DE20104912U1 - Cutting device - Google Patents

Description

STENGER, WATZKE &_# RlM.G· · '.''.'I : Kfciser-Friedrich-Ring 70

···· ■ 5**40547 DÜSSELDORF

PATENT ATTORNEYS

DIPL.-ING. WOLFRAM WATZKE (-1999)

DIPL-ING. HEINZ J. RING

DIPL.-ING. ULRICH CHRISTOPHERSEN

DIPL-ING. MICHAEL RAUSCH

DIPL.-ING. WOLFGANG BRINGMANN

Balcke-Dürr Energietechnik GmbH Patent Attorneys

EUROPEAN PATENT ATTORNEYS

Hans-Joachim-Balcke-Strasse

.-,_._. ._. . Our. Reference 01-0158

46049 Oberhausen _Ourref

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^Dalum 12 0. Mar 2001
Cutting device

The invention relates to a cutting device according to the preamble of claim 1.

In the field of dismantling nuclear facilities, devices are known in the state of the art with which even large containers or partition walls can be dismantled in order to obtain transportable and storable parts.

For this purpose, cutting devices are used to make a cut in, for example, a steel wall or a plate-shaped material, which consist of at least one stationary guide rail arranged parallel to a predetermined cutting line, a toothing also arranged parallel to the predetermined cutting line and formed by a drive that engages in a chain, as well as a carriage guided by the guide rail and connected to the drive, and a milling device attached to the carriage and provided with a cutting tool. Such devices are driven by compressed air, for which purpose the milling device is provided with a compressed air motor.

In practical use, it is evident that, given the small required construction volume of the cutting device and its associated units, the drive with compressed air is not sufficiently powerful. In particular, when throttling to reduce the propulsion, the known cutting devices tend to

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their physical properties mean that the available torque decreases significantly and thus the overall cutting performance of the device is significantly reduced. In practice, this leads, among other things, to lower cutting depths and requires multiple cuts, which increases the time and costs involved.

The invention is based on the object of developing a generic cutting device in such a way that the performance is maintained even when operating at a lower feed rate in order to save time and costs.

The task is solved by hydraulically driving both the carriage forward along the cutting line and the cutting tool.

The hydraulic drive enables the advance to be controlled without significantly changing the torque of the drive. The advance can therefore be adapted to the requirements over a wide range without significantly changing the torque required for the cutting work. This is a significant advantage when adjusting and using the cutting device in practical use and can significantly increase its performance, especially when cutting a wall made of a tough material such as steel.

It is further proposed that the structural element be formed by a chain. When cutting container walls, simple assembly can be achieved by using a chain as a structural element by stretching the chain parallel to a guide rail, for example around the container, whereby the drive of the cutting device guided by the guide rail meshes positively with the chain and can thus drive the carriage forward.

Alternatively, it is proposed that the structural element is formed by a toothed strip. Particularly in the case of flat walls and plate-shaped materials of large dimensions, a structural element can be provided in a simple manner by attaching a toothed strip to the element to be cut.

which meshes with the drive of the cutting device to effect propulsion. Such a device can also be used advantageously when the element to be cut is only accessible from a concave side. The use of a chain would be impractical in this case.

Preferably, the forward drive of the milling device and the drive of the milling or cutting tool can be adjusted independently of each other. This allows the operating conditions for a cutting process to be optimized, for example by adjusting the forward drive according to the cutting depth and depending on the material properties. It is particularly positive that the torque is largely independent of throttling.

It is also proposed that a planetary gear is arranged between the hydraulic motor and the device for driving the slide. The planetary gear can be designed as a planetary gear, for example. Firstly, this achieves a favorable ratio between construction volume and transferable power, and secondly, a relatively large transmission ratio is possible. For example, the device for driving the slide and the drive of the milling device can be driven by a common motor. Components and costs can be saved.

Further advantages and features can be found in the following description of an embodiment.

It shows the only figure

a cutting device with a drive according to the invention.

The figure shows a cutting device for making a cut 12 in a wall 10, for example the steel casing of a large cylindrical container 36. This consists of at least one guide rail 14 arranged parallel to the intended cutting line and fastened to the wall, a guide rail 15 arranged parallel to the predetermined cutting line and fixed by a

two chains 16, 18, a toothing formed by a drive 20 which engages in a form-fitting manner, a carriage 22 which is guided by the guide rail 14 and connected to the drive 20, and a milling device 26 which is fastened to the carriage 22 and is provided with a cutting tool 24. Both the forward drive of the carriage 22 along the cutting line and the drive 20 of the cutting tool 24 are carried out hydraulically by the motor 28. Between the hydraulic drive 28 and the device 20 for driving the carriage 22 forward there is a planetary gear 30 which is designed here as a planetary gear.

The forward drive of the milling device 26, which is provided with a rotating milling or cutting disk 24, and the drive 20 of the cutting tool 24 can be adjusted independently of one another. For cooling and/or lubricating the milling disk 24, a nozzle arrangement 32 is provided on the carriage 22, to which lubricant and/or coolant is supplied via a flexible pipe 34. The hydraulic drive 28 in conjunction with the gear 30 and the independent adjustment option mean that the speed of the milling disk 24 and the feed of the carriage 22 can be adjusted independently of one another. However, with a reduced feed, a high torque is maintained, whereby the cutting depth and feed can be adjusted in an economically optimal manner.

Reference list

10 Wall

12 cut

14 Guide rail

16 Chain

18 Chain

20 Drive

22 sledges

24 Cutting tool

26 Milling device

28 Hydraulic motor

30 Gearboxes

32 Nozzle arrangement

34 Pipeline

36 containers

· · ■

Claims (5)

1. Cutting device for making a cut ( 12 ) in a wall ( 10 ), in particular a steel wall, or a plate-shaped material, consisting of at least one stationary guide rail ( 14 ) arranged parallel to a predetermined cutting line, a toothing also arranged parallel to the predetermined cutting line and formed by a drive ( 20 ) engaging in a structural element ( 16 , 18 ) in a form-fitting manner, as well as a carriage ( 22 ) guided by the guide rail ( 14 ) and provided with the drive ( 20 ), and a milling device ( 26 ) fastened to the carriage ( 22 ) and provided with a cutting tool ( 24 ), characterized in that both the forward drive of the carriage ( 22 ) along the cutting line and the drive ( 20 ) of the cutting tool ( 24 ) are hydraulic. 2. Cutting device according to claim 1, characterized in that the structural element ( 16 , 18 ) is formed by a chain. 3. Cutting device according to claim 1, characterized in that the structural element is formed by a toothed strip. 4. Cutting device according to one of the preceding claims, characterized in that the forward drive of the milling device ( 26 ) and the drive ( 20 ) of the cutting tool ( 24 ) are adjustable independently of one another. 5. Cutting device according to one of the preceding claims, characterized in that a planetary gear ( 30 ) is arranged between the hydraulic drive ( 28 ) and the device ( 20 ) for driving the carriage ( 22 ).