Example aspects of a pipe repair assembly, a deployment probe for repairing a pipeline, and a method of repairing a pipeline are disclosed. The pipe repair assembly can comprise a retainer device comprising a retainer tab extending into a retainer slot, the retainer device movable between an engaged position and a disengaged position; and a pipe repair device comprising a spring and an engagement tab, the engagement tab defining a channel, wherein, in the engaged position, the engagement tab is received in the retainer slot and the retainer tab engages the channel, and in the disengaged position, the engagement tab is disposed outside of the retainer slot and the retainer tab is disengaged from the channel.

The present disclosure relates to a pig which is insertable at least partly within a fabric liner sleeve located in a duct and which is capable of heating the liner sleeve in situ in the duct to melt thermoplastic material of the liner sleeve to form, on subsequent cooling of the melted thermoplastic material, a rigid liner in the duct. The pig comprises: a gas inlet (1008) for receiving pressurised gas; a heating chamber (17) in which the pressurised gas is heated; and a gas outlet (1009) via which pressurised gas heated in the heating chamber (17) is deliverable to the fabric liner sleeve. The pig comprises a tree diffuser (15) located in the heating chamber (17) via which pressurised gas can be delivered into the heating chamber (17). The tree diffuser (15) has a plurality of branch pipes (A,B,C) each comprising at least one gas delivery aperture, each branch pipe (A,B,C) extending outwardly from a trunk portion of the tree diffuser (15).

The invention relates to a curing apparatus having at least one UV module (3), wherein the UV module (3) has at least one UV light source (6) for irradiating the inner wall of a pipe (1), wherein the UV module (3) that has been introduced into the pipe (1) is connected, by means of a cable (7), to a control device (9) that is situated outside of the pipe (1). It is an object of the invention to provide a curing apparatus in which the cable (7) for connecting the UV modules (3) to the control device (9) has a cross section that is reduced in comparison with the prior art. As a result, longer pipeline portions should be able to be renovated in one piece. Moreover, the electrical power losses in the cable (7) should be reduced. To this end, the invention suggests that at least one operating appliance (10) that is connected to the cable (7) and the UV light source (6) is arranged at each UV module (3), wherein the control device (9) actuates the operating appliance (10) by way of the cable (7) for the purposes of operating the UV light source (6).

A system for maintaining conduits and pipes after their installation into a pipeline system used to transport material in a fluid or flowable form. The system includes a maintenance tool adopted for use inside the pipe, an umbilical attached to the maintenance tool for pulling the tool through the pipe; and a pluralities of bearings positioned around the umbilical in order to allow the tool to be pulled through the pipe around bends and turns in the pipe.

An ultraviolet curing pipeline repair robot is provided. The ultraviolet radiation lamp comprises a lamp panel distributed at the circumference of frame body and ultraviolet LED lamps uniformly distributed on the lamp panel. Each frame body is provided with a spring sleeve circumferentially rotating around frame body. Each driving arm is formed by cross connection of two supporting arms. One end of the first supporting arm is fixedly arranged on frame body, one end of the second supporting arm is connected with a driving arm nut, and the driving arm nut is sleeved the spring sleeve and matched with the screw thread on the outer surface of the spring sleeve. The inside of a tail section of frame body is provided with a network transmission module and a first power carrier module connected with a second aviation plug. A cable is a power cable.

Cables, such as telecommunications cables, fiber cables, conduits, and the like, can be installed in existing pipe systems to avoid the need for trenches. However, to aid in keeping the cables out of the flow of the pipes of the pipe system, the cable or cables are positioned adjacent a wall of the pipe. To hold or otherwise secure the cables in place, aspects of CIPP pipe repair are used in place of mechanical fasteners. This can take many forms, including, but not limited to, curable resins, resin impregnated liners or liner straps, T-liners, gaskets, etc. The resin or resinous liners can be inflated towards the wall of the pipe to hold the cables in place between the curable resin and the wall of the pipe.

A method and means for repairing the junction of a main and lateral pipe are provided. A repair assembly includes a launcher device, a bladder assembly surrounding the launcher device, and a liner assembly surrounding the bladder assembly. The bladder assembly is frangibly connected to the launcher device to maintain the position of the bladder assembly relative to the launcher device during transport and positioning of the assembly. Likewise, the liner assembly, which includes main and lateral liner members, is frangibly connected to the bladder assembly. The frangible connections allow the position of the repair assembly to be maintained. The frangible connections can be broken, such as by inflation and/or tearing or pulling apart of the components of the repair assembly. Thus, the invention provides a way to mitigate the movement of components of the repair assembly during transport and positioning of the repair assembly.

Systems and methods for forming and deploying a pipe liner in a pipe main having a service lateral. The line is formed from three pieces of material. The piece of material forming the front top and of the main liner and the front of the lateral line has a cutout at the joint to reduce bunching, which can result in non-uniform liner thickness and may form obstructions at the joint.

The present invention relates to a pig for use in a system for lining ducts such as water or sewage pipes or electrical ducts or gas pipes. The pig is insertable at least partly within a fabric liner sleeve located in a duct such as a water or sewage pipe and is capable of heating the liner sleeve in situ in the duct to melt or soften thermoplastic material of the liner sleeve to subsequently form, on cooling of the melted thermoplastic material, a rigid liner in the duct. A pig for fitting a liner to the inside of a pipe, comprising a pig body defining a longitudinal axis in a longitudinal direction from a front portion to a rear portion; a gas supply port in the front portion; a gas outlet diffuser forming part of the rear portion; a heating chamber in the pig body forming a flow path from the fluid inlet to the outlet diffuser; and a heater within the heating chamber, wherein the outlet diffuser comprises a plurality of channels, each channel comprising an inlet facing the front portion in the longitudinal direction and an outlet extending radially outwardly from the longitudinal axis.

Example aspects of a pipe repair assembly, a deployment probe for repairing a pipeline, and a method of repairing a pipeline are disclosed. The pipe repair assembly can comprise a retainer device comprising a retainer tab extending into a retainer slot, the retainer device movable between an engaged position and a disengaged position; and a pipe repair device comprising a spring and an engagement tab, the engagement tab defining a channel, wherein, in the engaged position, the engagement tab is received in the retainer slot and the retainer tab engages the channel, and in the disengaged position, the engagement tab is disposed outside of the retainer slot and the retainer tab is disengaged from the channel.