EP3243576B1 - Device for processing the inside of inaccessible pipes and pipe networks using high pressure fluid blasting - Google Patents

Device for processing the inside of inaccessible pipes and pipe networks using high pressure fluid blasting Download PDF

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Publication number
EP3243576B1
EP3243576B1 EP16168758.7A EP16168758A EP3243576B1 EP 3243576 B1 EP3243576 B1 EP 3243576B1 EP 16168758 A EP16168758 A EP 16168758A EP 3243576 B1 EP3243576 B1 EP 3243576B1
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EP
European Patent Office
Prior art keywords
nozzle
pipe wall
pipe
jet
parallel
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EP16168758.7A
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German (de)
French (fr)
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EP3243576A1 (en
Inventor
Ljubisa Zlatkovic
Jens Bauer
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IMS Robotics GmbH
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IMS Robotics GmbH
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Priority to EP16168758.7A priority Critical patent/EP3243576B1/en
Publication of EP3243576A1 publication Critical patent/EP3243576A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/02Cleaning pipes or tubes or systems of pipes or tubes
    • B08B9/027Cleaning the internal surfaces; Removal of blockages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/02Cleaning pipes or tubes or systems of pipes or tubes
    • B08B9/027Cleaning the internal surfaces; Removal of blockages
    • B08B9/04Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes
    • B08B9/043Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes moved by externally powered mechanical linkage, e.g. pushed or drawn through the pipes
    • B08B9/0433Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes moved by externally powered mechanical linkage, e.g. pushed or drawn through the pipes provided exclusively with fluid jets as cleaning tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/02Cleaning pipes or tubes or systems of pipes or tubes
    • B08B9/027Cleaning the internal surfaces; Removal of blockages
    • B08B9/04Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes
    • B08B9/049Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes having self-contained propelling means for moving the cleaning devices along the pipes, i.e. self-propelled
    • B08B9/0495Nozzles propelled by fluid jets

Definitions

  • the invention relates to a device for processing the interior of inaccessible pipes and pipe networks by means of high-pressure jets of a fluid with or without an abrasive.
  • a corresponding device for cleaning pipes is in the DE 196 26 590 A1 disclosed. This device consists of a transport device and a rotating nozzle device. In order to avoid damage to the inner wall of the pipe due to a standstill of the rotary nozzle, an additional rotational movement of the nozzle arrangement is provided.
  • the guide elements can also be designed to be collapsible in order to enable adaptation to different pipe diameters.
  • a minimal distance between the nozzle arrangement and the inner wall of the pipe is aimed for.
  • an angle of the high pressure jet that deviates from 90 ° to the inner wall of the pipe is desired.
  • a device for processing channel walls of closed channels by means of high-pressure liquid jets is from the EP 2 891 526 A1 known.
  • the device has a nozzle body with at least one jet nozzle, which is arranged at the front end of the device and for Generation of a forward directed, focused jet of a liquid jet medium is suitable.
  • the alignment of the beam "forwards" includes that the beam direction coincides with the channel axis and also that the beam or beams have an angle - 90 ° ⁇ ⁇ + 90 ° with respect to the channel axis, depending on the type of to eliminating obstacles and adhesions.
  • this device comprises a carriage for moving and positioning the nozzle body in the channel and a media supply for supplying the jet nozzle with a jet medium under high pressure.
  • the carriage and the nozzle body are designed in such a way that both can be positioned and moved at least along their entire underside at a distance from the wall.
  • the trolley includes suitable movement and support elements that enable the trolley to move and support it in at least two directions relative to the canal wall.
  • the support of the device for the canal wall can be done with the help of slide bearings, skids or support wheels.
  • the angle ⁇ of the jet direction of the jet nozzles to the channel axis can be set in the range of -90 ° ⁇ ⁇ + 90 °, whereby an adjustability between -15 ° ⁇ ⁇ + 15 ° is sometimes considered sufficient.
  • the object of the invention is to provide a device which, with high cleaning performance, places less stress on the pipe wall and thus causes less damage.
  • the device comprises a guide device for guiding the nozzle.
  • the device is used to process the interior of inaccessible pipes or pipe networks using high-pressure fluid technology.
  • the device is suitable both for use with and for use without abrasives.
  • the device Due to several bearings and gears, the device is able to bring the nozzle into suitable positions by means of the guide device and to align the emerging nozzle steel in such a way that optimal removal of the dirt in the pipe is guaranteed.
  • the device allows various types of movement of the nozzle or the guide device, such as an axial movement, a rotational movement or a pivoting movement, to be carried out.
  • the device reaches all areas of the pipe wall, since when the device is guided parallel to the pipe inner wall, the device rotates around the pipe axis or around a Pipe axis parallel axis is possible. In this way, all areas of the pipe can be cleaned efficiently without the pipe walls being damaged by the high pressure jets of the fluid.
  • the nozzle jet is guided parallel to the pipe wall. A jet guided parallel to the pipe wall cannot cause any damage to the pipe wall at the correct distance.
  • the guide device is also suitable for guiding the at least one nozzle with parallel alignment of the at least one nozzle jet emerging from the nozzle for guiding the at least one nozzle with an alignment of the at least one nozzle jet in which the at least one nozzle jet within the pipe to the pipe wall , to which the at least one nozzle is approached or to which it rests, inclined slightly towards or slightly inclined away from this pipe wall, in such a way that the pipe wall is not damaged.
  • the guide device is designed as a slide shoe and / or as a guide carriage which can be guided along the pipe wall.
  • the guide device preferably comprises a scanning device with an adjustment.
  • the distance between the at least one nozzle jet and the pipe wall is kept as small as possible by means of scanning.
  • the guide device preferably has a sensor, by means of which the distance between the at least one nozzle and / or the at least one exiting nozzle jet and the parallel spaced pipe wall can be determined a nozzle jet is realized to the parallel spaced pipe inner wall.
  • a correction or optimization of the position can be repeated at regular time intervals.
  • a pivoting movement of the device enables the device to be deflected in such a way that the at least one nozzle points in the direction of the center of the pipe. This means that dirt in the middle of the pipe can also be removed will.
  • the infeed device and / or the pivoting device of the device comprises one or more inclination limiting devices which ensure that the at least one nozzle jet, which is guided parallel to the pipe wall, can only be inclined towards the pipe wall to such an extent that the pipe wall is not damaged.
  • the inclination can be limited by a regulation.
  • An inclination of the nozzle jet in the direction of the pipe wall on which the guide rests or to which the distance has been minimized takes place only at very small angles, preferably in the range from 0 ° to 10 °, the largest possible angle also depending on the sensitivity of the particular used Depends on the pipe material.
  • the nozzle jet can also be inclined away from the pipe wall on which the guide rests or to which the distance has been minimized, in which case the inclination limiting device is also used to limit the inclination, preferably within a range of 0 ° to -10 °. In any case, it should be prevented that the nozzle jet hits the pipe wall too close. If the distance of the at least one nozzle jet is greater until it strikes the pipe wall, the nozzle jet is widened to a greater extent and, if the angle is smaller, the point of impact takes up a larger area. This means that the force emanating from the nozzle jet per area of the pipe wall is lower. For this reason, if the angle is limited, the likelihood of damage to the pipe wall is significantly lower.
  • the feed device comprises one or more rearwardly directed bores or nozzles to which the fluid medium can be fed and by means of which a feed movement of the device based on the recoil can be generated by jets of the fluid medium flowing out of the bores or nozzles .
  • the device comprises a chassis with wheels for the axial feed movement.
  • the distance between the at least one nozzle and / or the guide device and the pipe wall is fixed. That is to say, no delivery device is provided in this embodiment.
  • this device contains a pivoting device for deflecting the at least one nozzle jet from parallelism to the pipe wall in the direction of the center of the pipe in order to be able to remove dirt / deposits in the center of the pipe.
  • This device is particularly suitable for round pipes. With a fixed setting of the distance between the guide device and the pipe wall in round pipes, regular position control can be dispensed with. Regular scanning is then not necessary.
  • the feed device is suitable for moving the at least one nozzle and / or the guide device in the direction of the pipe center in order to be able to remove the dirt / deposits also in the pipe center, with the at least one nozzle jet maintaining the parallelism to the pipe wall.
  • the pivoting device is designed in such a way that, in addition to deflecting the at least one nozzle jet, it also allows the at least one nozzle and / or the guide device to be brought closer to the pipe wall while maintaining the parallelism of the at least one Nozzle jet is suitable for the spaced pipe wall.
  • a device 1 for processing the interior of inaccessible pipes and pipe networks within a pipe 2 to be cleaned is shown schematically.
  • This device 1 comprises a nozzle 3 which is movable relative to the inner pipe wall 2a and which is arranged at the front end of the device 1 for generating a forwardly directed, bundled high-pressure nozzle jet 4a of a fluid, for example water.
  • the fluid can be present with or without an abrasive.
  • the device 1 comprises a media supply 5 for supplying the nozzle 3 with the fluid medium under high pressure.
  • the media supply 5 is a hose 5 connected to the nozzle 3.
  • the device 1 comprises a housing 6 in which the hose 5 is passed through the housing 6 along a longitudinal axis 7 running through the housing 6, which is shown in FIG Fig. 1 is not shown in detail.
  • the nozzle 3 is attached to a front end region 5 a of the hose 5, which is located outside the housing 6, that is to say in front of the housing 6.
  • the nozzle 3 is encompassed or at least held by a guide device 8. This enables the nozzle 3 to be guided with an orientation of the The nozzle jet 4a emerging from the nozzle 3 parallel to the pipe wall 2a.
  • the distance between the nozzle jet 4a emerging from the nozzle 3 and the pipe wall 2a can be minimized by a feed movement 9 by means of a feed device (not shown), for example by placing the nozzle 3 and / or the guide device 8 on the pipe wall 2a.
  • a rotary movement 15 of the nozzle 3 can take place by means of a rotary device with a rotary drive, which is located in the front part 6a of the housing 6, which enables processing / cleaning in different areas of the pipe wall 2a and effectively removes the deposits 14.
  • the nozzle 3 or the guide device 8 can be aligned in the axial direction, that is to say in the direction or parallel to the pipe axis 16, by means of a corresponding feed movement 17 of the entire device 1.
  • the feed device for the axial feed of the nozzle 3 comprises a plurality of rearwardly directed bores 18, to which the fluid medium can be fed and by means of which a feed movement 17 based on the recoil of the device through the jets 4b of the outflowing from the bores 18 fluid medium can be generated.
  • the device comprises at least one camera 19 for detecting the contamination 14 and for observing the alignment and deflection of the nozzle 3.
  • a variant of the device 1 can be seen within a tube 2, which has a chassis 20 with wheels 20a, 20b, which is connected to the body 1a of the device 1, which acts as a carrier for the rotating device for the rotational movement 15, the pivoting device and the Delivery device acts. Together with the chassis 20, a feed movement 17 of the entire device 1 can thus take place in the axial direction, that is to say along or parallel to the pipe axis 16.
  • the pivot device comprises a further pivot axis 21 for the guide device 8, which is connected to the front part of the arm 12.
  • a carrier part 22 for the guide device 8 is mounted on this pivot axis 21, so that the pivot movement 10 of the guide device 8 can take place about this pivot axis 21.
  • the arm 12 and the pivot axes 11, 21 can also function as part of a feed device for approaching and / or placing the nozzle and / or the guide device on the pipe wall in order to minimize and / or maintain the distance between the nozzle jet and the pipe wall 2a, which is spaced parallel to one another.
  • This length-adjustable support arm 23 is at its rear end via a pivot axis 24 with the body 1 a of the device 1 and at its front end via a further, second pivot axis 25 of the Guide device 8 is connected to the front region of the carrier part 22.
  • the pivoting movement of the arm 12 and the movement of the adjustable-length support arm 23 can be coordinated in such a way that during an infeed movement 9 of the carrier part 22 and thus of the guide device 8 with the nozzle 3, the emerging nozzle jet 4a remains aligned parallel to the pipe wall 2a.
  • the type of interaction between the arm 12 and the length-adjustable support arm 23 decides whether an infeed movement 9 with the nozzle jet 4a aligned parallel to the pipe wall 2a or a pivoting movement 10 of the guide device 8 and thus a deflection of the nozzle jet 4a from parallelism to the pipe wall 2a in the direction of the center of the pipe 13 in order to be able to remove dirt / deposits 14 also in the center of the pipe 13.
  • This device also comprises at least one (in Fig. 2 camera (not shown) for detecting the contamination 14 and observing the alignment and deflection of the at least one nozzle 3.
  • the Fig. 3 shows schematically a nozzle 3 guided within a pipe 2 by means of a guide device 8 with an exiting nozzle jet 4a which is inclined from the parallelism to the pipe wall 2a in the direction of the pipe center 13.
  • the Fig. 4 shows schematically a nozzle 3 guided within a pipe 2 by means of a guide device 8 with an exiting nozzle jet 4a, which is inclined from the parallelism to the pipe wall 2a - against the pipe center 13 - in the direction of the pipe wall 2a, i.e. with an inclination in the direction of the more closely spaced pipe wall 2a exits.
  • the nozzle jet 4a is inclined in the direction of the pipe wall 2a only to such an extent that the pipe wall 2a is not damaged. In any case, the aim is to prevent the nozzle jet 4a from hitting the pipe wall 2a at too close a distance.
  • the nozzle jet 4a With a greater distance of the nozzle jet 4a to impinge on the Pipe wall 2a, the nozzle jet is widened more and at a smaller angle the point of impact takes up a larger area. This means that the force emanating from the nozzle jet per area of the pipe wall is lower. For this reason, if the angle is limited, the likelihood of damage to the pipe wall is significantly lower.
  • the infeed device and / or the pivoting device of the device 1 preferably has / have one or more inclination limiting devices which ensure that the nozzle jet 4a guided parallel to the pipe wall 2a can only be inclined towards the pipe wall 2a to such an extent that the pipe wall 2a is not damaged.
  • the maximum value for the adjustable angle depends on the pipe material used and the high pressure used. Due to an adjustable inclination between the pipe wall 2a and the nozzle jet 4a, efficient removal of the deposits 14 is also ensured in the edge regions of the pipe 2.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Cleaning In General (AREA)

