Abstract:
A method and a device for repairing portions of channels, including non-round channels, is provided by a wound tube wound from a profile strip by a winding machine, the abutting edges of which strip are formed into tight joints, locked inside the wound tube which can be introduced into the portion of the channel to be repaired. A plastic profile strip is drawn from a storage spool and fed to a winding machine arranged in front of one of the openings of the channel to be repaired, the winding machine having a guide rail adapted to the cross-portion of the channel, and adjacent edge regions fed onto this rotating winding former locked in an overlapping manner to form a wound pipe and the pipe is pushed or pulled into the channel portion.

Description:
BACKGROUND AND SUMMARY 
     The invention relates to a method for repairing section of non-round wastewater channels between two revision shafts with wound tubes wound from profile strips in which the abutting edges of successive tube windings of the wound profile strips consisting of or comprising plastic and locked to tight connections form the wound tube that can be introduced into the wastewater channel to be repaired; furthermore, it also relates to a device for carrying out this method. 
     During the removal of wastewater, as a rule wastewater channels are used that are composed of concrete tubes. These concrete tubes are subject to corrosion by the wastewater so that from to time repairs become necessary. For this, it is known that wound tubes wound from extruded plastic profiles are used, among other things. For the repair channel section between two revision shafts are selected in which such a wound tube is introduced until the end of the section of the wastewater channel to be repaired has been reached. In order to form the wound tube the profile strip supplied through the revision shaft is put into tube windings and the abutting edges of successive tube windings of adjacent profile strips are locked to tight connections. A manufacturing device for this is disclosed by DE 696 36 214 T2 and EP 2 085 209 A1. In these disclosed instances the profile strip of plastic is supplied to a winding former that is permanently arranged in the area of the mouth of the wastewater channel to be repaired and in which the profile strip is placed in tube windings and the edge areas of adjacent tube windings are locked in an overlapping manner. In such a manufacture tube windings on tube windings are joined together in this manner to the wound tube and inserted in a rotating manner into the channel piece. Therefore, the use of such methods is limited to the repair of wastewater channels with a round cross section. When used in the area of a non-round channels, then significant cross-sectional areas would have to remain unused. 
     A further development of the above is found in EP 2 085 209 A1 in which the adaptation to deviating diameters as well as to deviating shapes is achieved by a chain-like pressure member in which at least two of the chain members are provided standing inward as compensation means. The profile strip supplied from the outside through the repaired channel section is joined here to windings and the abutting edge areas of successive tube windings are locked to a tight connection overlapping each other. The winding machine moves in accordance with the progress of the manufacturing through the channel to be repaired so that the wound tube is manufactured on site. This procedure seems problematic on account of the winding machine moving through the channel section to be repaired on the one hand on account of the contaminants deposited on the wall of the wastewater channel and on the other hand since in the case of problems with the winding machine the repair has to be made on site in the channel to be repaired. Since instead of round concrete tubes primarily non-round concrete tubes—for example, egg-shaped or mouth-shaped profiles—are frequently used, especially in the case of channel cross sections of wastewater channels that are not too large when damage to be repaired occurs, a repair by the known means is not possible or only insufficiently possible. 
     It is desirable to provide a method for repairing even non-round concrete channels with such plastic profile strips and of indicating a device appropriate for this in which the disadvantages of the prior art are avoided. 
     In order to carry out the previously described method the wound tube is formed from tube windings of a profile strip that are joined together by a winding machine rotating on a guide track in such a manner that adjacent edge areas are brought together and locked. To this end a winding machine is installed on a revision chamber on the bottom of a first revision shaft which machine has a guide track adapted to the cross-sectional shape of the channel to be repaired and comprises a winding former rotating on it and which is installed in front of the mouth of the channel section to be repaired. To this end supports can be provided directed against the walls of the revision chamber or its top and bottom. If these supports are mounted on tracks, this makes possible a shifting that corresponds to the progress of the manufacture. In this case the drawing in of the finished wound tube section takes place discontinuously in pieces corresponding to the possibility of shifting. A certain movability of the winding device can also be achieved by suspending the guide track for example, on chains. 
     A winding former is arranged on the inside of the guide track that laterally encompasses the guide track with C profiles and is held on it by rollers that reach under it and rest on the outside of the guide track in such a manner that it can rotate along the guide track. In order to achieve a smooth rotation the guide track is advantageously composed of several individual pieces that are joined to one another in a smooth manner so that the winding former can smoothly rotate on the guide track independently of its shape and can draw the profile strip in during its rotation. 
