AU2012241122B2 - Guide device, particularly for use in welding - Google Patents

Abstract

Guide device for use in the processing, in particular welding, of curved surfaces, in particular pipe surfaces, comprising a flexible elongate body provided with a guide for processing means; tensioning means for tensioning the flexible body around the curved surface; wherein the flexible body is provided along its length with indicators arranged according to a determined pattern, this pattern being such that a determined position along the flexible body can be inferred on the basis of the detection of the indicators. 4 25\ 7;7 17 4~l -4E - -26 3 0 o B ro 0 Cl - FG.o 0c o

Description

AUSTRALIA PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT ORIGINAL Name of Applicant: Allseas Group S.A Actual Inventors: Maarten Willem Kastelein and Gerardus Maria Kramer Address for Service is: SHELSTON IP 60 Margaret Street Telephone No: (02) 9777 1111 SYDNEY NSW 2000 Facsimile No. (02) 9241 4666 CCN: 3710000352 Attorney Code: SW Invention Title: Guide device, particularly for use in welding Details of Original Application No. 2007201657 dated 16 Apr 2007 The following statement is a full description of this invention, including the best method of performing it known to me/us: File: 53951AUP01 -2 GUIDE DEVICE, PARTICULARLY FOR USE IN WELDING Field of the Invention [0001] The present invention relates to a guide device for use in the processing, in particular welding, of curved surfaces, in particular pipe surfaces, and more in particular pipelines. Such a guide device generally comprises a flexible elongate body provided with a guide for processing means, and tensioning means for tensioning the flexible body around the curved surface. The invention further relates to a method for welding a pipeline in a number of welding passes making use of such a guide device. Background [0002] Any discussion of the prior art throughout the specification should in no way be considered as an admission that such prior art is widely known or forms part of common general knowledge in the field. [0003] In the welding of pipelines it is known to use a guide band along which a carriage with one or more welding torches is guided. In the laying of pipelines at sea a number of welding steps must generally take place on board ship, these welding steps taking place in different welding stations. According to the known systems an operative of a welding station will indicate on the pipe, for instance using chalk as indicator, the point to which the welding layer has been deposited. The operative of a subsequent welding station must then search for this location and, from this location, carry out a following welding step in which a subsequent welding layer is deposited. Such a working method slows down the welding process and impedes automation thereof. [0004] It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative. [0005] In at least one preferred form, the present invention has for its object to provide a guide device of the type stated in the preamble with which a location along the guide device can be determined in a manner which is simple and can be automated. The guide device is distinguished for this purpose in that the flexible body is provided along its length with indicators arranged according to a determined pattern, this pattern being such that a -3 determined position along the flexible body can be inferred on the basis of the detection of the indicators. Summary of the Invention [0006] According to a first aspect, the present invention provides guide device for use in the processing, in particular welding, of curved surfaces, in particular pipe surfaces, comprising: a flexible elongate body provided with a guide for processing means; tensioning means for tensioning the flexible elongate body around the curved surface; wherein the flexible elongate body is provided on its underside with spacers with spring means, wherein the width and length dimensions of the contact surface between each spacer and the curved surface are small relative to the width and length dimensions of the guide band, wherein the spacer comprises a cup-shaped spring holder, having a first open end directed towards the guide band, characterized in that the cup-shaped spring holder has a second end remote from the guide band in the form of an annular support foot for making contact with the curved surface, wherein the spring means are provided in the cup-shaped spring holder, and are acting between the spring holder and the guide band. [0007] Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in the sense of "including, but not limited to". [0008] In this manner a location on the flexible body can thus be determined with sufficient accuracy on the basis of the pattern of indicators arranged on the flexible body. The location can thus be exactly determined at the end of a welding step, and this location can once again be searched for prior to a subsequent welding step. [0009] A sensor adapted to detect these indicators and a signal processing unit connected to the sensor for determining a location along the flexible body on the basis of the detected indicators are preferably provided. In this away a determined location along the guide band can be determined for further use in a manner which is simple and can be automated.

