The present invention relates to a method and apparatus for making a collar to the end of a pipe.
To join pipes end to end, flange joints are generally used, which require that there is a collar at the end of each pipe to be joined. To the end of each pipe is typically formed a collar, which is essentially perpendicular to the longitudinal direction of the pipe and behind the collars is provided flanges, which are tightened with screws and nuts against each other. There are also such joining solutions, where the collar is in a different angular position with respect to the longitudinal direction of the pipe, for example, at a 37° angle.
Collars can be made in various ways. One way is to weld an extension which already includes a collar to the pipe. Another way is to provide the pipes with collars already at the factory before bringing them to the installation site. For this purpose are available different types of collar making apparatuses. These types of collar making apparatuses are usually large and heavy and cannot, in practice, be taken to the installation site.
The aim of the present invention is to provide an improved method and apparatus for making collars for metal pipes at the installation site, in which case fitting the pipes to their correct locations would be significantly easier and the collar making could, in addition, be done on already installed pipes, for example, when repairing a damaged pipe section which can be removed and replaced by installing a new pipe section reliably without having to unnecessarily demolish undamaged pipe sections. A further aim is to reduce the need to transport pipes back and forth to the workshop, for example, due to dimensional errors.
To achieve this aim, the method according to the invention is characterised in that, in the method, a forming cone is moved by an axial movement, obliquely to the central axis of the pipe, inside the pipe until the forming cone makes contact with the inner surface of the pipe, making essentially linear contact with the inner surface of the pipe, and the forming cone is loaded with the desired load pressure against the inner surface, the forming cone is then pivoted by means of a pivoting cradle outwards from the central axis of the pipe, around the inner edge of the attachment clamp, and the forming cone and pipe are at the same time made to rotate with respect to each other around the central axis of the pipe, and the said pivoting and rotating movements are continued until the desired collar has formed at the end of the pipe, against the face of the attachment clamp, which acts as a back stop for the collar.
The apparatus according to the invention is, on the other hand, characterised in that the body part is connected to the attachment clamp in such a way that the body part and the pipe to which a collar is to be formed attached to the attachment clamp will be able to rotate with respect to one another around the longitudinal axis of the pipe; that the pivoting cradle is made into the shape of a fork, comprising a pivoting cradle part to which the forming cone is connected in such a way that the forming cone can be moved towards the interior of the pipe by an axial movement, and that the pivoting cradle part is equipped with swinging arms which are pivoted on the body part in such a way that the pivots are located at a point outside the pipe, while the body part is connected to the attachment clamp.
Preferred embodiments of the invention are described in the dependent claims.
The apparatus according to the invention can be realised as a light and small apparatus which is easy to take to the installation site and which can be used for making collars for both already installed pipes and loose pipes.
The invention is described in greater detail in the following, with reference to the accompanying drawings, in which:
The collar making apparatus according to an embodiment of the invention shown in the Figures comprises a body part 1, to which a pivoting cradle is connected in a pivoted manner. The pivoting cradle is made into fork-like form comprising a pivoting cradle 2 and swinging arms which are pivoted on the body part 1 at pivots 5. In the pivoting cradle part 2 is provided a hydraulic cylinder 10, on the piston rod 11 of which is connected a forming cone 9. By means of the hydraulic cylinder, the forming cone can be moved inside the pipe 8 to which a collar is to be formed by an axial movement. The apparatus also includes an attachment clamp 7, the face 7′ of which forms a back stop for the collar 8′ being formed. The body part 1 is connected to the attachment clamp 7 in such a way that the body part and the pipe 8 to which a collar is to be formed, which is attached to the attachment clamp, are able to rotate with respect to one another around the longitudinal axis of the pipe. The connection can be carried out, for example, by providing the periphery of the attachment clamp with a toothed rim and by providing the body part with a cogwheel cooperating with the toothed rim (the connecting means are not shown in the drawings).
The pivots 5 between the pivoting cradle and the body part are located at a point outside the pipe when the body part is connected to the attachment clamp in such a way that the axis of rotation of the pivoting cradle determined by them runs in the direction of the tangent of the pipe 8, essentially through the centre 15 of the imaginary circle (shown in
The pivoting cradle is connected by an articulated joint 6 to the piston rod 13 of the hydraulic cylinder 12 provided on the body part 1 in order to perform the pivoting movement. In the embodiment shown, the face 7′ of the attachment clamp 7 is essentially perpendicular to the central axis of the pipe 8 in order to form an essentially rectangular collar at the end of the pipe. The face can also be formed into a different angular position, as required by the manner of connecting the pipes.
When the apparatus is used, the attachment clamp 7 is positioned at such distance from the end of the pipe which corresponds to the width of the collar 8′ to be formed around the pipe 8. The body part 1 is connected functionally to the attachment clamp 7 and the forming cone 9 is moved by an axial movement, obliquely to the central axis of the pipe 8, inside the pipe, until the forming cone 9 makes contact with the inner surface of the pipe, making essentially linear contact with the inner surface of the pipe. This contact line extends essentially at least to the inner edge of the attachment clamp. The forming cone 9 is then loaded with the desired load pressure against the inner surface and the forming cone 9 is pivoted by means of a pivoting cradle outwards from the central axis of the pipe 8, around the inner edge of the attachment clamp 7 and the forming cone 9 and the pipe 8 are at the same time made to rotate with respect to each other around the central axis of the pipe. The said pivoting and rotating movement is continued until the desired collar 8′ has formed against the face 7′ of the attachment clamp, which acts as a back stop for the collar.
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Number | Date | Country | Kind |
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20105523 | May 2010 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI11/50436 | 5/11/2011 | WO | 00 | 1/8/2013 |