     In such a procedure the profile strip is drawn off a storage roll in such a manner that the torsion conditioned by the rotation of the winding former is canceled out. In order to manufacture the wound tube on site this profile strip is supplied to the winding former by the first revision shaft and joined together in the winding former to tube windings whose shape corresponds to the shape of the guide track. The edge areas of adjacent tube windings are locked to each other in an overlapping manner. Since the winding former follows the guide track in its movement, each of the formed tube windings corresponds to the shape of the guide track and therefore also to the cross-sectional shape of the channel section to be repaired. The wound tube is lengthened at each revolution of the winding formed by the width of the profile strip minus the overlap width. Therefore, with a wound tube manufactured in this manner and consisting of or comprising joined tube windings locked to each other in their overlapping edge areas even those can be repaired whose cross section is non-round, for example, wastewater channels with an egg-shaped or mouth-shaped profile in addition to channel sections with a round cross section since the wound tube manufactured in this manner is introduced into the channel section to be repaired without rotation by pushing in or, especially in the case of long channels or ones deviating from a linearity, also be being drawn in, and therefore even their channel repair is made possible. 
     In order to improve the locking connection the edge areas connected to each other are adhered at least in the area of the grooves located in each other with sealing mass or adhesive. The shape of the wound tube given by the guide track is advantageously additionally ensured by a steel wire insert. In this manner a liquid-tight and especially stable wound tube is obtained. 
     The winding former comprises a strip inlet through which the profile strip is supplied. A profile roll ensures that the grooves of the edge area of the last-finished windings of the wound tube come to rest on the adjacent edge area of the supplied profile strip, the profiles of both profile strips are locked by the friction rollers pressing against the profile strips and are brought into the shape set by the guide track. In order to bring about the revolution of the winding former on the guide track, the winding former is provided with at least one drive. The electrically or hydraulically driven motors act to this end via friction rollers or drive rollers on the profile strip that ran in and was formed to a winding as well as on the adjacent profile strip and therefore bring about the advance of the winding former as well as the tightening of the profile strip. In order to achieve a sufficient transfer force, the pressure rollers cooperate with profile counter-rollers. The top of the base body of the winding former facing the windings is preferably also profiled. The outwardly directed profiling of the conjoined profile strips is pressed into these profiles and locked. 
     In order to be able to travel through the possibly narrow curves of the guide track in non-round cross sections the winding former is advantageously constructed in several parts. The part facing the band inlet is formed as a pre-former and the part facing the band outlet is formed as an end finisher. Especially in the case of large dimensions it can be advantageous if other intermediate parts are inserted between the pre-former and the end finisher of the winding former. Furthermore, it is advantageous for the movability of the winding former if the individual parts of the winding former are pivotably articulated to a rocker arm. At least the pre-former as well as the end finisher advantageously comprises its own drive, wherein each of the drives cooperates with the guide track via friction rollers. 
     At each revolution of the winding former on the guide track a new tube winding is placed from the profile strip on the already present tube windings so that each revolution results in a lengthening of the manufactured wound tube by one strip width. The drives can also act here on a profile roller and/or pressure roller at the strip entrance that bring together the edge area of the incoming profile strip onto the edge areas to be overlapped of the edge area of the previous winding that already ran in and was formed to a winding. 
     In order to drive the winding former, electromotors or hydraulic motors are provided whose energy supply takes place preferably close to the center of the guide track. For a smooth rotation of the winding former on the guide track, rotary connections for the electrical lines or hydraulic lines are provided by which even their torsion conditioned by the rotation is counteracted. In order to not hinder a free running in of the profile strip into the winding former, it is advantageous if the energy supplied takes place through the channel section to be repaired. Since the electrical lines or hydraulic lines run to the stationarily positioned winding machines here, they are also stationary. The drive motors act via friction rollers on the guide track and therefore bring about the movement of the winding former. In order to achieve full revolutions of the winding former especially in the case of a narrow curves or in the case of large diameters, it can be advantageous to provide an auxiliary drive on the winding former. The latter is provided as a non-positive or frictionally connected drive on the winding former that acts directly on the guide track. To this end the guide track is advantageously provided with a corrugation or a cogging that, cooperating with the drive gear of the auxiliary drive, ensures the non-positive connection necessary for the desired movement. This auxiliary drive is advantageously articulated to the rocker arm connecting the pre-former and the end finisher and can therefore also pivot opposite them. 
     The profile strip used for the repair is taken off from a storage roll at the mouth of the (first) revision shaft in such a manner that that the rotation of the profile strip produced upon each rotation of the winding former is canceled. To this end the profile strip is drawn off from the standing drum held in its position similar to an air hose, wherein each of the drawn-off drum windings compensates a torsional winding conditioned by the rotation of the winding former. The direction of winding of the profile strip on the storage drum is directed against the torsion caused by the rotation of the winding former. Alternatively, the drum is appropriately rotated, wherein the direction of rotation is directed against the torsion of the profile strip caused by the rotation of the winding former. To this end the drum is placed on a rotary plate above the shaft mouth (wherein the position is set for safety reasons at a level that makes possible an escape out of the revision shaft in case of danger). Alternatively, the drum is moved around the shaft mouth, wherein the direction of rotation is directed against torsion of the profile strip caused by the rotation of the winding former. 