Description

Die Erfindung betrifft eine Vorrichtung zur Bearbeitung des Inneren unbegehbarer Rohre und Rohrnetze mittels Hochdruckstrahlen eines Fluids mit oder ohne Abrasivmittel.The invention relates to a device for processing the interior of inaccessible pipes and pipe networks by means of high-pressure jets of a fluid with or without an abrasive.

Ablagerungen, Schmutz, Beschichtungen und Inliner müssen regelmäßig aus unbegehbaren Rohren entfernt werden. Ebenso müssen Verstopfungen beseitigt werden. Besonders geeignet für eine Reinigung von unbegehbaren Rohren ist die Nutzung von Vorrichtungen, welche Hochdruckflüssigkeitsstrahlen verwenden. Dabei trifft eine Flüssigkeit mittels einer oder mehrerer Düsen unter hohem Druck auf die verunreinigte Stelle. Der hohe Druck der Flüssigkeit ist dabei der Grund für die starken Kräfte, die in der Lage sind, auch starke Verkrustungen zu lösen. Besonders kritisch ist dabei allerdings, dass es dadurch auch zu Schädigungen an der Rohrwandung kommen kann. Eine übliche Vorgehensweise, um die Einwirkzeit des Hochdruckflüssigkeitsstrahls auf die Rohrwandung zu begrenzen, ist eine rotierende oder sich anderweitig bewegende Düse, die dafür sorgt, dass sich die Auftreffposition des Flüssigkeitsstrahls beständig ändert. In der JP 2008 279 401 A ist ein Gerät zum Reinigen von Rohren offenbart, bei welchem der Wasserstrahl in einem bestimmten Winkel auf die Rohrwandung trifft und aufgrund der rotierenden Düse umlaufend die Rohrwandung reinigt.Deposits, dirt, coatings and inliners must be regularly removed from inaccessible pipes. Blockages must also be removed. The use of devices which use high-pressure liquid jets is particularly suitable for cleaning pipes that are inaccessible. A liquid hits the contaminated area under high pressure by means of one or more nozzles. The high pressure of the liquid is the reason for the strong forces that are able to loosen even strong incrustations. However, it is particularly critical that this can also damage the pipe wall. A common procedure for limiting the exposure time of the high pressure liquid jet to the pipe wall is a rotating or otherwise moving nozzle which ensures that the impact position of the liquid jet changes constantly. In the JP 2008 279 401 A a device for cleaning pipes is disclosed, in which the water jet hits the pipe wall at a certain angle and cleans the pipe wall circumferentially due to the rotating nozzle.

