This applications claims the benefit of priority from European. Patent Application No. 11 290 404.0, filed no Sep. 12, 2011, the entirety of which is incorporated by reference.
1. Field of the Invention
The invention relates to a device for corrugating a pipe consisting of metal which, as a finished product, has an corrugation extending transversely of its longitudinal direction, wherein the corrugation includes a ring-shaped corrugation head which can be driven by a first electric motor and which is rotatable about its axis in an operating position, wherein an annular corrugation disc is coupled to the corrugation head, wherein the corrugation disc is mounted in the corrugation head so as to be adjustable in the radial direction and projects inwardly from the corrugation head wherein, in the area of the corrugation head, a support is arranged which is also rotatable around the axis of the corrugation head and is coupled to the corrugation head, and wherein an adjusting mechanism acting on the corrugation disc and serving for the radial adjustment thereof is mounted on the support (JP 60133931 A).
2. Description of the Related Art
Pipes of this type are easily bendable because of the corrugation, on the one hand, and are stable relative to forces acting on the pipes in the radial direction, on the other hand. They can be used for conveying fluid media, however, they can also be used as casings or conductors for electrical and/or optical cables. For example, a respective pipe used as casing may consist of steel. Advantageously, it is used in high frequency cables. In that case, it consists preferably of copper.
The known device according to EP 1 084 774 B1 includes a corrugation head rotatable about an initially smooth pipe, wherein the corrugation head includes a corrugation disc mounted eccentrically relative to the pipe, wherein during operation of the device, the corrugation disc presses a corrugation into the pipe. Mounted on the corrugation head is a hollow shaft which protrudes from the corrugation head in the withdrawal direction thereof, wherein after the corrugating process the pipe is pulled through the hollow shaft and wherein the hollow shaft is rotatable about its axis by an electric motor together with the corrugation head. During operation of the device, the hollow shaft takes along with it the corrugation head which is fixedly connected to the hollow shaft, wherein the corrugation disc presses the corrugation continuously into the pipe which is moved through the, corrugation head in its axial direction. The corrugation head with connected hollow shaft, as well as the rotor of the electric motor fastened to the hollow shaft, are combined in this known device into a unit which is mounted so as to be movable in the axial direction. As a result, tolerances which could influence the corrugation processes, and could occur during the continuous manufacture, can be compensated. The shape of the corrugation, particularly the depth of the corrugations, is measured, for example, when starting up the device. If this shape deviates from the predetermined dimensions, the corrugation disc must be readjusted. For this purpose, the device has to be stopped and then restarted after the adjustment process.
The above-mentioned JP 60133931 A describes a device for corrugating a pipe consisting of metal, which, as the finished product, has a corrugation extending transversely of its longitudinal direction. It has a ring-shaped corrugation head which is driven by an electric motor and is rotatable about its axis in its position of operation, wherein a ring-shaped corrugation disc is coupled to the corrugation head, wherein the corrugation disc projects radially inwardly from the corrugation head, and wherein the corrugation disc is mounted in the corrugation head so as to be adjustable in the radial direction. In the area of the corrugation head, a support coupled to the corrugation head is arranged so as to be rotatable about the axis of the corrugation head. For adjusting the corrugation disc in its radial adjustment, a differential gear unit is arranged between the electric motor and the support. Its different gear wheels are mounted in a basket. The differential gear unit makes it possible that the support rotates during operation with the same rate of rotation as the corrugation head. A hand wheel acts on the basket of the differential gear unit. The rate of rotation of the support can be changed by briefly switching on the basket. This leads to a radial adjustment of the corrugation disc.
It is the object of the invention to configure the above-described device in such a way that the shape of the corrugation of the pipe can be changed even during the operation.
In accordance with the invention, the above object is net by connecting the support to a second electric motor which serves for rotating the support about the axis of the corrugation head.