     The finished wound tube can be introduced free of rotation into the channel section with a round or non-round shape to be repaired by the winding former rotating of the guide track. To this end the finished wound tube is pushed into the latter or—in particular in the case of rather long sections of the channel to be repaired—drawn in. The latter counteracts the danger of a buckling of the wound tube so that it is preferred even in the case of misplacement or bends. It is understood that pushing in and drawing in can also be combined. 
     It can be necessary in special instances to move the winding machine away from the mouth of the channel section to be repaired according to the manufacturing progress. To this end it is set up on a baseplate arranged on the bottom of the revision chamber and supported by at least one support against the cover and/or walls, wherein the baseplate is arranged so that it can move on a bottom track and the support/supports are arranged so that they can move on cover tracks with ends constructed as sliding shoes. A baseplate drive is provided for the return at least for the movement of the baseplate with a winding machine. 
     In order to secure the locked overlappings of adjacent profile strips an adhesive or a seal is provided. This supply of an adhesive or of a sealing mass (designated only as “adhesive” without limitation in the following) takes place together with the energy supply via the extension arm directed to the center of the guide track. An adhesive storage with a pump for compensating the torsion caused by the rotating winding former is arranged on the upper plate of the rotary plate of the stand of the storage roll of the profile strip. The adhesive line is run together with the drawn-off profile strip through the first revision shaft to the winding machine. Alternatively, the adhesive supply is provided through the second revision shaft, wherein the adhesive line runs together with the hydraulic lines through the second revision shaft to the winding machine and is connected to the winding machine by a rotary connection. 
     In order to introduce the adhesive between the edge areas of the last manufactured tube winding of the wound tube to be joined together and of the supplied profile strip, an adhesive supply with adhesive nozzle connected to the rotary connection runs in such a manner between these edge areas that exiting adhesive passes into the locking area and is applied and distributed there under the action of the profile roller and the pressure roller. For this application the adhesive nozzle is brought—on account of the rotation of the winding former—in a brushing manner onto the groove receiving the adhesive. A special stability is achieved if the profile strip used consisting of or comprising a thermoplastic elastomer is extruded while supplying a jet charge. 
     The introduction of the manufactured wound tube into the channel section to be repaired takes place primarily by advance, wherein the wound tube grows by a length upon each rotation of the winding former corresponding to the width of the profile strip minus the width of the overlap. In order to avoid buckling in rather long channel sections to be repaired, a traction device is provided that attacks the free end of the finished wound tube. The finished wound tube is drawn in quasi-continuously into the channel section to be repaired in accordance with the progress of the manufacturing. To this end a traction device is provided that is either arranged in the next-following revision shaft, wherein the traction table is run through the channel section to be repaired, or which is provided above ground in the vicinity of the shaft mouth of the second revision shaft, whereby the traction cable is run through the second revision shaft and the channel section to be repaired. 
     This traction device is either controlled by the manufacturing and draws the wound tube in accordance with the progress of the manufacturing in a continuously following manner into the channel section. Alternatively, a discontinuous drawing in is provided in which the winding machine is preferably set up in its revision chamber and moves in accordance with the progress of the manufacturing away from the channel mouth until a given length of the wound tube with the width of the revision chamber has been manufactured. This length is then drawn into the section of the channel piece to be repaired by the traction device that acts on the manufactured wound tube. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       An exemplary embodiment of the invention is shown in the drawings in a purely schematic manner and is described in detail in the following. In the drawings 
         FIG. 1  shows an overview of a channel repair (only the first revision shaft); 
         FIG. 2  shows a detail of the profile strip supplying—the bringing together of profile strip and wound tube with the supply of adhesive; 
         FIG. 3  shows the winding former with strip supply and connections. 
         FIG. 4 a    shows a view of the winding machine arranged on the bottom of the revision shaft with guide track (1 st  possibility of arrangement); 
         FIG. 4 b    shows a view of the winding machine arranged on the bottom of the revision shaft with guide track (2nd possibility of arrangement); 
         FIG. 4 c    shows a view of a traction device arranged in the bottom of the following revision shaft; 
         FIG. 5 a    shows a detail of a guide track with winding former from the supply side of the profile strip; 
         FIG. 5 b    shows a detail of a guide track with winding former from the outlet side of the profile strip; 
         FIG. 6 a    shows a detail of a guide track with winding former with a wound tube starting from the supply side of the profile strip; 
         FIG. 6 b    shows a detail of a guide track with winding former with a wound tube from the outlet side of the wound tube; 
         FIG. 7 a    shows a detail of a winding former from the supply side of the profile strip; (perspective top view); 
         FIG. 7 b    shows a detail of the winding former (perspective top view); 
         FIG. 7 c    shows a detail of the winding former (perspective bottom view); 
         FIG. 8  shows a detail of the winding former with auxiliary drive and connections. 
     