Dennoch sorgen hartnäckige, das heißt sich schwer lösende Verschmutzungen oft dafür, dass aufgrund der notwendigen langen Bearbeitungszeit bei der Reinigung Schäden an den Rohrwandungen auftreten. Um die Position der Reinigungsvorrichtung innerhalb des Rohres genauer festlegen zu können und dadurch zu verhindern, dass Unebenheiten die Strahlauftreffposition ungünstig beeinflussen, was zu ungewünschten Wirkzeitverlängerungen des Hochdruckstrahls an der Rohrwandung führen kann, werden beispielsweise Führungsschlitten verwendet. Eine entsprechende Vorrichtung zum Reinigen von Rohren ist in der DE 196 26 590 A1 offenbart. Diese Vorrichtung besteht aus einer Transportvorrichtung und einer Rotationsdüsenvorrichtung. Um eine Beschädigung der Rohrinnenwand aufgrund eines Stillstandes der Rotationsdüse zu vermeiden, ist eine zusätzliche Rotationsbewegung der Düsenanordnung vorgesehen. Des Weiteren ist eine Führung der Rotationsdüsenanordnung mittels Führungsschlitten in einer Führungshülse beschrieben. Die Führungselemente können außerdem zusammenklappbar ausgebildet sein, um ein Anpassen an verschiedene Rohrdurchmesser zu ermöglichen. Um eine Anwendung der Reinigungsvorrichtung unter Wasser zu ermöglichen, ist ein minimaler Abstand zwischen Düsenanordnung und Rohrinnenwand angestrebt. Zum Schutz vor zu hoher mechanischer Belastung der Rohrinnenwand ist auch ein von 90° abweichender Winkel des Hochdruckstrahls zur Rohrinnenwand gewünscht.However, stubborn, that is, dirt that is difficult to loosen, often causes damage to the pipe walls due to the long processing time required during cleaning. In order to be able to determine the position of the cleaning device within the pipe more precisely and thereby prevent unevenness from having an unfavorable effect on the impact position of the jet, which leads to undesired prolongation of the action time Can lead high pressure jet on the pipe wall, guide carriages are used, for example. A corresponding device for cleaning pipes is in the DE 196 26 590 A1 disclosed. This device consists of a transport device and a rotating nozzle device. In order to avoid damage to the inner wall of the pipe due to a standstill of the rotary nozzle, an additional rotational movement of the nozzle arrangement is provided. Furthermore, guidance of the rotary nozzle arrangement by means of guide slides in a guide sleeve is described. The guide elements can also be designed to be collapsible in order to enable adaptation to different pipe diameters. In order to enable the cleaning device to be used under water, a minimal distance between the nozzle arrangement and the inner wall of the pipe is aimed for. To protect against excessive mechanical stress on the inner wall of the pipe, an angle of the high pressure jet that deviates from 90 ° to the inner wall of the pipe is desired.

Allerdings können Unebenheiten in den Rohren bei der Verwendung von Führungsschlitten dazu führen, dass eine unregelmäßige Reinigungsleistung folgt. Sensoren, welche den Abstand zur Rohrwandung ermitteln, unterstützen das Positionieren der Düsenanordnung in einem gleichmäßigen Abstand zur Rohrwandung. In der JP 000 H 08141534 A ist ein Reinigungsroboter offenbart, der in der Lage ist, durch Sensoren den Abstand der Reinigungsdüsen zur Wand zu kontrollieren. Die Lage der Düsen kann so eingestellt werden, dass auch bei größeren Unebenheiten oder nicht konzentrischer Form der Rohre eine gleichmäßige Reinigung möglich ist. Die Düsen sind an Auslegern befestigt, welche eine umlaufende Bewegung der Düsen entlang der Rohrinnenwand erlauben.However, unevenness in the pipes when using guide carriages can lead to an irregular cleaning performance. Sensors that determine the distance to the pipe wall support the positioning of the nozzle arrangement at a uniform distance from the pipe wall. In the JP 000 H 08141534 A a cleaning robot is disclosed which is able to use sensors to control the distance between the cleaning nozzles and the wall. The position of the nozzles can be adjusted so that even cleaning is possible even with larger unevenness or non-concentric shape of the pipes. The nozzles are attached to brackets which allow the nozzles to move around the inside wall of the pipe.

Eine Vorrichtung zum Bearbeiten von Kanalwandungen von geschlossenen Kanälen mittels Hochdruckflüssigkeitsstrahlen ist aus der EP 2 891 526 A1 bekannt. Die Vorrichtung weist einen Düsenkörper mit zumindest einer Strahldüse auf, die am vorderen Ende der Vorrichtung angeordnet und zur Erzeugung eines nach vorn gerichteten, gebündelten Strahls eines flüssigen Strahlmediums geeignet ist. Die Ausrichtung des Strahls "nach vorn" schließt dabei ein, dass die Strahlrichtung mit der Kanalachse übereinstimmt und ebenso, dass der Strahl oder die Strahlen einen Winkel - 90 ° < α < + 90 ° bezogen auf die Kanalachse aufweisen, je nach Art der zu beseitigenden Hindernisse und Anhaftungen. Darüber hinaus umfasst diese Vorrichtung einen Fahrwagen zum Bewegen und Positionieren des Düsenkörpers im Kanal und eine Medienzufuhr zur Versorgung der Strahldüse mit einem unter Hochdruck stehenden Strahlmedium. Der Fahrwagen und der Düsenkörper sind derart ausgebildet, dass beide zumindest entlang ihrer gesamten Unterseite mit einem Abstand zur Wandung positionierbar und bewegbar sind. Bei einer Fortbewegung der Vorrichtung bleibt der Abstand zwischen der Kanalwandung und der Unterseite der Vorrichtung erhalten. Dazu umfasst der Fahrwagen geeignete Bewegungs- und Stützelemente, die die Bewegung des Fahrwagens ermöglichen und ihn in zumindest zwei Richtungen zur Kanalwandung abstützen. Das Abstützen der Vorrichtung zur Kanalwandung kann mit Hilfe von Gleitlagern, Gleitkufen oder Stützrädern erfolgen. Der Winkel α der Strahlrichtung der Strahldüsen zur Kanalachse kann im Bereich von - 90 ° < α < + 90 ° eingestellt werden, wobei zum Teil auch eine Einstellbarkeit zwischen -15 ° < α < + 15 ° als ausreichend angesehen wird.A device for processing channel walls of closed channels by means of high-pressure liquid jets is from the EP 2 891 526 A1 known. The device has a nozzle body with at least one jet nozzle, which is arranged at the front end of the device and for Generation of a forward directed, focused jet of a liquid jet medium is suitable. The alignment of the beam "forwards" includes that the beam direction coincides with the channel axis and also that the beam or beams have an angle - 90 ° <α <+ 90 ° with respect to the channel axis, depending on the type of to eliminating obstacles and adhesions. In addition, this device comprises a carriage for moving and positioning the nozzle body in the channel and a media supply for supplying the jet nozzle with a jet medium under high pressure. The carriage and the nozzle body are designed in such a way that both can be positioned and moved at least along their entire underside at a distance from the wall. When the device moves forward, the distance between the duct wall and the underside of the device is maintained. For this purpose, the trolley includes suitable movement and support elements that enable the trolley to move and support it in at least two directions relative to the canal wall. The support of the device for the canal wall can be done with the help of slide bearings, skids or support wheels. The angle α of the jet direction of the jet nozzles to the channel axis can be set in the range of -90 ° <α <+ 90 °, whereby an adjustability between -15 ° <α <+ 15 ° is sometimes considered sufficient.

Die DE 20 2014 105 354 U1 offenbart eine Vorrichtung zum Reinigen von Rohren, umfassend

  • eine relativ zur Innenwand eines Rohrs in mindestens drei Achsen bewegbare Düse zur Erzeugung eines Strahls eines fluiden Reinigungsmediums auf einen beliebigen Punkt der Innenwand des Rohrs,
  • einen an die Düse angeschlossenen Reinigungsschlauch für die Zufuhr des fluiden Reinigungsmediums, wobei die Düse an einem vorderen Endbereich des Reinigungsschlauchs angebracht ist und die Düse mit dem angeschlossenen Reinigungsschlauch entlang einer parallel zur Rohrachse verlaufenden Längsachse innerhalb des Rohrs eine axiale Bewegung ausführen kann,
  • mindestens eine Schwenkeinrichtung für die Auslenkung der Düse in einem Winkel zur Längsachse, zum Beispiel zwischen 0° und ± 90°, unter Biegung des vorderen Endbereichs des Reinigungsschlauchs und von dessen Schlauchachse mit einer Biegungsrichtung in einer Biegungsebene,
  • mindestens eine Einrichtung für die Auslenkung der Düse um die Längsachse durch Änderung der Biegungsrichtung und der Biegungsebene des vorderen Endbereichs um die Längsachse ohne Torsion des Reinigungsschlauchs, und
  • mindestens eine Kamera für die Erfassung von Verschmutzungen und die Beobachtung der Auslenkung und Ausrichtung der Düse.
the DE 20 2014 105 354 U1 discloses an apparatus for cleaning pipes comprising
  • a nozzle movable in at least three axes relative to the inner wall of a pipe for generating a jet of a fluid cleaning medium onto any point on the inner wall of the pipe,
  • a cleaning hose connected to the nozzle for the supply of the fluid cleaning medium, the nozzle being attached to a front end region of the cleaning hose and the nozzle with the connected cleaning hose along a longitudinal axis within the pipe running parallel to the pipe axis Can perform movement,
  • at least one swivel device for the deflection of the nozzle at an angle to the longitudinal axis, for example between 0 ° and ± 90 °, with bending of the front end area of the cleaning hose and of its hose axis with a bending direction in a bending plane,
  • at least one device for the deflection of the nozzle about the longitudinal axis by changing the bending direction and the bending plane of the front end region about the longitudinal axis without torsion of the cleaning hose, and
  • At least one camera for the detection of soiling and the observation of the deflection and alignment of the nozzle.

