NL1005474C2 - Cleaning device for tubing. - Google Patents

Description

Cleaning device for tubing

The invention relates to a device for cleaning a pipe system or an underground duct system that has at least one access opening, which device comprises a flexible pressure pipe which is connected at one end to a spray nozzle which can be placed via that access opening and which has at least one nozzle for dispensing a jet of flushing medium, which at the other end is connected to a pressing device, as well as a support member on which the nozzle is movable through the system.

Such a device is known from GB-A-1460031 · The spray head thereof is mounted on a type of carriage, which must be pulled through the pipe to be cleaned by means of cables. The nozzle is forward-facing, and must be held by the cables, otherwise it would push back the slide with discharge line due to the reaction force generated by the exiting liquid jet.

The device can be used while the tubing or duct system is in operation. These are in particular systems which transport a mixture of water and substances released during oil refining, such as crude oil, lubricating oil, paraffin products and the like.

Sand and other fine particles often settle from such mixtures. In addition, certain liquids, such as heavy oils and fats, can solidify or clump together. As a result of all these phenomena, a sedimentation or cake formation occurs.

When cleaning the pipe or duct systems, the highest part is treated first. The loosened sediment or cake sections then flow to the lower sections which will be treated next, such that the entire system can be completely cleaned. The loosened sediment and / or cake sections are usually suctioned downstream from the place of loosening so that hardly any sedimentation has taken place.

Such a mixture of contaminated "black" liquid usually also contains volatile substances which are flammable and / or explosive. If such a discharge system were to be drained in connection with cleaning work, the problem arises that volatile substances are released from the drained, contaminated sediment. Even if the system is then degassed, the risk of explosion is still high.

In GB-A-1460031 it has been proposed to generate turbulence in the liquid contained in the system by means of a nozzle, such that the sediment gets in suspension and can subsequently be removed by pumps.

A drawback of the known device is, however, that the manipulation and advancement thereof by the system is not easy. First of all, cables must be tensioned that bridge the distance between two 10 consecutive manholes. For example, a separate robot must be used to install these cables; alternatively, the cables can be man-made. Such a course of events is cumbersome and not without risk. Especially with sufficient pipes and / or explosion hazard, it is necessary to use a robot, which, however, can easily get caught.

The aim of the invention is therefore first of all to provide an apparatus for cleaning a pipe system or an underground duct system that does not have that drawback. This object is achieved in that at least one of the nozzles is oriented along the pressure pipe 20 to deliver a jet of flushing medium directed backwards along that pressure pipe such that a tensile force is exerted on the pressure pipe in operation.

In the device according to the invention, the support member is pushed forward into the tube or channel as a result of the reaction force of the jet of flushing medium which is directed backwards under high pressure, thereby dragging the pressure pipe behind it. Meanwhile, the delivered jet or jets of the rinse medium exert a strong eroding effect on the sediment. The suspended sediment is additionally driven in a backward direction so that it can be extracted in a suitable location, preferably at the access opening through which the cleaning device has been introduced.

During the advancement of the spray head, the movement of which can be controlled by more or less quickly celebrating the pressure pipe under the influence of the tensile force exerted by the flushing medium, the pipe or the duct is progressively progressively treated. After a certain distance has been traveled, the support member can be moved back again by overtaking the pressure pipe. Optionally, the cleaning process from 1005474 3 can be repeated from the beginning until the desired degree of cleaning is obtained.

The spray head can be designed in various ways. It has a connection for the discharge pipe, from which connection a by-pass can run to the nozzle for diverting essentially the rinsing medium to be dispensed through 180 degrees. Depending on the spraying pressures to be supplied, and the size of the pipes or channels to be treated, several rear-facing nozzles can be used.

Furthermore, at least a second spray head with one or more associated nozzles for dispensing a jet of flushing medium can be located on the support member, such that the resultant of all jets of flushing medium released by the nozzles exert a tensile force on the pressure pipe. If the nozzle is located on the front part of the support member, it is preferred that the delivered jet of flushing medium is directed away from the pressure pipe. The sediment can be pretreated with such a forward-directed spray head, such that the sediment can be removed more quickly and thoroughly when the rear-directed spray head passes by.

Preferably, at least one nozzle is adjustable relative to the support member about a transverse axis for raising and lowering the jet of flushing medium. By aiming the jet in a suitable manner, any remaining hard cake residues can also be removed.

At least one nozzle can be adjustable by means of a piston-cylinder device; the piston-cylinder device is connected to the pressure pipe, while the spray head is continuously forced to a basic position under spring preload, such that the spray head is displaceable against that preload depending on the pressure of the flushing medium.