    
    
     DETAILED DESCRIPTION 
     The  FIGS. 1, 2 and 3  schematically show the repair of a channel section  3 . It takes place starting from a first revision shaft  1  to a second revision shaft  1 ′ section by section with the aid of a wound tube  4  produced by the winding machine  20  (described in detail further below) from a profile strip  4 . 1 . The profile strip  4 . 1  is drawn off from a band supply on a storage drum  5  that is set up above ground during the repair of underground channel tubes ( 3 ). The profile strip  4 . 1  is supplied to the winding machine  20  through the revision shaft  1 . The latter is set up on site in the revision chamber  2  arranged on the bottom of the first revision shaft  1  at the beginning of the channel  3  to be repaired and comprises a guide track  25  on which the winding former  30  is arranged in such a manner that it can freely rotate on the guide track  25 . 
     Since the profile strip  4 . 1  is twisted upon each revolution of the winding former  30 —as  FIG. 2  shows—its drawing off from the storage drum  5  with the storage drum  5  being stationary is similar to that of an air hose. Alternatively, the storage drum  5  held by a drum holder  5 . 1  is set up on a rotary plate with a bottom plate  6 . 1  and an upper plate  6 . 2  over the shaft mouth  1 . 1  on a stand  7  in such a manner that the torsion of the profile strip  4 . 1  produced by the rotation of the winding former  30  is canceled out by the rotation of the storage drum  5  obtained when it is being drawn off. The rotation of the upper plate  6 . 2  can be supported here by a motor drive  6 . 3 . 
       FIG. 3  shows in a simplified manner the bringing together of the profile strip  4 . 1  in the schematically shown winding former  30  with the last one of the windings of the already wound wound tube  4 . This profile strip  4 . 1  is guided from the storage drum  5  through the first revision shaft  1  ( FIG. 1 ) to the winding machine  20  and introduced into the winding former  20 . The profile strip  4 . 1  runs into the winding former  20  here in such a manner that that its smooth surface  4 . 2  facing the inner wall of the wound tube  4  forms the latter, wherein the side  4 . 3  of the profile strip  4 . 1  provided in the profiles is directed outward with the lateral catch strips  4 . 4 . The winding former  30  runs around the guide track  25 , which leads to the torsions of the profile strip  4 . 1  (not shown in detail). The profile strip  4 . 1  supplied from the strip guidance  40  ( FIG. 5 ) to the winding former  30  is received by the profile roller  34 . 1  in such a manner that its edge area  4 . 4 , facing the last winding of the finished wound tube  4 , and the round the area of the profile strip binding this last winding lie superposed over one another and engage in one another by the counter-pressure of the pressure roller  32 . 3 . The final locking then takes place under the contact pressure of the drive rollers  33 . 1  and  32 . 2  of the pre-former  30 . 1  and final finisher  30 . 2  by the counter-pressure of the pressure rollers  34 . 1  and  34 . 1  so that the winding, which is therefore newly formed, is firmly connected to the previous winding. The adhesive removed from the adhesive storage  50  by the adhesive pump  51  (both in  FIG. 1 ) via the adhesive supply  54  (only in  FIG. 7 ) is introduced between the edge area  4 . 4  of the profile strip  4 . 1  and the edge area of the profile strip forming the last winding of the wound tube  4 , that are to be joined to one another, which adhesive then ensures an appropriate distribution for a reliable and tight connection of the edge areas to be joined to one another. 
     As an alternative embodiment according to  FIG. 2 b   , a movable positioning of the winding machine  20  in the revision chamber  2  advantageously brings about a discontinuous drawing in of the finished section of the wound tube  4  by the traction device  10 ′. To this end the winding machine  20  stands on a base plate  21  set up on bottom tracks  22 . Furthermore, cover tracks  24  are provided for the supports  23  directed toward the cover of the revision chamber  2  and/or its walls on which cover tracks the free ends, designed as sliding shoes  23 . 1 , of the supports  23  are guided. The winding machine  20  set up in this manner can be removed in the revision chamber  2  from the mouth of the channel  3  to be repaired as a function of the progress of the manufacture. The finished wound tube  4  is drawn in discontinuously here, wherein the maximal length corresponds to the width of the revision chamber  2 . 
     The  FIGS. 4 a  and 4 b    show the winding machine in the bottom of the first revision shaft. The wound tube  4  finished in this manner is pushed into the channel  3  to be repaired in accordance with the progress of the manufacture. In order to counteract a buckling, conditioned by the progress of the manufacture, of the wound tube  4  in the case of long or uneven channels, the winding machine  20  has a certain movability that—as shown in  FIG. 4 a   —can be achieved in the simplest case by suspension  24 . 1 , for example, on a cross track  24 . Alternately, the winding machine  20  is supported by supports  23  against the bottom, the cover and/or the walls of the revision chamber  2 . Furthermore, it is advantageous if the winding machine  20  stands on a base plate  21 . 