Die Aufgabe der Erfindung besteht darin, eine Vorrichtung bereitzustellen, die bei hoher Reinigungsleistung die Rohrwandung weniger stark beansprucht und dadurch weniger Schäden hervorruft.The object of the invention is to provide a device which, with high cleaning performance, places less stress on the pipe wall and thus causes less damage.

Die Aufgabe wird durch eine Vorrichtung mit den Merkmalen gemäß Patentanspruch 1 gelöst. Weiterbildungen sind in den abhängigen Patentansprüchen angegeben.The object is achieved by a device with the features according to patent claim 1. Further developments are given in the dependent claims.

Die erfindungsgemäße Vorrichtung zur Bearbeitung des Inneren unbegehbarer Rohre und Rohrnetze mittels Hochdruckstrahlen eines Fluids mit oder ohne Abrasivmittel umfasst

  • mindestens eine Düse, die am vorderen Ende der Vorrichtung angeordnet ist, zur Erzeugung mindestens eines nach vorn gerichteten gebündelten Düsenstrahls des Fluids,
  • eine Medienzufuhr zur Versorgung der mindestens einen Düse mit dem unter Hochdruck stehenden fluiden Medium,
  • eine Führungseinrichtung für die Führung der mindestens einen Düse mit einer Ausrichtung des aus der Düse austretenden mindestens einen Düsenstrahls parallel zur Rohrwandung,
  • eine Zustelleinrichtung für eine Annäherung oder ein Anlegen der mindestens einen Düse oder der Führungseinrichtung an die Rohrwandung zur Minimierung oder Aufrechterhaltung des Abstands des mindestens einen Düsenstrahls zur parallel zum Düsenstrahl beabstandeten Rohrwandung und/oder eine Schwenkeinrichtung für eine Auslenkung des mindestens einen Düsenstrahls aus der Parallelität zur Rohrwandung in Richtung Rohrmitte,
    • eine Dreheinrichtung für eine Rotationsbewegung der mindestens einen Düse um die Rohrachse oder eine zur Rohrachse parallele Achse an der Rohrwandung entlang bei prinzipiell paralleler Führung des Düsenstrahls zur Rohrwandung durch die Führungseinrichtung,
  • eine Vorschubeinrichtung für eine axiale Vorschubbewegung entlang oder parallel zur Rohrachse und
  • mindestens eine Kamera für die Beobachtung der Ausrichtung und Auslenkung der mindestens einen Düse.
The device according to the invention for processing the interior of inaccessible pipes and pipe networks by means of high-pressure jets of a fluid with or without an abrasive comprises
  • at least one nozzle, which is arranged at the front end of the device, for generating at least one forward-directed bundled nozzle jet of the fluid,
  • a media supply for supplying the at least one nozzle with the fluid medium under high pressure,
  • a guide device for guiding the at least one nozzle with an alignment of the at least one nozzle jet emerging from the nozzle parallel to the pipe wall,
  • a feed device for approaching or placing the at least one nozzle or the guide device on the pipe wall to minimize or maintain the distance of the at least one nozzle jet to the pipe wall parallel to the nozzle jet and / or a pivoting device for deflecting the at least one nozzle jet from parallelism to Pipe wall in the direction of the pipe center,
    • a rotating device for a rotational movement of the at least one nozzle around the pipe axis or an axis parallel to the pipe axis along the pipe wall with a basically parallel guidance of the nozzle jet to the pipe wall by the guide device,
  • a feed device for an axial feed movement along or parallel to the pipe axis and
  • at least one camera for observing the alignment and deflection of the at least one nozzle.

Konzeptionsgemäß umfasst die Vorrichtung eine Führungseinrichtung für die Führung der Düse. Die Vorrichtung wird zum Bearbeiten des Inneren von unbegehbaren Rohren oder Rohrnetzen unter Einsatz der Hochdruckfluid-Technik genutzt. Die Vorrichtung ist sowohl für einen Einsatz mit als auch für einen Einsatz ohne Abrasivmittel geeignet.According to the concept, the device comprises a guide device for guiding the nozzle. The device is used to process the interior of inaccessible pipes or pipe networks using high-pressure fluid technology. The device is suitable both for use with and for use without abrasives.

Die Vorrichtung ist aufgrund mehrerer Lager und Getriebe in der Lage, mittels der Führungseinrichtung die Düse in geeignete Positionen zu bringen und den austretenden Düsenstahl derart auszurichten, dass ein optimaler Abtrag der Verschmutzungen im Rohr gewährleistet ist. Die Vorrichtung erlaubt die Durchführung verschiedener Bewegungsarten der Düse beziehungsweise der Führungseinrichtung, wie eine axiale Bewegung, eine Rotationsbewegung oder eine Schwenkbewegung. Die Vorrichtung erreicht alle Bereiche der Rohrwandung, da bei einer zur Rohrinnenwand parallelen Führung der Vorrichtung eine Rotation der Vorrichtung um die Rohrachse oder um eine zur Rohrachse parallele Achse möglich ist. Auf diese Weise können alle Bereiche des Rohres effizient gesäubert werden, ohne dass die Rohrwände durch die Hochdruckstrahlen des Fluids beschädigt werden. Prinzipiell wird der Düsenstrahl parallel zur Rohrwandung geführt. Ein parallel zur Rohrwandung geführter Strahl kann in richtigem Abstand keine Schäden an der Rohrwandung anrichten.Due to several bearings and gears, the device is able to bring the nozzle into suitable positions by means of the guide device and to align the emerging nozzle steel in such a way that optimal removal of the dirt in the pipe is guaranteed. The device allows various types of movement of the nozzle or the guide device, such as an axial movement, a rotational movement or a pivoting movement, to be carried out. The device reaches all areas of the pipe wall, since when the device is guided parallel to the pipe inner wall, the device rotates around the pipe axis or around a Pipe axis parallel axis is possible. In this way, all areas of the pipe can be cleaned efficiently without the pipe walls being damaged by the high pressure jets of the fluid. In principle, the nozzle jet is guided parallel to the pipe wall. A jet guided parallel to the pipe wall cannot cause any damage to the pipe wall at the correct distance.

Vorzugsweise ist die Führungseinrichtung zusätzlich zur Führung der mindestens einen Düse mit paralleler Ausrichtung des aus der Düse austretenden mindestens einen Düsenstrahls für eine Führung der mindestens einen Düse mit einer Ausrichtung des mindestens einen Düsenstrahls geeignet, bei der der mindestens eine Düsenstrahl innerhalb des Rohrs zu der Rohrwandung, an die die mindestens eine Düse angenähert ist oder an der sie anliegt, gering zugeneigt oder gering von dieser Rohrwandung weggeneigt ist, derart, dass die Rohrwandung nicht beschädigt wird.Preferably, the guide device is also suitable for guiding the at least one nozzle with parallel alignment of the at least one nozzle jet emerging from the nozzle for guiding the at least one nozzle with an alignment of the at least one nozzle jet in which the at least one nozzle jet within the pipe to the pipe wall , to which the at least one nozzle is approached or to which it rests, inclined slightly towards or slightly inclined away from this pipe wall, in such a way that the pipe wall is not damaged.