-4 [0010] According to the preferred embodiment the indicators are holes. The pattern can for instance consist of at least one row of indicators arranged in the lengthwise direction of the flexible body, wherein the mutual distance between adjacent indicators gradually increases. This is a simple pattern which is easy to detect. [0011] According to the preferred embodiment, the pattern comprises a first row of indicators and a second row of indicators parallel thereto, wherein the mutual distance between adjacent indicators of the first and second row increases in opposite directions. In this way the same pattern is seen by the sensor irrespective of the manner in which the guide device is arranged on the curved surface (for instance clockwise or counter clockwise in the case of a pipe surface). [0012] The flexible body is preferably further a metal band, and the indicators are preferably formed by punching holes. [0013] According to a possible embodiment, the metal band has a serrated edge. Such an edge enables the driving of the carriage of the processing means by means of a drive wheel which engages on this edge. [0014] In the case of a guide band arranged around a pipe surface it can be of further importance that it be properly centered and can be arranged with a fixed peripheral length around the pipe surface. This fixed peripheral length is particularly useful when operation takes place with indicators in order to enable detection of the same pattern along the periphery at all times. [0015] Guide bands exist wherein spacers are arranged between the guide band and the pipe surface. Spring means can be arranged therein. However, such spacers typically extend over the full width of the guide band. This has the drawback that the friction between the spacers and the pipe surface on which the guide band is mounted is quite high, which can result in an asymmetrical, non-centered arrangement of the guide band around the pipe surface, wherein the springs are more compressed on one side than on the other. [0016] The present invention further relates to a flexible body for use in a device according to the invention.

-5 Brief Description of the Drawings [0017] Above-mentioned and other features will be further elucidated hereinbelow on the basis of an exemplary embodiment of the guide device according to the invention which is described with reference to the accompanying drawings. In the drawings: [0018] figure 1 shows a detail of an embodiment of the guide band according to the invention arranged around a pipe surface, with a welding torch as processing member; [0019] figure 2 shows a perspective view of an embodiment of the guide band according to the invention; [0020] figure 3A is a top view of the tensioning means of the guide band of figure 2; [0021] figure 3B shows a cross-section along line B-B in figure 3A; [0022] figure 3C shows a cross-section along line C-C in figure 3A; [0023] figure 3D shows a cross-section along line D-D in figure 3A; [0024] figure 4 is a top view of the embodiment of the guide band of figure 3 in detached situation; [0025] figure 5 is a detail of the edge of the guide band shown in figure 4; [0026] figures 6A and 6B show respectively a top view and cross-section along line VI VI of figure 6A of a first part of a spacer; [0027] figures 7A and 7B show respectively a top view and cross-section along line VII VII of figure 7A of a second part of a spacer. Detailed Description [0028] Figure 1 shows schematically a device for welding together pipes B which must be welded to each other on their end edges. The end edges are typically formed such that a weld groove L is created when the pipes are placed against each other.

-6 [0029] Such weld grooves are generally filled in multiple passes of the welding torch, wherein one layer of the welding material at a time is deposited in the groove. One or more welding torches 1 can be used for this purpose. The welding torch is supported by a carriage 2 guided along a guide band fastened around one of the pipe ends. In the shown embodiment welding torch 1 is connected to a flexible feed pipe 5 for a protective gas, although this is not a prerequisite and depends on the welding technique used. The welding device is assumed known per se and does not form part of the invention. [0030] Carriage 2 is provided with four guide wheels 22 which have a U-shaped peripheral surface in which the guide edge 24 of guide band 3 is received. By biasing the opposite guide wheels 22 toward each other, for instance with a spiral spring assembly 25, the pair of wheels is held and pressed firmly against the sides of guide band 3. The driving of carriage 2 along guide band 3 can take place in random manner. In the shown embodiment the driving is performed by means of a drive wheel 26 which engages on the side edge of the guide band and is driven by a drive mechanism (not shown). Such a carriage is assumed known and will not be elucidated in more detail here. [0031] Figure 2 is a perspective view showing an embodiment of guide band 3 according to the invention in a situation where it is formed into a ring. Figure 4 shows a top view of the guide band in the extended state. The guide band is provided on its inner side with spacers 7 in which spring means 10 are arranged. Tensioning means are provided between outer ends 5, 6 and guide band 3 for the tensioning as a ring around the pipe surface. Tensioning means 4 are shown in more detail in figures 3A-3D. A first element 13 of the tensioning means is fastened to outer end 6 using four screws 16. This first element 13 is provided with a threaded bore 14. The second element 15 is fastened to the other outer end 5 using four screws 16. This element is provided with an elongated cavity 17 for placing therethrough of a screw which is tightened in threaded bore 14. [0032] Guide band 3 is further provided with indicators which are arranged in accordance with a determined pattern and which here take the form of holes 8, 8'. The pattern consists here of two sequences of square holes. The first sequence is a number of square holes 8 which are arranged on a peripheral line, wherein the mutual distance between two adjacent holes gradually increases running from outer end 6 to outer end 5. The second sequence is likewise formed by a number of square holes 8' arranged on a peripheral line, wherein the mutual distance between two adjacent holes gradually decreases running from outer end 6 to outer end 5. This gradual increase/decrease is -7 identical for both sequences such that in the case of reverse arrangement of the guide belt, i.e. when outer ends 5 and 6 are interchanged, an identical pattern is obtained. [0033] A sensor (not shown) for detecting this pattern is provided in carriage 2. This sensor is coupled to a signal processing unit adapted to determine the location along the guide belt on the basis of the holes along which the carriage passes and which are detected by the sensor. [0034] During laying of pipelines four to five welding steps must generally take place on the ship, wherein after each welding step the ship travels a determined distance, whereby the weld is carried to the following welding station and the following welding step can be performed. Using the indicators on the guide band and the sensor the final location of the weld is determined after each welding step and transmitted to the following welding station. In the following welding station the welding torch is carried once again to this location using the indicators and the sensor such that the welding step begins exactly at the position where the previous welding step was ended. Very precise welding can thus be carried out in this way. [0035] A possible embodiment of the spacer with spring means will now be described in detail with reference to figures 3A-3D and figures 6A-6B and 7A-7B. Spacer 7 comprises a spring holder 31 and a spring carrier 30 accommodated therein. Spring carrier 30 is connected to the guide band using a screw 38. Spring holder 31 has limited movement in the direction of the guide band. This is realized by providing spring holder 31 with an opening 35 having dimensions which are such that spring holder 31 can move along the periphery of spring carrier 30 in the direction of the guide band. The freedom of movement is herein adjustable by means of a screw 37 (see figure 3B) which protrudes through opening 35 of spring holder 31 and is screwed fixedly into a threaded bore 36 in spring holder 30. Cup springs 10 act between spring carrier 30 and spring holder 31. The form of spring carrier 30 and that of spring holder 31 must therefore be adapted to each other such that spring means can be accommodated in spring holder 31 on the one hand and that spring holder 31 has limited movement relative to spring carrier 30 on the other. In the shown embodiment spring holder 31 is substantially cup-shaped with a bottom 32 provided with an opening 35, and with a cylindrical wall 34. Spring carrier 30 here takes the form of a hollow cylinder 32 in which screw thread is provided and the top end of which is provided with a radially oriented collar 33. The skilled person will however appreciate that other forms are possible for spring holder 31 and spring carrier 30.