     A movable positioning of the winding machine  20  in the revision chamber  2  shown in  FIG. 4 b    is advantageous for a discontinuous drawing in of the finished section of the wound tube  4  by the traction device  10 . To this end the winding machine  20  stands on a base plate  21  positioned on bottom tracks  22 . Furthermore, cover tracks  24  are provided for the supports  23  directed toward the cover of the revision chamber  2  and/or its walls on which cover tracks the free ends of the supports  23 , that are constructed as sliding shoes  23 . 1  are guided. The winding machine  20  set up in this manner can be removed in the revision chamber  2  from the mouth of the channel  3  to be repaired in accordance with the progress of the manufacture. The finished wound tube  4  is drawn in discontinuously, whereby the maximal length corresponds to the width of the revision chamber  2 . 
       FIG. 4 c    shows in an advantageous manner a cooperation of the winding machine  20  with a traction device  10  that acts on the end of the finished wound tube  4  via a winch  11  arranged on a frame  12 , provided with a drive motor  13  and with a collectible traction cable  14 . This traction device  10  can be placed either in the revision chamber  2 ′ of the second revision shaft  1 ′, which chamber is located at the end of the section of the channel  3  to be repaired or, as an alternative the traction cable  14  is conducted by the above-ground traction device  10 —as  FIG. 1  shows—through the shaft mouth  1 . 1 ′ of the second revision shaft  1 ′ to the traction assembly  15  and into the latter to which the traction cable  14  is attached for drawing the finished wound tube  4  forward. The winch  11  is advantageously controlled in such a manner that the finished wound tube  4  is drawn into the channel  3  to be repaired in accordance with the progress of the manufacture. 
       FIGS. 5 to 8  show the winding machine  20  with winding former  30  and details of the winding former  30 . In order to produce non-round wound tubes  4 , the winding former  30  with supply  40  for the profile strip  4 . 1  to be processed rotates on the guide trace  25  adapted to the cross-sectional shape of the channel to be repaired. In order that the guide track  25  can be readily adapted to the desired shape and the winding former  30  can rotate on it without hindrance, the guide track  25  is advantageously joined together from several partial pieces  26  that merge smoothly into each other at the joints  27 . The winding former  30  is guided with the C profiles  31 . 1  and  31 . 2  laterally surrounding the guide track  25  on the guide track  25  and held by the counter-holding rollers  32 . 1  and  32 . 2  extending behind the guide track  25 . This construction conditions a reliable seat of the winding machine  30  on the guide track  25  and its ability to move freely on it. 
     In order to make it possible for the guide track  25  to rotate freely even in narrow curvatures, the winding former  30  is advantageously composed of several parts—in the drawings two parts are shown, the one as a pre-former  30 . 1  and the other as an end finisher  30 . 2 —that are articulated on both sides to rocker arms  30 . 3 . In order to show the winding former  30  on the guide track  25 , C-shaped guide shoes  31 . 1  and  31 . 2  are provided on the base body  31  which are provided with counter-holding rollers  32 . 1  and  32 . 2  extending behind the guide rail  25  for bringing about this hold. 
     The wound tube  4  produced in this manner—as the  FIG. 4  show—is pushed into or drawn into the channel section  3  to be repaired. In order to counteract a buckling of the wound tube  4  conditioned by the progress of the manufacture in the case of long or uneven channels, the winding machine  20  has a certain movability that can be achieved in the simplest case by suspension  24 . 1 , for example, on a holder in the area of the shaft mouth  1 . 1  of the first revision shaft  1  or on a cover track  24  arranged in the revision chamber  2 . Alternatively, the winding machine  20  is supported by supports  23  against the bottom, the cover and/or the walls of the revision chamber  2 . Furthermore, it is advantageous if the winding machine  20  stands on a base plate  21 , in particular if the latter can be moved on the track  22 . 