Gemäß einer vorteilhaften Ausführungsform der Erfindung ist die Führungseinrichtung als Gleitschuh und/oder als Führungsschlitten ausgebildet, der/die an der Rohrwandung entlang führbar ist/sind. Vorzugsweise umfasst die Führungseinrichtung eine Abtasteinrichtung mit einer Verstellung. Mittels Abtastung wird der Abstand zwischen dem mindestens einen Düsenstrahl und der Rohrwandung so gering wie möglich gehalten. Vorzugsweise weist die Führungseinrichtung einen Sensor auf, mittels dessen der Abstand der mindestens einen Düse und/oder des mindestens einen austretenden Düsenstrahls von der parallel beabstandeten Rohrwandung bestimmt werden kann, woraufhin die Antriebe der Vorrichtung so gesteuert werden können, dass ein möglichst geringer Abstand des mindestens einen Düsenstrahls zur parallel beabstandeten Rohrinnenwand realisiert wird. Eine Korrektur beziehungsweise Optimierung der Position kann in regelmäßigen zeitlichen Abständen wiederholt werden. Eine Schwenkbewegung der Vorrichtung ermöglicht ein Auslenken der Vorrichtung derart, dass die mindestens eine Düse in Richtung der Rohrmitte zeigt. Dadurch können auch Verschmutzungen in der Rohrmitte abgetragen werden.According to an advantageous embodiment of the invention, the guide device is designed as a slide shoe and / or as a guide carriage which can be guided along the pipe wall. The guide device preferably comprises a scanning device with an adjustment. The distance between the at least one nozzle jet and the pipe wall is kept as small as possible by means of scanning. The guide device preferably has a sensor, by means of which the distance between the at least one nozzle and / or the at least one exiting nozzle jet and the parallel spaced pipe wall can be determined a nozzle jet is realized to the parallel spaced pipe inner wall. A correction or optimization of the position can be repeated at regular time intervals. A pivoting movement of the device enables the device to be deflected in such a way that the at least one nozzle points in the direction of the center of the pipe. This means that dirt in the middle of the pipe can also be removed will.

Gemäß einer Ausgestaltung der Erfindung umfasst die Zustelleinrichtung und/oder die Schwenkeinrichtung der Vorrichtung eine oder mehrere Neigungsbegrenzungseinrichtungen, die sichern, dass der parallel zur Rohrwandung geführte mindestens eine Düsenstrahl nur soweit in Richtung Rohrwandung geneigt werden kann, dass die Rohrwandung nicht beschädigt wird. Beispielsweise kann eine Neigungsbegrenzung über eine Regelung erfolgen. Eine Neigung des Düsenstrahls in Richtung der Rohrwandung, an der die Führung anliegt beziehungsweise zu der der Abstand minimiert wurde, erfolgt nur in sehr geringen Winkeln, vorzugsweise im Bereich von 0° bis 10°, wobei der größtmögliche Winkel auch von der Empfindlichkeit des jeweils verwendeten Rohrmaterials abhängt. Der Düsenstrahl kann aber auch von der Rohrwandung, an der die Führung anliegt beziehungsweise zu der der Abstand minimiert wurde, weggeneigt werden, wobei auch in diesem Fall eine Neigungsbegrenzung, vorzugsweise innerhalb eines Bereichs von 0° bis -10°, mittels der Neigungsbegrenzungseinrichtung erfolgt. In jedem Fall soll verhindert werden, dass der Düsenstrahl die Rohrwandung in zu geringem Abstand trifft. Bei einer größeren Wegstrecke des mindestens einen Düsenstrahls bis zum Auftreffen auf die Rohrwandung ist der Düsenstrahl stärker aufgeweitet und bei geringerem Winkel nimmt der Auftreffpunkt eine größere Fläche ein. Dies führt dazu, dass die vom Düsenstrahl ausgehende Kraft pro Fläche der Rohrwandung geringer ist. Aus diesem Grund ist bei einer Begrenzung des Winkels die Wahrscheinlichkeit einer Beschädigung der Rohrwandung deutlich geringer.According to one embodiment of the invention, the infeed device and / or the pivoting device of the device comprises one or more inclination limiting devices which ensure that the at least one nozzle jet, which is guided parallel to the pipe wall, can only be inclined towards the pipe wall to such an extent that the pipe wall is not damaged. For example, the inclination can be limited by a regulation. An inclination of the nozzle jet in the direction of the pipe wall on which the guide rests or to which the distance has been minimized takes place only at very small angles, preferably in the range from 0 ° to 10 °, the largest possible angle also depending on the sensitivity of the particular used Depends on the pipe material. However, the nozzle jet can also be inclined away from the pipe wall on which the guide rests or to which the distance has been minimized, in which case the inclination limiting device is also used to limit the inclination, preferably within a range of 0 ° to -10 °. In any case, it should be prevented that the nozzle jet hits the pipe wall too close. If the distance of the at least one nozzle jet is greater until it strikes the pipe wall, the nozzle jet is widened to a greater extent and, if the angle is smaller, the point of impact takes up a larger area. This means that the force emanating from the nozzle jet per area of the pipe wall is lower. For this reason, if the angle is limited, the likelihood of damage to the pipe wall is significantly lower.

In einer weiteren Ausführungsform der Erfindung umfasst die Vorschubeinrichtung eine oder mehrere nach hinten gerichtete Bohrungen oder Düsen, zu denen das fluide Medium zuführbar ist und mittels denen eine auf dem Rückstoß beruhende Vorschubbewegung der Vorrichtung durch aus den Bohrungen oder Düsen ausströmende Strahlen des fluiden Mediums erzeugbar ist. In einer Ausgestaltung der Erfindung umfasst die Vorrichtung ein Fahrwerk mit Rädern für die axiale Vorschubbewegung.In a further embodiment of the invention, the feed device comprises one or more rearwardly directed bores or nozzles to which the fluid medium can be fed and by means of which a feed movement of the device based on the recoil can be generated by jets of the fluid medium flowing out of the bores or nozzles . In one embodiment of the invention, the device comprises a chassis with wheels for the axial feed movement.

Gemäß einer weiteren Ausführungsvariante ist der Abstand der mindestens einen Düse und/oder der Führungseinrichtung zur Rohrwandung fest eingestellt. Das heißt, in dieser Ausführungsform ist keine Zustelleinrichtung vorgesehen. Diese Vorrichtung enthält jedoch eine Schwenkeinrichtung für eine Auslenkung des mindestens einen Düsenstrahls aus der Parallelität zur Rohrwandung in Richtung Rohrmitte, um Verschmutzungen/Ablagerungen auch in der Rohrmitte abtragen zu können. Diese Vorrichtung ist insbesondere für runde Rohre geeignet. Bei einer Festeinstellung des Abstandes der Führungseinrichtung zur Rohrwandung in runden Rohren kann auf eine regelmäßige Positionskontrolle verzichtet werden. Eine regelmäßige Abtastung ist dann nicht erforderlich.According to a further embodiment variant, the distance between the at least one nozzle and / or the guide device and the pipe wall is fixed. That is to say, no delivery device is provided in this embodiment. However, this device contains a pivoting device for deflecting the at least one nozzle jet from parallelism to the pipe wall in the direction of the center of the pipe in order to be able to remove dirt / deposits in the center of the pipe. This device is particularly suitable for round pipes. With a fixed setting of the distance between the guide device and the pipe wall in round pipes, regular position control can be dispensed with. Regular scanning is then not necessary.

In einer weiteren Ausführungsvariante ist die Zustelleinrichtung geeignet, die mindestens eine Düse und/oder die Führungseinrichtung in Richtung Rohrmitte zu bewegen, um die Verschmutzungen/Ablagerungen auch in der Rohrmitte abtragen zu können, wobei der mindestens eine Düsenstrahl die Parallelität zur Rohrwandung beibehält.In a further embodiment variant, the feed device is suitable for moving the at least one nozzle and / or the guide device in the direction of the pipe center in order to be able to remove the dirt / deposits also in the pipe center, with the at least one nozzle jet maintaining the parallelism to the pipe wall.

In einer anderen vorteilhaften Ausführungsform der Erfindung ist die Schwenkeinrichtung derart ausgebildet, dass sie zusätzlich zur Auslenkung des mindestens einen Düsenstrahls auch für eine Annäherung und/oder ein Anlegen der mindestens einen Düse und/oder der Führungseinrichtung an die Rohrwandung unter Aufrechterhaltung der Parallelität des mindestens einen Düsenstrahls zur beabstandeten Rohrwandung geeignet ist.In another advantageous embodiment of the invention, the pivoting device is designed in such a way that, in addition to deflecting the at least one nozzle jet, it also allows the at least one nozzle and / or the guide device to be brought closer to the pipe wall while maintaining the parallelism of the at least one Nozzle jet is suitable for the spaced pipe wall.