-8 [0036] In addition, the contact surface between the spring holder and the curved surface on which the guide band is mounted must preferably be as small as possible in order to limit the friction with the curved surface. To this end spring holder 31 preferably has a rounded bottom, as can best be seen in figure 7B, and the surface area of the annular support surface is preferably as small as possible. [0037] The invention is not limited to the above described embodiment, and certainly not to the processing of pipelines. Any surface on which a flexible guide band can be mounted in suitable manner falls within the scope of the invention. The skilled person will further appreciate that many different patterns of indicators are possible. The scope of protection of the present invention is therefore defined solely by the appended claims.

Claims (10)

1. Guide device for use in the processing, in particular welding, of curved surfaces, in particular pipe surfaces, comprising: a flexible elongate body provided with a guide for processing means; tensioning means for tensioning the flexible elongate body around the curved surface; wherein the flexible elongate body is provided on its underside with spacers with spring means, wherein the width and length dimensions of the contact surface between each spacer and the curved surface are small relative to the width and length dimensions of the guide band, wherein the spacer comprises a cup-shaped spring holder, having a first open end directed towards the guide band, wherein the cup-shaped spring holder has a second end remote from the guide band in the form of an annular support foot for making contact with the curved surface, wherein the spring means are provided in the cup shaped spring holder, and are acting between the spring holder and the guide band.

2. Guide device as claimed in claim 1, wherein the spring holder is mounted for limited movement relative to the guide band.

3. Guide device as claimed in claim 1 or 2, wherein a spring carrier fitting into the spring holder is fixedly connected to the guide band, wherein the spring holder is connected for limited movement to the spring carrier and the spring means engage between spring holder and spring carrier.

4. Guide device as claimed in any one of the foregoing claims, wherein the flexible elongate body is provided along its length with indicators arranged according to a determined pattern, this pattern being such that a determined position along the flexible elongate body can be inferred on the basis of the detection of the indicators.

5. Guide device as claimed in claim 4, wherein a sensor adapted to detect the indicators and a signal processing unit connected to the sensor for inferring a position along the flexible body on the basis of the detected indicators are provided.

6. Guide device as claimed in claims 4 or 5, wherein the indicators are holes. -10

7. Guide device as claimed in claim 4, 5 or 6, wherein the pattern consists of at least one row of indicators, wherein the mutual distance between adjacent indicators gradually increases.

8. Guide device as claimed in claim 4 or 5, wherein the pattern comprises a first row of indicators and a second row of indicators parallel thereto, wherein the mutual distance between adjacent indicators of the first and second row increases in opposite directions.

9. Guide device as claimed in any one of the foregoing claims, wherein the spring means are cup springs.

10. A guide device for use in the processing, in particular welding, of curved surfaces substantially as herein described with reference to any one of the embodiments of the invention illustrated in the accompanying drawings and/or examples.