In addition, an upwardly directed nozzle and a downwardly directed nozzle can be provided for cleaning the entire cross-section of a tube or channel.

Each downwardly directed nozzle can open into a chamber which in turn opens into a larger diameter opening to reduce the velocity and / or pressure of the emerging jet of flushing medium. A caked layer, which may also be covered with a looser sediment, can be sprayed off by means of the rays directed upwards and downwards and possibly sideways. Due to the downwardly directed jets, the top layer of sediment can be brought into a liquid-like state, such that this layer can flow away as a liquid under the influence of gravity.

This flow can be further enhanced by one or more of the rearward jets, which are preferably oriented so that they do not erode the sediment behind, but accelerate the liquid-like sediment mixture to the suction point.

The support member is preferably designed as a slide with a flat bottom plate. The bottom plate can have an oblique upright edge at the front, which faces away from the pressure pipe. Furthermore, the bottom plate can have upright side edges as well as an upright rear edge. The support member can rest on the sediment without sinking into it so deep that the effectiveness of the nozzles is impaired.

The previously described nozzle can have one or more nozzles. It is suitable for the treatment of pipes or channels of certain cross-sectional dimensions, which must not exceed a maximum determined by the force of the radiated jets and their position, so as not to affect the effectiveness of the device. For treating pipes or channels of relatively large cross-sectional dimensions, two or more nozzles may be provided, each with at least one nozzle directed along the pressure pipe to deliver a jet of flushing media directed rearwardly along that pressure pipe such that, in operation, a tensile force is exerted on the pressure pipe.

According to a first variant, at least two of the nozzles with their associated support member can be connected to their own discharge pipe; alternatively, all nozzles may be connected to a manifold, which manifold is connected to a discharge pipe. The manifold may be formed in accordance with (part of) the cross section of the tube or channel.

The invention further relates to a method for cleaning a pipe system or channel system by means of a device as described above, comprising a flexible pressure pipe which is connected at one end to a spray nozzle which can be placed via the access opening in that system and which has at least one nozzle for delivering a jet of flushing medium, which at the other end is connected to a pressing device, and a support member on which the nozzle is displaceable through the system, and at least one of the nozzles is oriented along the delivery line to deliver a jet of flushing medium directed rearwardly along said pressure pipe such that, in operation, a tensile force is exerted on the pressure pipe and the supporting member is driven under the influence of the jet of flushing medium delivered by the nozzle while the pressure pipe is carried along.

The discharge line can be received on a roll, such that the movement of the support member is controlled by celebrating or overtaking the discharge line.

The roller is often attached to a mobile pressing device, but the roller can also be located on a mobile frame, the frame having a weight many times smaller than the pressing device. With such a roller, mounted on a mobile frame of low weight, it is possible to get to places that are difficult to access, where for instance the access opening of the pipe or duct system is located in an environment of weak or bad ground conditions, or in spaces. with a small placement surface, only suitable for such a mobile frame.

The flushing medium can be supplied with a pressure of 50-00 bar; preferably the flushing medium is supplied at a pressure of 125-225 bar.

The invention will be explained in more detail below with reference to the embodiments shown in the figures.

Figure 1 shows a section through a piece of ground with a tube in which the cleaning device according to the invention is placed.

Figure 2 shows a side view, partly in section, of a support member with nozzles.

Figure 3 shows a horizontal section through a nozzle of Figure 2.

Figure 4 shows a partially cutaway section of a downwardly directed nozzle.

Figure 5 shows a bottom view of the support member.

Figure 6 shows a section through an alternative mouthpiece.

Figure 7 shows a double embodiment of the cleaning device according to the invention.

1005474 6

Figure 8 shows an embodiment with four support members and nozzles.

The overview shown in figure 1 shows a piece of bottom 1, in which the tube indicated by 2 is arranged. The tube is accessible via manhole 3 · A layer of sediment 4 consisting of sand and other fine particles has formed in the tube 2. The tube is further filled with, for example, oil-containing water (5) (black water), consisting of a mixture of water, fats, paraffin and other substances released during oil refining. In this example, the tube is filled to 100 #.

When cleaning the tube 2, this sediment 4 must be loosened and discharged. For cleaning, the cleaning device, indicated in its entirety by 45, is used, which consists of a unit 6 with nozzles 7, 8 thereon, and a support member 9.

The nozzles are fed via a pressure pipe 10, which is connected to a truck 11 on which a pump and a water supply are located.