Weitere Einzelheiten, Merkmale und Vorteile von Ausgestaltungen der Erfindung ergeben sich aus der nachfolgenden Beschreibung von Ausführungsbeispielen mit Bezugnahme auf die zugehörigen Zeichnungen. Es zeigen:

Fig. 1:
eine schematische Darstellung einer Vorrichtung zur Bearbeitung des Inneren unbegehbarer Rohre und Rohrnetze mittels Hochdruckstrahlen eines Fluids,
Fig. 2:
eine schematische Darstellung einer Vorrichtung mit Fahrwerk,
Fig. 3:
eine schematische Darstellung einer in einer Führungseinrichtung geführten Düse mit austretendem Düsenstrahl, der in Richtung Rohrmitte geneigt ist, und
Fig. 4:
eine schematische Darstellung einer in einer Führungseinrichtung geführten Düse mit austretendem Düsenstrahl mit geringer Neigung in Richtung Rohrwand.
Further details, features and advantages of embodiments of the invention emerge from the following description of exemplary embodiments with reference to the associated drawings. Show it:
Fig. 1:
a schematic representation of a device for processing the interior of inaccessible pipes and pipe networks by means of high pressure jets of a fluid,
Fig. 2:
a schematic representation of a device with chassis,
Fig. 3:
a schematic representation of a nozzle guided in a guide device with an exiting nozzle jet which is inclined towards the center of the pipe, and
Fig. 4:
a schematic representation of a nozzle guided in a guide device with an exiting nozzle jet with a slight inclination in the direction of the pipe wall.

In der Fig. 1 ist eine Vorrichtung 1 zur Bearbeitung des Inneren unbegehbarer Rohre und Rohrnetze innerhalb eines zu reinigenden Rohres 2 schematisch dargestellt. Diese Vorrichtung 1 umfasst eine relativ zur Rohrinnenwand 2a bewegbare Düse 3, die am vorderen Ende der Vorrichtung 1 angeordnet ist, zur Erzeugung eines nach vorn gerichteten, gebündelten Hochdruck-Düsenstrahls 4a eines Fluids, zum Beispiel Wasser. Das Fluid kann dabei mit oder ohne Abrasivmittel vorliegen. Des Weiteren umfasst die Vorrichtung 1 eine Medienzufuhr 5 zur Versorgung der Düse 3 mit dem unter Hochdruck stehenden fluiden Medium. Im gezeigten Ausführungsbeispiel ist die Medienzufuhr 5 ein an die Düse 3 angeschlossener Schlauch 5. Darüber hinaus umfasst die Vorrichtung 1 ein Gehäuse 6, in dem der Schlauch 5 entlang einer durch das Gehäuse 6 verlaufenden Längsachse 7 durch das Gehäuse 6 hindurchgeführt ist, was in der Fig. 1 nicht detailliert dargestellt ist. Die Düse 3 ist an einem vorderen Endbereich 5a des Schlauchs 5 angebracht, der sich außerhalb des Gehäuses 6, das heißt vor dem Gehäuse 6, befindet.In the Fig. 1 a device 1 for processing the interior of inaccessible pipes and pipe networks within a pipe 2 to be cleaned is shown schematically. This device 1 comprises a nozzle 3 which is movable relative to the inner pipe wall 2a and which is arranged at the front end of the device 1 for generating a forwardly directed, bundled high-pressure nozzle jet 4a of a fluid, for example water. The fluid can be present with or without an abrasive. Furthermore, the device 1 comprises a media supply 5 for supplying the nozzle 3 with the fluid medium under high pressure. In the exemplary embodiment shown, the media supply 5 is a hose 5 connected to the nozzle 3. In addition, the device 1 comprises a housing 6 in which the hose 5 is passed through the housing 6 along a longitudinal axis 7 running through the housing 6, which is shown in FIG Fig. 1 is not shown in detail. The nozzle 3 is attached to a front end region 5 a of the hose 5, which is located outside the housing 6, that is to say in front of the housing 6.

Die Düse 3 wird von einer Führungseinrichtung 8 umfasst oder zumindest gehalten. Dies ermöglicht die Führung der Düse 3 mit einer Ausrichtung des aus der Düse 3 austretenden Düsenstrahls 4a parallel zur Rohrwandung 2a. Der Abstand des aus der Düse 3 austretenden Düsenstrahls 4a zur Rohrwandung 2a kann durch eine Zustellbewegung 9 mittels einer nicht gezeigten Zustelleinrichtung minimiert werden, zum Beispiel, indem die Düse 3 und/oder die Führungseinrichtung 8 an die Rohrwandung 2a angelegt wird. Bei angelegter Düse 3 und einer Strahlführung des aus der Düse 3 austretenden Düsenstrahls 4a parallel zur Rohrwandung 2a, wie in Fig. 1 schematisch dargestellt, ist dann eine effiziente Reinigung der Bereiche nahe der Rohrwandung 2a möglich.The nozzle 3 is encompassed or at least held by a guide device 8. This enables the nozzle 3 to be guided with an orientation of the The nozzle jet 4a emerging from the nozzle 3 parallel to the pipe wall 2a. The distance between the nozzle jet 4a emerging from the nozzle 3 and the pipe wall 2a can be minimized by a feed movement 9 by means of a feed device (not shown), for example by placing the nozzle 3 and / or the guide device 8 on the pipe wall 2a. When the nozzle 3 is applied and the nozzle jet 4a emerging from the nozzle 3 is guided parallel to the pipe wall 2a, as in FIG Fig. 1 shown schematically, an efficient cleaning of the areas near the pipe wall 2a is then possible.

Eine Schwenkbewegung 10 der Düse 3 und/oder der Führungseinrichtung 8, die mittels einer eine Schwenkachse 11 und einen mit der Führungseinrichtung 8 verbundenen, schwenkbaren Arm 12 umfassenden Schwenkeinrichtung durchführbar ist, ermöglicht eine Auslenkung des Düsenstrahls 4a aus der Parallelität zur Rohrwandung 2a in Richtung Rohrmitte 13, um Verschmutzungen/Ablagerungen 14 auch in der Rohrmitte 13 abtragen zu können.A pivoting movement 10 of the nozzle 3 and / or the guide device 8, which can be carried out by means of a pivot device comprising a pivot axis 11 and a pivotable arm 12 connected to the guide device 8, enables the nozzle jet 4a to be deflected from parallelism to the pipe wall 2a in the direction of the center of the pipe 13, so that dirt / deposits 14 can also be removed from the middle of the pipe 13.

Des Weiteren kann mittels einer Dreheinrichtung mit einem Drehantrieb, der sich im vorderen Teil 6a des Gehäuses 6 befindet, eine Rotationsbewegung 15 der Düse 3 erfolgen, was eine Bearbeitung/Reinigung in verschiedenen Bereichen der Rohrwandung 2a ermöglicht und die Ablagerungen 14 effektiv entfernt.Furthermore, a rotary movement 15 of the nozzle 3 can take place by means of a rotary device with a rotary drive, which is located in the front part 6a of the housing 6, which enables processing / cleaning in different areas of the pipe wall 2a and effectively removes the deposits 14.

Die Düse 3 beziehungsweise die Führungseinrichtung 8 ist in axialer Richtung, das heißt in Richtung oder parallel zur Rohrachse 16, durch eine entsprechende Vorschubbewegung 17 der gesamten Vorrichtung 1 ausrichtbar. Gemäß der in der Fig. 1 gezeigten Ausführungsform umfasst die Vorschubeinrichtung für den axialen Vorschub der Düse 3 mehrere nach hinten gerichtete Bohrungen 18, zu denen das fluide Medium zuführbar ist und mittels denen eine auf dem Rückstoß beruhende Vorschubbewegung 17 der Vorrichtung durch die aus den Bohrungen 18 ausströmenden Strahlen 4b des fluiden Medium erzeugbar ist. Die Vorrichtung umfasst mindestens eine Kamera 19 für die Erfassung der Verschmutzungen 14 und die Beobachtung der Ausrichtung und Auslenkung der Düse 3.The nozzle 3 or the guide device 8 can be aligned in the axial direction, that is to say in the direction or parallel to the pipe axis 16, by means of a corresponding feed movement 17 of the entire device 1. According to the Fig. 1 The embodiment shown, the feed device for the axial feed of the nozzle 3 comprises a plurality of rearwardly directed bores 18, to which the fluid medium can be fed and by means of which a feed movement 17 based on the recoil of the device through the jets 4b of the outflowing from the bores 18 fluid medium can be generated. The device comprises at least one camera 19 for detecting the contamination 14 and for observing the alignment and deflection of the nozzle 3.

In der Fig. 2 ist eine Ausführungsvariante der Vorrichtung 1 innerhalb eines Rohres 2 zu sehen, die ein Fahrwerk 20 mit Rädern 20a, 20b aufweist, das mit dem Korpus 1a der Vorrichtung 1 verbunden ist, der als Träger für die Dreheinrichtung für die Rotationsbewegung 15, die Schwenkeinrichtung sowie die Zustelleinrichtung fungiert. Zusammen mit dem Fahrwerk 20 kann somit eine Vorschubbewegung 17 der gesamten Vorrichtung 1 in axialer Richtung, das heißt entlang oder parallel zur Rohrachse 16, erfolgen.In the Fig. 2 a variant of the device 1 can be seen within a tube 2, which has a chassis 20 with wheels 20a, 20b, which is connected to the body 1a of the device 1, which acts as a carrier for the rotating device for the rotational movement 15, the pivoting device and the Delivery device acts. Together with the chassis 20, a feed movement 17 of the entire device 1 can thus take place in the axial direction, that is to say along or parallel to the pipe axis 16.