Therefore, it is possible to radially adjust the corrugation disc during running production. Accordingly, it is possible to extremely precisely adjust the corrugation depth of the pipe to be corrugated, without having to stop the device. This has an advantageous effect, especially when starting up the device, because the desired corrugation depth can be adjusted very quickly without interrupting the operation. Consequently, initial lengths produced as scrap can be kept very short.
However, with this device, the corrugation can also be produced variably. For example, the corrugation depth can be changed during ongoing production. It is also possible to manufacture pipes which have sections without corrugation which are connected to each other through corrugated sections in which the pipe can be bent easily.
The second electric motor, arranged between the first electric motor and the support, serves for changing or adjusting the corrugation of the pipe, wherein the second electric motor then rotates the support with the same rate of rotation at which the corrugation head is also rotated, if no changes have to be made to the corrugation disc. As necessary, the rate of rotation of the second electric motor is changed briefly, so that also the rate of rotation of the support is changed. As a result, this also adjusts the corrugation disc in a simple manner and with few individual parts in the radial direction in the desired manner.
An embodiment of the subject matter of the invention is illustrated in the drawings.
In the drawing:
The device according to the invention is purely schematically illustrated in
A ring-shaped corrugation head 1 is shown in
The corrugation disc 2 can be constructed as a smooth annular disc for producing a helical corrugation in pipe 3. However, it may also extend along a helical path for producing a ring-shaped corrugation.
A support 5 is mounted in the area of the corrugation head 1, wherein the support 5 is rotatable together with the corrugation head 1 around the axis A. In accordance with
The device according to
Initially, a smooth pipe 3 of metal is pulled through the corrugation head 1 and, thus, through the corrugation disc 2 which during this procedure is adjusted in such a way that it does not contact the pipe 3. The pipe 3 is connected with a take-off device, not illustrated for simplicity's sake, for example, a caterpillar take-off, and is pulled by the caterpillar take-off during operation through the corrugation head 1 in the direction of or against the direction of the arrow 4.
Subsequently, the corrugation disc 2, which is arranged so as to be eccentric relative to the pipe 3 or the axis A, is moved toward the pipe 3 until it makes contact with the surface of the pipe at a location of its circumference. Next, the motors M1 and M2, as well as the caterpillar take-off for the pipe 3, are switched on. The motor M1 rotates the corrugation head 1 with the corrugation disc 2 about the pipe 3 which is moved by the take-off device in the direction of arrow 4 (or against the direction of arrow 4). The depth of the corrugation or the corrugation valleys is measured by a controlling unit or also manually. By means of the motor M2, the support 5 is rotated about the axis A at the same speed as the corrugation head 1. In order to make this possible in a simple manner, the two motors M1 and M2 can be connected to each other in the manner of an electrical shaft. This is indicated by the broken line 7.
The depth of the corrugation is measured immediately after the beginning of the operation of the device. This can be effected by, for example, an optical and/or electrical unit by means of which the corrugation disc 2 is automatically adjusted in the compensating sense by a regulating circuit connected to the adjusting mechanism 6. For adjusting the corrugation disc 2, the rate of rotation of the motor M2 is temporarily increased or decreased by a signal of the monitoring unit. The rate of rotation of the support 5 is then changed by the motor M2. The adjusting mechanism 6, coupled to the support 5, adjusts the corrugation disc 2 until the depth of the corrugation corresponds to the predetermined value.
Additional details of the device can be seen from the more detailed illustration in
In accordance with
Number | Date | Country | Kind |
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11290404 | Sep 2011 | EP | regional |
Number | Name | Date | Kind |
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3874211 | Hayashi | Apr 1975 | A |
4061008 | Semenenko | Dec 1977 | A |
4766753 | Berstein et al. | Aug 1988 | A |
5325693 | Hoffmann et al. | Jul 1994 | A |
20090217724 | Bosga et al. | Sep 2009 | A1 |
Number | Date | Country |
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1084774 | Mar 2001 | EP |
60133931 | Jul 1985 | JP |
Number | Date | Country | |
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20130205858 A1 | Aug 2013 | US |