The pressure pipe 10 is preferably unwound from a reel 12 and diverted via a support 13 to the unit 6.

A suction line 14 is also lowered into the manhole 3, connected to a truck 15 on which there is a suction pump with holder for receiving the loosened sediment.

The unit 6 is shown on a larger scale in figure 2. It contains a slide-shaped support member 9. a rear nozzle 7 as well as a front nozzle 8. At the top, the unit is covered by a grid of bars 16, which hold the nozzles 7. 8 to protect.

The rearwardly directed nozzle has several rearwardly directed nozzles 17, as can also be seen in the horizontal section of Figure 3. The liquid supplied under high pressure via pressure pipe 10 is diverted into the internal chamber 18 in the nozzle 7, and directed backwards, whereby the emerging jets are obtained. These emerging jets of liquid 19 first push the unit 6 forward, dragging the pressure pipe 10 behind it. The jets of liquid 19 also have a loosening effect on the sediment, so that it floats in the liquid 5 and can ultimately be extracted via the suction pipe 14.

With regard to chamber 18, it is preferred that the shape be such that during operation the fluid flows are deflected completely streamlined at least for two dimensions.

Furthermore, one or more further upwardly directed nozzles 20 are provided on the spray head 7, which deliver an upwardly directed jet of liquid for loosening higher parts of the sediment.

A downwardly directed nozzle 21 is also arranged in the carriage 9 of the unit 6. This nozzle 21, which is shown in cross-section and on a larger scale in figure k, is fed via line 22 which is connected to the pressure line 10.

The liquid exiting at high pressure from the pipe 22 ends up in a widened chamber 23, such that the liquid exits at the bottom of the carriage 9 at a slower speed. There this liquid can additionally suspend the sediment.

The carriage 9 has a flat bottom 2 * 4, as is also shown in the bottom view of figure 5, as well as an obliquely rising front 25 and rear 26. Upright walls 27, 28 are also arranged. The advantage of a carriage 9 designed in this way is that the unit 6 will not sink quickly into the sediment. The forward movement of the unit 6 under the influence of the liquid jets 19 supplied by the nozzles 17 causes the unit 6 to slide over the sediment, without sinking too deeply into it.

As shown in figure 2, both the spray head 7 and the spray head 8 can be rotatably arranged about transverse axes 30, 31. By means of the springs 32, 33, both nozzles 7, 8 are oriented such that their jets are directed slightly upwards. Against the action of the springs 32, 33, the hydraulic piston-cylinder devices 3 ^ act. These can for instance be operated with the liquid supplied via the pressure pipe 10. At a certain pressure of this liquid, the piston-cylinder devices 3, 30 and 35, respectively, extend against the action of the springs 32 and 33, respectively. By changing the pressure of the liquid supplied via the pressure pipe 10, the direction of the jets of liquid released by the nozzles 7, 8 can thus be changed.

Thus, both higher and lower parts of the sediment 35 can be directly reached by those rays.

The nozzle 8 also has nozzles 36, which can point forward, upward and sideways to deliver liquid jets 37-100r 8

In the variant shown in figure 6 of a nozzle which opens on the underside of the soleplate 24 of the slide 9, the liquid line 38 is provided with a nozzle 39 which opens in approximately tangential direction into the housing 29. In chamber 23 of housing 29 5, a swirling downward flow is thereby generated, which exits from the sole plate 24 of the slide 9. The sediment can also be brought into suspension with the aid of such a swirling jet.

In the case of larger diameter pipes, two 10 units 6, each with their own discharge pipe 10, can be moved side by side through the pipe. Alternatively, four such units 6 could also be connected to discharge pipe 10 via manifold 40, and moved jointly through the respective tube.

The unit 6 is moved through the tube 2 by unscrewing or twisting the pressure pipe 10 from the roller 12 in a controlled manner. The unit 6 can be moved back and forth through the line 2 until the desired degree of cleaning is obtained.

Even if the unit 6 is located at a considerable distance from the manhole 3, the suspended sediment particles can still be extracted there. Namely, under the influence of the rearwardly directed jets of liquid 17, which are released by the nozzle 7, the suspended sediment is transported in the direction of that manhole 3.

