Pipes and tubular conduits – Combined – With means to support disparate element therein
Reexamination Certificate
2002-09-25
2003-08-12
Brinson, Patrick (Department: 3752)
Pipes and tubular conduits
Combined
With means to support disparate element therein
C138S113000, C138S103000
Reexamination Certificate
active
06604549
ABSTRACT:
The present invention relates to a device for fixing a tubular element that is to be installed in cavities that are inaccessible to an operator, in particular tubular cavities such as a network of pipes, ducts, or conduits in particular for collecting sewerage or rainwater. In such tubular cavities, the inaccessibility results in particular from their flow cross-section being too small. The invention also relates to a method of putting the device into place, in particular in small-diameter tubular cavities in which visual and physical direct access is impossible, and in particular in cavities of less than 200 millimeters (mm) in diameter.
BACKGROUND OF THE INVENTION
The tubular element may be a cable, such as, for example, an optical fiber cable used for telecommunications, or else a conduit, in particular a hollow tube serving to receive one or more cables. Commonly, the tubular element is fixed to the inside wall of an inaccessible cavity by individualized fixing means disposed uniformly along the cavity. Such fixing means are fixed in advance to the inside wall of the cavity, usually to the top portion, by a remote-controlled device. A problem that arises is how to guarantee secure and lasting fixing of the means to the wall of the cavity, whose component material can be of various types.
Patent Document DE-198 13 728 provides resilient open rings which are put in place one-by-one in the cavity in a contracted form, and are then released once the ring is positioned facing a groove that is already provided in the wall of the cavity. In the absence of a groove, the ring must also expand axially in order to remain in place. At its top portion, each of those rings is provided with a recess for receiving the tubular element. The fixing elements are inserted by means of a remote-controlled robot.
Methods that use individualized fixing means suffer from the drawback of requiring a robot to be used to fit the fixing means one by one, which constitutes an operation that is lengthy, difficult, and therefore costly. In addition, those fixing means constitute pieces in relief on the wall; such relief can retain solid residue flowing in the conduit, and hinder subsequent cleaning operations. To mitigate those drawbacks, a solution has been provided by the use of a lining covering all of the inside wall of the cavity, the tubular element being held in place between the wall and the lining. That solution makes it possible to hold the tubular element with a smaller amount of relief and regardless of the material of which the wall of the cavity is made.
Document GB-2 124 728 describes installing a television cable in an existing sewer whose inside wall may optionally be modified to receive the cable. Preferably, the cable is suspended from the ceiling of the cavity. To retain the cable, that document proposes to use an adhesive plastics material that is spirally wound along the cavity, the cable being sandwiched between the inside wall of the cavity and that lining material.
Document JP-1 039 208 proposes holding a cable in place by means of a lining of an absorbant flexible material. While in the form of a pouch, that lining is inserted into the cavity by means of a fluid under pressure. A setting resin is sprayed onto the lining as it is being inserted. Document JP-2 131 312 describes a porous lining that adheres to the wall by means of an adhesive epoxy resin sprayed onto the inside of it. Those methods are particularly complex and costly because of the amount of the external infrastructure that is required for spraying resin.
All those methods using a lining are costly because the entire surface of the cavity is lined. In addition, the adhesion between the lining and the wall deteriorates over time. The consequences are that the cable is no longer held properly and that portions of lining can come away, in particular from the top portion of the cavity under gravity, thereby obstructing the cavity at least in part.
OBJECTS AND SUMMARY OF THE INVENTION
An object of the present invention is to overcome the drawbacks of the prior art by providing a fixing device for fixing a tubular element into a cavity that is inaccessible to an operator, which device is quick and simple to install, and therefore inexpensive to install. In particular, the invention provides a device which can be installed without requiring the use of a robot or of major external infrastructure.
The present invention provides a device for fixing at least one tubular element in a cavity, which device is made up of hoops made of an elastically flexible material disposed in cross-sectional planes of said cavity, and means for retaining said element, said device being characterized in that, along the longitudinal axis of said cavity, said hoops are secured together by a flexible longitudinal support and are interconnected by a flexible membrane.
The hoops are in the form of rings that are open in part and that are made of a material that is elastically flexible and resilient. They are disposed in cross-sectional planes of the cavity at regular intervals along the longitudinal axis of the cavity. Their function is to hold the tubular element against the wall of the cavity, advantageously at the highest point. Preferably, said hoops are made of a material selected from a metal, in particular steel, a plastics material, glass fibers, carbon fibers, an elastomer, and a composite material.
The membrane interconnecting the hoops along the longitudinal axis of the cavity is made of a material that is flexible and strong such as an elastomer, e.g. a polyurethane or a silicone, in order to adapt to match the irregularities of the cavity, such as a change of direction. Advantageously, the membrane is subjected to tension when the device is made so as to avoid any risk of subsequent creep of the material. The presence of the membrane secures the hoops together and makes it unnecessary to use a tool for installing the device in the cavity.
In a preferred embodiment, said membrane covers said hoops. Thus, the hoops are protected from attack from the surroundings, and in particular from corrosion. For example, the device may be manufactured by extrusion, casting, molding, or assembling together two thicknesses of membrane on either side of the hoops.
The longitudinal support is used to impart a certain amount of stiffness to the device so as to maintain fixed spacing between the hoops throughout the entire time during which the device is being installed in the cavity. The support must however be capable of bending so as to adapt to match the configuration of the cavity, in particular the relief or changes of direction. The longitudinal support may be the tubular element itself, or else a semi-rigid strength member. The support is incorporated into the membrane while the device is being manufactured.
Each hoop is provided with means for retaining the tubular element. For example, said means may be made by deforming a portion of the hoop so as to form a cradle-forming recess for receiving the tubular element. In which case, the tubular element may itself constitute the longitudinal support by being fixed or welded to the hoop. The retaining means may also consist of a separate holding part mounted on the hoop and serving to receive the tubular element.
The tubular element may be a cable, and in particular an optical fiber cable used for telecommunications, or else a hollow tube serving to receive one or more cables. In which case, the tube may be smooth or corrugated. A corrugated tube offers the advantage of being more flexible than a smooth tube, and of avoiding its wall being kinked into the inside of the tube during bending. The tube is made of a material selected from metal, in particular steel, a plastics material, glass fibers, carbon fibers, an elastomer, and a composite material.
The present invention offers the advantage that this device can be used in all types of cavity, in particular a cavity that is inaccessible to an operator, and even a cavity of very small diameter, provided that the device does not obstruct the cavity, beca
Gauthier Philippe
Herrmann Peter Friedrich
Wurier Bernard
Alcatel
Brinson Patrick
Sughrue & Mion, PLLC
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