Die Schwenkeinrichtung umfasst dabei neben der Schwenkachse 11, die sich am Korpus 1a der Vorrichtung 1 befindet, und dem auf der Schwenkachse gelagerten Arm 12 eine weitere Schwenkachse 21 für die Führungseinrichtung 8, die mit dem vorderen Teil des Arms 12 verbunden ist. Auf dieser Schwenkachse 21 ist ein Trägerteil 22 für die Führungseinrichtung 8 gelagert, so dass um diese Schwenkachse 21 die Schwenkbewegung 10 der Führungseinrichtung 8 erfolgen kann.In addition to the pivot axis 11, which is located on the body 1a of the device 1, and the arm 12 mounted on the pivot axis, the pivot device comprises a further pivot axis 21 for the guide device 8, which is connected to the front part of the arm 12. A carrier part 22 for the guide device 8 is mounted on this pivot axis 21, so that the pivot movement 10 of the guide device 8 can take place about this pivot axis 21.

Der Arm 12 und die Schwenkachsen 11, 21 können aber auch Teil einer Zustelleinrichtung für eine Annäherung und/oder ein Anlegen der Düse und/oder der Führungseinrichtung an die Rohrwandung zur Minimierung und/oder Aufrechterhaltung des Abstands des Düsenstrahls zur parallel beabstandeten Rohrwandung 2a fungieren. Dabei wirken der Arm 12, der an seinem vorderen Ende mit dem hinteren Bereich eines Trägerteils 22 der Führungseinrichtung 8 über eine erste Schwenkachse 21 der Führungseinrichtung 8 drehbeweglich verbunden ist, mit einem ebenfalls schwenkbar gelagerten, längenverstellbaren Stützarm 23 für das Trägerteil 22 der Führungseinrichtung 8 zusammen. Dieser längenverstellbare Stützarm 23 ist an seinem hinteren Ende über eine Schwenkachse 24 mit dem Korpus 1a der Vorrichtung 1 und an seinem vorderen Ende über eine weitere, zweite Schwenkachse 25 der Führungseinrichtung 8 mit dem vorderen Bereich des Trägerteils 22 verbunden. Auf diese Weise kann die Schwenkbewegung des Arms 12 und die Bewegung des längenverstellbaren Stützarms 23 derart koordiniert werden, dass bei einer Zustellbewegung 9 des Trägerteils 22 und somit der Führungseinrichtung 8 mit der Düse 3 der austretende Düsenstrahl 4a parallel zur Rohrwandung 2a ausgerichtet bleibt.The arm 12 and the pivot axes 11, 21 can also function as part of a feed device for approaching and / or placing the nozzle and / or the guide device on the pipe wall in order to minimize and / or maintain the distance between the nozzle jet and the pipe wall 2a, which is spaced parallel to one another. The arm 12, which is rotatably connected at its front end to the rear region of a carrier part 22 of the guide device 8 via a first pivot axis 21 of the guide device 8, cooperates with a likewise pivotably mounted, length-adjustable support arm 23 for the carrier part 22 of the guide device 8 . This length-adjustable support arm 23 is at its rear end via a pivot axis 24 with the body 1 a of the device 1 and at its front end via a further, second pivot axis 25 of the Guide device 8 is connected to the front region of the carrier part 22. In this way, the pivoting movement of the arm 12 and the movement of the adjustable-length support arm 23 can be coordinated in such a way that during an infeed movement 9 of the carrier part 22 and thus of the guide device 8 with the nozzle 3, the emerging nozzle jet 4a remains aligned parallel to the pipe wall 2a.

Mit anderen Worten: Die Art des Zusammenwirkens zwischen dem Arm 12 und dem längenverstellbaren Stützarm 23 entscheidet, ob eine Zustellbewegung 9 mit parallel zur Rohrwandung 2a ausgerichtetem Düsenstrahl 4a oder eine Schwenkbewegung 10 der Führungseinrichtung 8 und somit eine Auslenkung des Düsenstrahls 4a aus der Parallelität zur Rohrwandung 2a in Richtung Rohrmitte 13, um Verschmutzungen/Ablagerungen 14 auch in der Rohrmitte 13 abtragen zu können, stattfindet.In other words: the type of interaction between the arm 12 and the length-adjustable support arm 23 decides whether an infeed movement 9 with the nozzle jet 4a aligned parallel to the pipe wall 2a or a pivoting movement 10 of the guide device 8 and thus a deflection of the nozzle jet 4a from parallelism to the pipe wall 2a in the direction of the center of the pipe 13 in order to be able to remove dirt / deposits 14 also in the center of the pipe 13.

Auch diese Vorrichtung umfasst mindestens eine (in Fig. 2 nicht dargestellte) Kamera für die Erfassung der Verschmutzungen 14 und die Beobachtung der Ausrichtung und Auslenkung der mindestens einen Düse 3.This device also comprises at least one (in Fig. 2 camera (not shown) for detecting the contamination 14 and observing the alignment and deflection of the at least one nozzle 3.

Die Fig. 3 zeigt schematisch eine innerhalb eines Rohrs 2 mittels einer Führungseinrichtung 8 geführte Düse 3 mit austretendem Düsenstrahl 4a, der aus der Parallelität zur Rohrwandung 2a in Richtung Rohrmitte 13 geneigt ist.the Fig. 3 shows schematically a nozzle 3 guided within a pipe 2 by means of a guide device 8 with an exiting nozzle jet 4a which is inclined from the parallelism to the pipe wall 2a in the direction of the pipe center 13.

Die Fig. 4 zeigt schematisch eine innerhalb eines Rohrs 2 mittels einer Führungseinrichtung 8 geführte Düse 3 mit austretendem Düsenstrahl 4a, der aus der Parallelität zur Rohrwandung 2a - entgegen der Rohrmitte 13 - in Richtung Rohrwandung 2a geneigt ist, das heißt mit einer Neigung in Richtung der näher beanstandeten Rohrwandung 2a austritt. Der Düsenstrahl 4a wird dabei nur soweit in Richtung Rohrwandung 2a geneigt, dass die Rohrwandung 2a nicht beschädigt wird. In jedem Fall soll verhindert werden, dass der Düsenstrahl 4a die Rohrwandung 2a in zu geringem Abstand trifft. Bei größerer Wegstrecke des Düsenstrahls 4a bis zum Auftreffen auf die Rohrwandung 2a ist der Düsenstrahl stärker aufgeweitet und bei geringerem Winkel nimmt der Auftreffpunkt eine größere Fläche ein. Dies führt dazu, dass die vom Düsenstrahl ausgehende Kraft pro Fläche der Rohrwandung geringer ist. Aus diesem Grund ist bei einer Begrenzung des Winkels die Wahrscheinlichkeit einer Beschädigung der Rohrwandung deutlich geringer.the Fig. 4 shows schematically a nozzle 3 guided within a pipe 2 by means of a guide device 8 with an exiting nozzle jet 4a, which is inclined from the parallelism to the pipe wall 2a - against the pipe center 13 - in the direction of the pipe wall 2a, i.e. with an inclination in the direction of the more closely spaced pipe wall 2a exits. The nozzle jet 4a is inclined in the direction of the pipe wall 2a only to such an extent that the pipe wall 2a is not damaged. In any case, the aim is to prevent the nozzle jet 4a from hitting the pipe wall 2a at too close a distance. With a greater distance of the nozzle jet 4a to impinge on the Pipe wall 2a, the nozzle jet is widened more and at a smaller angle the point of impact takes up a larger area. This means that the force emanating from the nozzle jet per area of the pipe wall is lower. For this reason, if the angle is limited, the likelihood of damage to the pipe wall is significantly lower.

Vorzugsweise weist/weisen die Zustelleinrichtung und/oder die Schwenkeinrichtung der Vorrichtung 1 eine oder mehrere Neigungsbegrenzungseinrichtungen auf, die sichern, dass der parallel zur Rohrwandung 2a geführte Düsenstrahl 4a nur soweit in Richtung Rohrwandung 2a geneigt werden kann, dass die Rohrwandung 2a nicht beschädigt wird. Der Maximalwert für den einstellbaren Winkel hängt dabei vom verwendeten Rohrmaterial und vom verwendeten Hochdruck ab. Aufgrund einer einstellbaren Neigung zwischen Rohrwandung 2a und Düsenstrahl 4a ist eine effiziente Abtragung der Ablagerungen 14 auch in den Randbereichen des Rohres 2 gewährleistet.The infeed device and / or the pivoting device of the device 1 preferably has / have one or more inclination limiting devices which ensure that the nozzle jet 4a guided parallel to the pipe wall 2a can only be inclined towards the pipe wall 2a to such an extent that the pipe wall 2a is not damaged. The maximum value for the adjustable angle depends on the pipe material used and the high pressure used. Due to an adjustable inclination between the pipe wall 2a and the nozzle jet 4a, efficient removal of the deposits 14 is also ensured in the edge regions of the pipe 2.

