A heat exchanger cleaning device is provided. The cleaning device includes a drive motor configured to rotate a gearbox, a slip clutch and a support beam about a first axis. The support beam carries a thread rod, a second motor, and one or more carriage assemblies. The carriage assemblies move linearly as the second motor rotates the threaded rod. The carriage assemblies include a support tube for receiving an ultra-high pressure tube therethrough. The carriage assemblies adjust relative to the heat exchanger such that the UHP tube may be inserted through the support tube into a hole of the heat exchanger. Therein the UHP tube may be advanced to clean sediment from the heat exchanger tube.

An apparatus for positioning a flexible lance drive device in registry with an opening into a heat exchanger tube sheet includes a flat plate bracket adapted to be bolted parallel to a flange of the heat exchanger. The bracket carries a stub tube fastened to and extending normal to the flat bracket. A rotary drive is removably fastened to the stub tube and has a rotary disc rotatable in a plane parallel to the tube sheet. A slotted box rail has a proximal end clamped to the rotary disc and a linear drive assembly is removably fastened to the slotted box rail. A guide tube collet block assembly clamped to the linear drive assembly removably supports a flexible lance drive and guide tube to guide a flexible lance between the lance drive and a selected one of a plurality of tubes penetrating through the heat exchanger tube sheet.

An apparatus for positioning a flexible lance drive device in registry with an opening into a heat exchanger tube sheet includes a flat plate bracket adapted to be bolted parallel to a flange of the heat exchanger. The bracket carries a stub tube fastened to and extending normal to the flat bracket. A rotary drive is removably fastened to the stub tube and has a rotary disc rotatable in a plane parallel to the tube sheet. A slotted box rail has a proximal end clamped to the rotary disc and a linear drive assembly is removably fastened to the slotted box rail. A guide tube collet block assembly clamped to the linear drive assembly removably supports a flexible lance drive and guide tube to guide a flexible lance between the lance drive and a selected one of a plurality of tubes penetrating through the heat exchanger tube sheet.

A system is disclosed for cleaning the interiors of tubes in heat exchangers such as condensers and other devices having numerous substantially parallel tubes which periodically become fouled, scaled, or otherwise encumbered with deposits. An air-actuated seal resides on the end of a nozzle which is projected into the open end of a condenser tube or other heat exchanger tube to be cleaned. An air cylinder and piston retract the end of the nozzle on actuation of a single trigger valve on a manually operated water gun, which both begins high pressure water flow and operates the piston. On actuation of the trigger valve, the segment of the nozzle which has been inserted is retracted a short distance, crimping a flexible sleeve which surrounds it into a tight seal on the inner surface of the tube, thus preventing backflow or back spray. The system may employ projectiles designed to pass through the tubes under pressurized water, released by the gun, in close proximity to the interior surfaces of the tubes so that they may remove the deposits with a scraping or abrading action. The air-actuated sealing nozzle relieves the operator from arduous, repeated forcing of the nozzle into the tubes to maintain sealing contact with the interiors of the tubes. The system is readily adaptable to, and includes, a multi-nozzle arrangement actuated by a single trigger.

A system is disclosed for cleaning the interiors of tubes in heat exchangers such as condensers and other devices having numerous substantially parallel tubes which periodically become fouled, scaled, or otherwise encumbered with deposits. An air-actuated seal resides on the end of a nozzle which is projected into the open end of a condenser tube or other heat exchanger tube to be cleaned. An air cylinder and piston retract the end of the nozzle on actuation of a single trigger valve on a manually operated water gun, which both begins high pressure water flow and operates the piston. On actuation of the trigger valve, the segment of the nozzle which has been inserted is retracted a short distance, crimping a flexible sleeve which surrounds it into a tight seal on the inner surface of the tube, thus preventing backflow or back spray. The system may employ projectiles designed to pass through the tubes under pressurized water, released by the gun, in close proximity to the interior surfaces of the tubes so that they may remove the deposits with a scraping or abrading action. The air-actuated sealing nozzle relieves the operator from arduous, repeated forcing of the nozzle into the tubes to maintain sealing contact with the interiors of the tubes. The system is readily adaptable to, and includes, a multi-nozzle arrangement actuated by a single trigger.

The present disclosure relates generally to water jet equipment. Specifically, water jet equipment that includes a support frame comprised of a plurality of stackable trollies that support a plurality of lances as those lances are inserted into and withdrawn from heat exchanger tubes during a cleaning operation of the same. A method of cleaning elongated tubes by positioning and rotating the lances while moving in a first direction is further provided.

The present disclosure relates generally to water jet equipment. Specifically, water jet equipment that includes a support frame comprised of a plurality of stackable trollies that support a plurality of lances as those lances are inserted into and withdrawn from heat exchanger tubes during a cleaning operation of the same. A method of cleaning elongated tubes by positioning and rotating the lances while moving in a first direction is further provided.

Air flow apparatus has at least one array of air channels, an air duct covering the array of air channels and being connected to the air channels, a fan arranged at the air duct for generating an air flow through the array of air channels, a cleaning device for the array of air channels arranged inside the air duct, the cleaning device including: a nozzle bar extending in front of the array of air channels and a nozzle manifold including a plurality of nozzles arranged along the nozzle bar and directed towards the array of air channels, wherein the nozzle bar is mounted to the air flow apparatus to be movable across at least a section of the array of air channels.

Air flow apparatus has at least one array of air channels, an air duct covering the array of air channels and being connected to the air channels, a fan arranged at the air duct for generating an air flow through the array of air channels, a cleaning device for the array of air channels arranged inside the air duct, the cleaning device including: a nozzle bar extending in front of the array of air channels and a nozzle manifold including a plurality of nozzles arranged along the nozzle bar and directed towards the array of air channels, wherein the nozzle bar is mounted to the air flow apparatus to be movable across at least a section of the array of air channels.

Water-jet cleaning system and a method of cleaning a heat exchanger. The equipment includes a rotary tool having a lance with at least two degrees of freedom. The lance's movements relative to openings defined in the heat exchanger face plate are controlled via a smart indexing controller. The controller includes an electronic communication device that is specifically programmed to selectively activate various components of the rotary tool and a water delivery system. The programming utilizes an observed, learned, or uploaded pattern of the heat exchanger tube openings to selectively rotate the lance relative to the rotary tool's mounting assembly or linearly move the lance towards or away from the mounting assembly. The controller moves the lance to align a nozzle thereon with a selected opening in the face plate and then delivers a high pressure water jet therethrough.