     The supplied profile strip  4 . 1  is taken by a strip inlet  40  arranged on the pre-former  30 . 1  and placed in the performer  30 . 1  and in tube windings during its movement along the guide track  25  that follow each other in such a manner that the edge areas of two successive tube windings overlap. The bringing together of the profile strip  4 . 1  with the wound tube  4  can be schematically recognized in  FIG. 7 . The profiling of the profile strip  4 . 1  as well as of the wound tube  4  is represented by the parallel line (that is sketched in weaker). The bringing together takes place between the profile roller  34 . 1  and the pressure roller  36 . 1  and the locking of the edge profiles of the last of the finished tube winding of the wound tube  4  with the supplied profile strip  4 . 1 , which edge profiles engage with each other during the bringing together, takes place between the friction rollers for the drive  33 . 1  and  33 . 2  and between counter-rollers  33 . 3  and  33 . 4  cooperating with the latter and appropriately profiled (only  FIG. 8 —due to the representation of  FIG. 5 a    only the profile roller  34 . 2  cooperating with the pressure roller  32 . 2  can be recognized). 
     The edge areas of the profile strips  4 . 1 , which areas are provided with profiles corresponding to each other, are placed in each other during the joining together and are locked in a known manner to the wound tube  4 . Therefore, the length of the wound tube  4  increases upon each rotation of the winding former  30  on the guide track  25  by the width of the profile strip  4 . 1  reduced by one overlapping width. 
     The top of the base body  31  facing the profile strip  4 . 1  is advantageously profiled by pre-former  30 . 1  and end finisher  30 . 2 —as well as also between both other inserted partial pieces of the winding former  30 —in accordance with the profile of the profile strip  4 . 1 . The outwardly directed profile of the profile strip  4 . 1  formed to the wound tube  4  and joined together, is pressed into the profiling under the pressure of the pressure rollers  32 . 1  and  32 . 1 —not shown in detail in the figures—and therefore locked. Furthermore, as a result of this profiling the transfer of force from the pressure rollers  32 . 1  and  32 . 2  onto the smooth inside of the profile strip  4 . 1  formed to the wound tube  4  and joined together is improved and therefore the advance of the winding former  30  is also improved. 
     The manufacture of the wound tube  4  from the supplied profile strip  4 . 1  takes place by the winding former  30  rotating on the guide track  25  of the winding machine  20 . The latter is constructed in a multipartite manner in order to achieve a good mobility for the rotation especially in the case of narrowly bent guide tracks. Its part facing the supply  40  for the profile strip  4 . 1  to be processed is constructed as pre-former  30 . 1  and its following part is constructed as an end finisher  30 . 2  that are connected by a rocker arm  32  to which these two parts are pivotably articulated. The parts can be inserted between these two parts as intermediate parts, which is particularly advantageous in the case of large dimensions of the wound tube to be manufactured. 
     For rotating on the guide track  25  winding former  30  arranged on it is equipped with its own drive. In the case of winding former  30  constructed in several parts each of these parts  30 . 1 ,  30 . 2  advantageously has its own drive motor  36 . 1 ,  36 . 2  that brings about the progression of the winding former  30  on the guide track  25  by acting on the friction rollers  33 . 1 ,  33 . 2  of these parts. The friction rollers  33 . 1 ,  33 . 2  cooperate with the last-placed tube winding of the finished wound tube  4  and with the supplied profile strip  4 . 1 . It is understood that even other drives can be provided instead of the friction rollers. 
     The two parts  30 . 1 ,  30 . 2  of the winding former  30  comprise C profiles  31 . 1  for the pre-former  30 . 1  and  31 . 2  for the end finisher  30 . 2  which profiles laterally receive the profile of the guide track  25 , wherein corresponding counter-holding rollers  32 . 1  and  32 . 2  are arranged on them and extend behind the received edge area of the guide tracks  25  and therefore ensure a reliable seating of the pre-former  30 . 1  as well as of the end finisher  30 . 2  of the winding former  30  on the guide track  25 . The friction rollers  33 . 1  and  33 . 2  act on the profile strip  4 . 1  to be formed to the wound tube  4  and therefore bring about a drawing in of the profile strip  4 . 1  and its placing into tube windings in addition to the rotation on the guide track  25 , wherein adjacent edge areas are joined to each other in an overlapping manner. The drives  36 . 1  and  36 . 2  act via back-gear transmissions  36 . 1  and  36 . 2  on the friction- or drive rollers  33 . 1  and  33 . 2  of each of the parts  30 . 1  and  30 . 2  and also on their profile rollers  34 . 1  and  34 . 2  that bring about the locking of the edge areas of adjacent tube windings of profile strips, the shape of which profile rollers corresponds at least to the profile of the edge areas of the profile strip  4 . 1  used for the manufacture and therefore ensure an adaptation of the driving speed of each of the drives  36 . 1 ,  36 . 2  relative to the speeds required for the advance of the winding former  30  via the friction- or drive rollers  33 . 1 ,  33 . 2  and for that of the profile rollers  34 . 1  and  34 . 2 . 