BezugszeichenlisteList of reference symbols

11
Vorrichtung zur Reinigung des Inneren unbegehbarer Rohre und RohrnetzeDevice for cleaning the inside of inaccessible pipes and pipe networks
1a1a
KorpusBody
22
Rohrpipe
2a2a
Innenwand des Rohrs 2, RohrinnenwandInner wall of tube 2, inner wall of the tube
33
Düsejet
4a4a
DüsenstrahlJet
4b4b
Strahl aus Bohrungen für eine axialen VorschubbewegungBeam made of holes for an axial feed movement
55
Medienzufuhr, SchlauchMedia supply, hose
5a5a
vorderer Endbereich des Schlauchsfront end of the hose
66th
Gehäusecasing
6a6a
vorderer Gehäuseteilfront housing part
77th
LängsachseLongitudinal axis
88th
FührungseinrichtungGuide device
99
Zustellbewegung, AnnäherungsbewegungInfeed movement, approach movement
1010
SchwenkbewegungSwivel movement
1111
SchwenkachseSwivel axis
1212th
Armpoor
1313th
RohrmitteTube center
1414th
Verschmutzungen, AblagerungenSoiling, deposits
1515th
RotationsbewegungRotational movement
1616
RohrachsePipe axis
1717th
VorschubbewegungFeed movement
1818th
Bohrungdrilling
1919th
Kameracamera
2020th
Fahrwerklanding gear
20a20a
Räderbikes
20b20b
Räderbikes
2121
erste Schwenkachse für die Führungseinrichtungfirst pivot axis for the guide device
2222nd
Trägerteil der FührungseinrichtungSupport part of the guide device
2323
längenverstellbarer Stützarmlength-adjustable support arm
2424
Schwenkachse des Stützarms 23 am Korpus 1aPivot axis of the support arm 23 on the body 1a
2525th
zweite Schwenkachse für die Führungseinrichtungsecond pivot axis for the guide device

Claims (11)

  1. A device (1) for processing the inside of inaccessible pipes and pipe networks using high-pressure jets of fluid with or without abrasive, comprising
    • at least one nozzle (3), which is arranged at the front end of the device (1), for generating at least one forward-directed, focussed nozzle jet (4a) of the fluid,
    • a media feed for supplying the at least one nozzle (3) with the highly pressurised fluid medium,
    • a guide apparatus (8) for guiding the at least one nozzle (3) with an orientation of the at least one nozzle jet (4a) exiting from the nozzle (3) parallel to the pipe wall (2a),
    • a positioning apparatus for causing the at least one nozzle (3) or the guide apparatus (8) to approach or abut the pipe wall to minimise or maintain the distance of the at least one nozzle jet (4a) from the pipe wall (2a) spaced parallel from the nozzle jet (4a), and/or
    a pivoting apparatus for deflecting the at least one nozzle jet (4a) towards the pipe centre (13) out of the state of being parallel to the pipe wall (2a),
    • a rotating apparatus for a rotary movement of the at least one nozzle (3) about the pipe axis (16) or an axis parallel to the pipe axis (16) along the pipe wall (2a) while the nozzle jet (4a) is guided fundamentally parallel to the pipe wall (2a) by the guide apparatus (8),
    • an advancing apparatus for an axial advancing movement (17) along or parallel to the pipe axis (16), and
    • at least one camera (19) for observing the orientation and deflection of the at least one nozzle (3).
  2. The device according to Claim 1, characterized in that the guide apparatus (8), in addition to guiding the at least one nozzle (3) with a parallel orientation of the at least one nozzle jet (4a) exiting from the nozzle (3), is suitable for guiding the at least one nozzle (3) with an orientation of the at least one nozzle jet (4a) in which the at least one nozzle jet (4a) within the pipe (2) is slightly inclined towards the pipe wall (2a) which the at least one nozzle (3) approaches or abuts, or is slightly inclined away from said pipe wall (2a), such that the pipe wall (2a) is not damaged.
  3. The device according to Claim 1 or 2, characterized in that the guide apparatus (8) is formed as a sliding block and/or as a guide carriage.
  4. The device according to any one of Claims 1 to 3, characterized in that the guide apparatus (8) comprises a scanning apparatus with adjustment.
  5. The device according to any one of Claims 1 to 4, characterized in that the guide apparatus (8) has a sensor, by means of which the distance of the at least one nozzle (3) and/or of the at least one exiting nozzle jet (4a) from the pipe wall (2a) spaced parallel therefrom can be determined, and the distance from the pipe wall can be reset or regulated via the positioning apparatus and/or the pivoting apparatus.
  6. The device according to any one of Claims 1 to 5, characterized in that the positioning apparatus and/or the pivoting apparatus comprises one or more inclination-limiting apparatuses, which ensure that the at least one nozzle jet (4a) guided parallel to the pipe wall (2a) can be inclined towards the pipe wall (2a) only to such an extent that the pipe wall (2a) is not damaged.
  7. The device according to any one of Claims 1 to 6, characterized in that the advancing apparatus comprises one or more backwardly directed holes (18) or nozzles, to which the fluid medium can be fed and by means of which an advancing movement (17) of the device based on the recoil can be generated by jets (4b) of the fluid medium flowing out of the holes (18) or nozzles.
  8. The device according to any one of Claims 1 to 6, characterized in that it comprises a running gear (20) with wheels (20a, 20b) for the axial advancing movement (17).
  9. The device according to any one of Claims 1 to 8, characterized in that no positioning apparatus is provided, and the distance of the at least one nozzle (3) and/or the guide apparatus (8) from the pipe wall (2a) is fixedly set.
  10. The device according to any one of Claims 1 to 8, characterized in that the positioning apparatus is suitable for moving the at least one nozzle (3) and/or the guide apparatus (8) towards the pipe centre (13) in order to be able to remove dirt/deposits (14) also in the pipe centre (13), wherein the at least one nozzle jet (4a) maintains the state of being parallel to the pipe wall (2a).
  11. The device according to any one of Claims 1 to 10, characterized in that the pivoting apparatus is designed such that, in addition to deflecting the at least one nozzle jet (4a), it is also suitable for causing the at least one nozzle (3) and/or the guide apparatus (8) to approach and/or abut the pipe wall while maintaining the state of the at least one nozzle jet (4a) being parallel to the pipe wall (2a) spaced therefrom.
EP16168758.7A 2016-05-09 2016-05-09 Device for processing the inside of inaccessible pipes and pipe networks using high pressure fluid blasting Active EP3243576B1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP16168758.7A EP3243576B1 (en) 2016-05-09 2016-05-09 Device for processing the inside of inaccessible pipes and pipe networks using high pressure fluid blasting

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP16168758.7A EP3243576B1 (en) 2016-05-09 2016-05-09 Device for processing the inside of inaccessible pipes and pipe networks using high pressure fluid blasting

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EP3243576B1 true EP3243576B1 (en) 2021-09-01

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Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107999474B (en) * 2017-12-15 2018-10-12 东海县正东石英制品有限公司 A kind of pipe fitting inner wall cleaning device
CN108043831B (en) * 2017-12-15 2018-11-02 长春近江汽车零部件有限公司 A kind of novel pipe fitting inner-wall cleaning device
CN109304336A (en) * 2018-11-09 2019-02-05 中国建筑第八工程局有限公司 Concrete delivery pump pipe Quick dredging and cleaning plant
CN110280550A (en) * 2019-07-29 2019-09-27 河北工业职业技术学院 Inner wall of the pipe sweeping robot
CN112845306B (en) * 2021-01-04 2022-06-17 中铁第五勘察设计院集团有限公司 Drilling rod belt cleaning device

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08141534A (en) 1994-11-17 1996-06-04 Toshiba Corp Pipe interior cleaning robot
DE19626590C2 (en) 1996-07-02 2000-12-07 Aquaplus Brunnensanierung H Mu Device for cleaning the inner surfaces of pipes, such as well pipes in well shafts
JP4420935B2 (en) 2007-05-14 2010-02-24 株式会社山崎塗装店 Cleaning method for lining piping
DE202014000026U1 (en) 2014-01-07 2014-03-10 Mauerspecht GmbH Device for processing duct walls by means of high-pressure liquid jets
DE202014105354U1 (en) * 2014-11-07 2014-11-19 Hydrotec Germany Gmbh Device for cleaning pipes

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