier with the role of movement of the support unit is arranged in advance. This prevents the roll, for example, from rolling over material chips generated during the execution of machining operations and forcing them into the material of the workpiece, which would severely impair the quality of the workpiece. It is further considered advantageous if the roller is arranged on the support via a suspension device, via which the position of the roller relative to the carrier can be varied. This variation can be done in any way. This makes it possible to clamp not only completely planar formed large-sized, thin-walled workpieces in the desired manner. Instead, the positions of the rollers relative to the carrier can be adapted individually to the respective shape of a workpiece to be machined, wherein the workpiece may have, for example, in its longitudinal direction extending portions of different material thickness. Even such irregularly shaped workpieces can be clamped uniformly by means of this embodiment of the invention to avoid vibrations.

Furthermore, it is proposed that the device has a control by means of which the clamping device can be controlled taking into account information relating to the respective machining of the section of the workpiece. This makes it possible, for example, to control the clamping force exerted on the workpiece by the clamping device and / or to bring a roller holder provided with rollers out of or in contact with the workpiece. Further advantages and features of the present invention will be explained in more detail below with reference to the embodiments of the invention shown in the accompanying figures. Show

Figure 1: a representation of a

 Embodiment of the inventive device and

FIG. 2 shows a further illustration of the exemplary embodiment shown in FIG.

FIG. 1 shows an exemplary embodiment of the device 1 according to the invention for processing a large-format, thin-walled workpiece 2. The device 1 has a machining device 3 which is suitable for machining at least one section of the workpiece 2 on the machining side, here the top side of the workpiece 2 is arranged movable to the workpiece 2.

The device 1 further comprises a clamping device for at least temporarily clamping the portion of the workpiece 2 during its processing. The clamping device comprises two clamping units 4 and 5, of which a first clamping unit 4 on the machining side of the workpiece 2 and a second clamping unit 5 on the opposite side of the machining side of the workpiece 2 is arranged. The first clamping unit 4 is mounted for clamping the portion of the workpiece 2 to the second clamping unit 5 to be movable.

The second clamping unit 5 has a stationary support 6, on which the workpiece 2 rests completely during its machining. The first clamping unit 4 has a hold-down device 7 movably arranged relative to the support 5, with which the section of the workpiece 2 can be pressed against the support 5 at least temporarily from the machining side of the workpiece 2 during its machining.

The processing device 3 has a carrying unit 8 carrying a carrying unit 9. The carrying unit 9 is in a perpendicular to the Drawing plane standing main direction relative to the stationary held workpiece 2 movable, whereby between the support unit 9 and the workpiece 2 relative movements in the main direction can be performed. The processing unit 8 is arranged transversely to the main direction movably on the carrying unit 9.

The hold-down 7 is arranged on actuators 10 in the vertical direction movable on the support unit 9. As can be seen in FIG. 2, the processing unit 8 is arranged movably relative thereto in a processing direction X2 relative to the carrying unit 9, the processing direction X2 being aligned parallel to and spaced from the main direction X1.

The holding-down device 7 has a plurality of rollers 12 arranged on a carrier 11, which serve for transmitting power from the carrier 11 to the section of the workpiece 2 and which roll on the workpiece 2 during a movement of the carrying unit 9 in the main direction X1. The rollers 12 are each arranged on the support 11 via a suspension device 13. About the suspension means 13, the positions of the rollers 12 relative to the carrier 11 can be varied according to the arrows shown.

- Claims -

Claims

claims

Device (1) for processing a large-format, thin-walled workpiece (2) with at least one machining device (3), which is suitable for machining at least a portion of the workpiece (2) on a machining side of the workpiece (2) relative to the workpiece (2) is movably arranged, and with at least one clamping device for at least temporarily clamping the portion of the workpiece (2) during its processing,

characterized in that the clamping device comprises at least two clamping units (4, 5), of which a first clamping unit (4) on the machining side of the workpiece (2) and a second clamping unit (5) on the opposite side of the machining side of the workpiece (2) is, wherein at least one of the two clamping units (4, 5) for clamping the portion of the workpiece (2) to the respective other clamping unit (4, 5) is mounted to be movable.

2. Device (1) according to claim 1, that the second clamping unit (5) has a stationary support (6) on which at least the portion of the workpiece (2) rests during its machining, and that the first clamping unit (4) has a relative to the support (6) arranged movable down device (7), with which the portion of the workpiece (2) during its processing at least temporarily from the machining side of the workpiece (2) against the support (6) can be pressed.

3. Device (1) according to claim 1 or 2, characterized in that the processing device (3) has a processing unit (8) bearing

Carrying unit (9), wherein between the support unit (9) and the workpiece (2) relative movements in a main direction (X1) are feasible.

4. Device (1) according to claim 3, characterized in that the hold-down device (7) is movably arranged on the support unit (9) and extends the support (6) under the entire workpiece (2).

5. Apparatus according to claim 3 or 4, characterized in that the processing unit (8) in a processing direction (X2) relative to the support unit (9) is arranged movable on this, wherein the processing direction (X2) parallel and spaced from the main direction (X1 ) is aligned.

6. Device (1) according to claim 5, characterized in that the hold-down device (7) has at least one roller (12) arranged on a carrier (11), which is adapted to transmit power from the carrier (11) to the portion of the workpiece (2 ) and which rolls during a relative movement between the support unit (9) and the workpiece (2) in the main direction (X1) on the workpiece (2).

7. Device (1) according to claim 6, characterized in that the roller (12) via a suspension device (13) on the carrier (11) is arranged, via which the position of the roller (12) relative to the carrier (11) variable is.

8. Device (1) according to one of the preceding claims, characterized by a control by means of which the clamping device is controllable taking into account information relating to the respective machining of the portion of the workpiece (2).

- Summary -