     In order to achieve an adhering or sealing in the area of the overlapping of two adjacent profile strips, adhesive or sealing mass is supplied. To this end a third line is provided in  FIG. 1  as adhesive line  52  in addition to the lines for the hydraulic advance  46 . 1  and the hydraulic return  46 . 2  via which line  52  the adhesive that can be taken from an adhesive store  50  by a pump  51 —shown in the representation as an immersion pump—and is supplied to the winding former  30  via the adhesive line  52 . This line is run together with the lines  46 . 1 ,  46 . 2  through the second revision shaft  1 ′ with the revision chamber  2 ′ into the section of the channel  3  that has not yet been repaired or only partially repaired, which section ends at the winding former  30 , wherein the friction rollers for the lines can be provided as required in the revision chamber  2 ′. Appropriate hydraulic rotary connections  47  are provided on the winding former  30  for the compensation of torsions conditioned by its rotation for the hydraulic lines  46 . 1 ,  46 . 2  and a rotary adhesive connection  53  is provided for the adhesive line  52  that are advantageously provided on an extension arm  40 . 1  directed toward the center of the guide track  25 . 
     From the hydraulic rotary connections the hydraulic advance and the hydraulic returns run to a hydraulic distributor  47 . The lines for the hydraulic advance and hydraulic return run to the corresponding motors from the outputs  47 . 1  of the hydraulic distributor for the drive  36 . 1  of the pre-former  30 . 1 ,  47 . 2  for the drive  36 . 2  of the end finisher  30 . 1  and—if—provided  47 . 3  for the auxiliary drive  43  that supports the drives  36 . 1  and  36 . 2  of the winding former  30  and acts directly on the guide track  25  (not shown in detail). The adhesive line  52  runs from its rotary connection  53  via an adhesive supply line  54  that empties into an adhesive nozzle  55 . This nozzle is located between the edge areas of the last tube winding of the already finished wound tube  4  that are to be locked to each other and between the following tube winding of the supplied profile strip  4 . 1  and therefore allows the adhesive to pass into this overlapping area and between two or more ribs of the locking area of the profile bands. In order to reliably apply the adhesive also in the upside-down position conditioned by the rotation of the winding former  30  on the guide track  25 , the nozzle mouth of the adhesive nozzle lies in a brushing manner on the groove receiving the exiting adhesive between the ribs of the particular edge area, preferably of the supplied profile strip. In this manner the adhering can be achieved in the forming of a wound tube by a winding machine  20  with a rotating winding former  30 , wherein it is also understood that the adhesive store  50  is also provided on the upper plate  6 . 2  carrying the storage drum  5  for the supply of profile strips  4 . 1 , wherein the adhesive line  52  is supplied together with the drawn-off profile strip  4 . 1  to the winding machine  20 . In this arrangement no additional rotary connection for the adhesive line is needed on account of the arrangement on the rotary plate  6 . 2  rotating in accordance with the drawing-off of the strips. 
       FIG. 8  shows the connection of the supply lines to the winding former  30 . The hydraulic drives  36 . 1  and  36 . 2  are supplied with energy via the hydraulic lines for the supply line  46 . 1  and for the removal line  46 . 2  connected to the hydraulic generator  45 . The infeed takes place via rotary connections  47 . 1  and  47 . 2  with which the torsion of the lines  46 . 1 ,  46 . 2  caused by the rotation of the winding former  30  as well as the adhesive line  52  is compensated. The outputs (not shown in detail) run to a hydraulic distributor  48  that distributes the hydraulic fluid via the connections  48 . 1  and  48 . 2  for the advance flow and the return flow onto the individual hydraulic motors  36 . 1  and  36 . 2  driving the friction rollers  33 . 1 ,  33 . 2 . The third connection  48 . 3  supplies the auxiliary drive  43  ( FIG. 6 ). The adhesive line  52  coming from the adhesive pump  51  is conducted via the rotary connection  53  to the winding former  30 . The output of the rotary connection  53  runs via the adhesive supply line  54  to the joining together of already finished wound tube  4  and to the profile strip  4 . 1  and empties in an adhesive nozzle  55  arranged between these two in the overlapping range. 
     A control stand  49  with a hydraulic device  45  ( FIG. 1 ) supplies the energy for the drives constructed as hydraulic motors; a switch box  49 . 1  allows the controlling and monitoring of the system. The hydraulic device  45  also comprises an adhesive supply  50  with pump  51 —represented as an immersion pump—to whose output the adhesive line  52  is connected via which the adhesive is supplied to the winding former  30 . The hydraulic hoses  46 . 1 ,  46 . 2  and also the adhesive line  52  are connected to the winding former  30  of the stationarily erected winding machine  20  and therefore also remain stationary in the channel. Wound tube  4  extends over them in accordance with the progress of the manufacturing. 
     LIST OF REFERENCE NUMERALS 
     