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Claims (23)

A device for cleaning a pipe system or an underground duct system (2) which has at least one access opening (3) 5, which device comprises a flexible discharge pipe (10) which is connected at one end to a via the access opening (3) said system (2) positionable nozzle (7, 8) provided with at least one nozzle (17, 36) for dispensing a jet of flushing medium (19, 37). and at the other end with a pressing device (11), as well as a support member 10 (9) on which the nozzle (7, 8) is displaceable through the system, characterized in that at least one of the nozzles (17) is oriented along the pressure pipe (10 ) for dispensing a jet of flushing medium (17) directed backwards along said pressure pipe (10) such that a tensile force is exerted on the pressure pipe (10) during operation. 15 Device according to claim 1, wherein the nozzle (7, 8) has a connection for the discharge pipe (10), from which connection a bypass (18) extends to the nozzle (17) for diverting the pipe essentially 180 degrees. flushing medium to be dispensed (19). 20 Device according to claim 2, wherein the diversion (18) is of such a shape that during operation the liquid flows are deflected completely streamlined for at least two dimensions. Device according to any one of the preceding claims, wherein at least a second nozzle (8) with one or more associated nozzles (36) is provided on the support member (9) for delivering a jet of flushing medium (37), such that the resultant of all jets of flushing medium (19, 37) released by the nozzles (7, 8) exert a tensile force on the pressure pipe (10). Device according to claim * 4, wherein the jet (37) of the flushing medium is directed away from the pressure pipe (10). Apparatus according to claim 2, 3, 4 or 5, wherein at least one nozzle (7, 8) is adjustable relative to the support member about a transverse axis (30, 31) for upward and downward movement of the jet of flushing medium (19 , 37) .10054 7: Device as claimed in claim 6, wherein at least one nozzle (7.8) is adjustable by means of a piston-cylinder device (3 × 35). Device according to claim 7, wherein the piston-cylinder device (3 ^, 35) is connected to the pressure pipe (10), and the nozzle (7, 8) is continuously forced to a basic position under spring preload (32, 33), such that the spray head (7, 8) can be moved against said bias depending on the pressure of the flushing medium. Device according to any one of the preceding claims, wherein an upwardly directed nozzle (20, 36) is provided. The device of any one of claims 1 to 8, wherein a downwardly directed nozzle (21) is provided. The device of any one of claims 1 to 8, wherein a side-facing nozzle (36) is provided. 20 The device of claim 10, wherein each downwardly directed nozzle (21) debouches into a chamber (23) which in turn debouches into an opening of larger cross section, to reduce the velocity and / or pressure of the exiting jet of flushing medium. 25 Device according to any one of the preceding claims, wherein the support member (9) is a slide with a flat bottom plate (24). 14. Device according to claim 13. wherein the bottom plate (24) 30 at the front facing away from the pressure pipe (10) has an inclined upright edge (25). Device according to claim 13 or 14, wherein the bottom plate (24) has upright side edges (27, 28) as well as an upright rear edge 35 (26). Device according to any one of the preceding claims, wherein at least two nozzles (7, 8) with their associated support members J 0 0 5 4 14 (9) are provided, the nozzles (7, 8) containing at least one nozzle (17), which is directed along the pressure pipe (10) for dispensing a jet of flushing medium directed backwards along said pressure pipe (10) such that a tensile force is exerted on the pressure pipe during operation. Device according to claim 16, wherein at least two of the nozzles (7, 8) are connected to their own pressure pipe (10). The device according to claim 16, wherein all the nozzles (7, 8.) are connected to a manifold (* 40), which manifold is connected to a pressure pipe (10). Method for cleaning a pipe system or duct system (2) by means of a device (5) according to any one of the preceding claims, comprising a flexible pressure pipe (10) which is connected at one end to a via the access opening (3 ) nozzle (7, 8) which can be placed in said system (2) and which is provided with at least one nozzle (17, 36) for delivering a jet of flushing medium, and which is connected at the other end to a pressing device (11), as well as a support member (9) on which the nozzle (7, 8) is movable through the assembly (2), and at least one of the nozzles (17) is oriented along the pressure pipe (10) to deliver a jet of flushing medium directed backwards along that pressure pipe (19) such that, in operation, a tensile force (10) is exerted on the pressure pipe and the support member (9) is driven under the influence of the jet of flushing medium (19) delivered by the nozzle (17), taking the pressure pipe (10) with it. . A method according to claim 19. wherein the pressure pipe (10) is received on a roller (12), and the movement of the support member (9) is controlled by celebrating or overtaking the pressure pipe (10). 21. Method according to claim 20, wherein the roller is placed on a mobile frame, which frame has a maximum weight of several times the operating weight of the roller with pressure pipe. A method according to claim 19. 20 or 21, wherein the .10054 7 flushing medium is supplied at a pressure of 50-100 bar. The method of claim 22, wherein the flushing medium is supplied at a pressure of 125-225 bar. 1005474