         
           01  first revision shaft 
           01 . 1  shaft mouth 
           01 ′ second revision shaft 
           01 . 1 ′ shaft mouth 
           02  first revision chamber 
           02 ′ second revision chamber 
           03  channel tube, channel section 
           04  wound tube 
           04 . 1  profile strip 
           05  storage drum 
           05 . 1  drum holder 
           06  rotary plate 
           06 . 1  lower plate 
           06 . 2  upper plate 
           06 . 3  motor drive 
           07  stand 
         
           08 
         
         
           09 
         
           10  traction device 
           11  winch 
           12  frame 
           13  drive motor 
           14  traction cable 
           15  traction assembly 
         
           16 
         
         
           17 
         
         
           18 
         
         
           19 
         
           20  winding machine 
           21  base plate of the winding machine 
           21 . 1  return drive 
           22  bottom track 
           23  support 
           23 . 1  sliding shoe 
           24  cover track 
           24 . 1  suspension of the winding machine 
           25  guide track 
           26  partial piece off the guide track 
           27  joint (between two partial pieces joined together) 
           28 : 
           29 : 
           30  winding former 
           30 . 1  pre-former 
           30 . 2  end finisher 
           32  rocker arms 
           31  base body 
           31 . 1  C-shaped guide shoe 
           31 . 2  C-shaped guide shoe 
           31 . 1  laterally surrounding C-profile 
           31 . 2  laterally surrounding C-profile 
           32 . 1  pressure roller 
           32 . 2  pressure roller 
           32 . 3  counter-holding roller 
           32 . 4  counter-holding roller 
           33 . 1  friction roller for the drive 
           33 . 2  friction roller for the drive 
           34 . 1  profile roller 
           34 . 2  profile roller 
           35  pressure roller 
           36 . 1  hydraulic motor 
           36 . 2  hydraulic motor 
           37 . 1  back-gear transmission 
           37 . 2  back-gear transmission 
         
           38 
         
         
           39 
         
           40  strip supply 
           41  strip inlet 
           42  strip outlet 
           43  auxiliary drive 
         
           44 
         
           45  hydraulic device hydraulic generator 
           46 . 1  hydraulic lines—advance line 
           46 . 2  hydraulic lines—return line 
           47  hydraulic distributor 
           47 . 1  first connection (with hydraulic advance and return) 
           47 . 2  second connection (with hydraulic advance and return) 
           47 . 3  third connection (with hydraulic advance and return) 
           48 : 
           49  control stand 
           49 . 1  switch box 
           50  adhesive storage 
           51  pump, adhesive pump 
           52  adhesive line 
           53  rotary connections for adhesive line 
           52  lines for adhesive  52 , adhesive line 
           53  rotary connection 
           54  adhesive supply 
           55  adhesive nozzle