An apparatus removes clogs from a condensate drain line. The apparatus includes: a vacuum attached to the condensate drain line, the vacuum pulling the clog material from the drain line, a control unit, an apparatus inlet forming a sealed connection point attaching the vacuum to the condensate drain line, an apparatus outlet allowing for drainage of the condensate, the outlet disposed lower than the inlet, a housing formed from durable, weatherproof material with a watertight seal, and a power supply powering the vacuum.

An apparatus removes clogs from a condensate drain line. The apparatus includes: a vacuum attached to the condensate drain line, the vacuum pulling the clog material from the drain line, a control unit, an apparatus inlet forming a sealed connection point attaching the vacuum to the condensate drain line, an apparatus outlet allowing for drainage of the condensate, the outlet disposed lower than the inlet, a housing formed from durable, weatherproof material with a watertight seal, and a power supply powering the vacuum.

A vehicle includes at least one hose extending from the vehicle and configured to extend below ground through a manhole, and a light system. The light system includes a storage member, such as a retractable reel, coupled to the vehicle, a flexible line wrapped at least partially around the storage member, and a light source coupled to the flexible line. The storage member is adapted to selectively extend and retract the light source together with the hose below ground, and the light source is storable on the vehicle adjacent the storage member. The light source has a self-contained power source. In some systems, the flexible line and/or the light source are removable from the vehicle so they can be moved to a remote location from the vehicle.

A vehicle includes at least one hose extending from the vehicle and configured to extend below ground through a manhole, and a light system. The light system includes a storage member, such as a retractable reel, coupled to the vehicle, a flexible line wrapped at least partially around the storage member, and a light source coupled to the flexible line. The storage member is adapted to selectively extend and retract the light source together with the hose below ground, and the light source is storable on the vehicle adjacent the storage member. The light source has a self-contained power source. In some systems, the flexible line and/or the light source are removable from the vehicle so they can be moved to a remote location from the vehicle.

A vacuum suction head can include an opening formed in a backend section that is connectable to a flexible hose 120 associated with the vacuum unit, a middle body that can provide a handle area for a technician to hold the suction head 130 during use, or alternatively can be used to mount equipment (e.g., lights/sensors), and a face section having upper and lower chamfer slots to act as scoops to draw in debris, and which are essentially slits formed along the outer perimeter of the face section wherein debris (and/or liquid) can easily be drawn into the suction head, and ultimately to the vacuum unit 110, where after the debris (or liquid) can be properly disposed. Upper chamfer slots can be located 90 degrees away from the lower chamfer slots, where all upper/lower chamfer slots can provide 360 degree coverage around the face section in order to draw in debris from around an entire internal surface area of beam pipe or vessel under treatment.

A vacuum suction head can include an opening formed in a backend section that is connectable to a flexible hose 120 associated with the vacuum unit, a middle body that can provide a handle area for a technician to hold the suction head 130 during use, or alternatively can be used to mount equipment (e.g., lights/sensors), and a face section having upper and lower chamfer slots to act as scoops to draw in debris, and which are essentially slits formed along the outer perimeter of the face section wherein debris (and/or liquid) can easily be drawn into the suction head, and ultimately to the vacuum unit 110, where after the debris (or liquid) can be properly disposed. Upper chamfer slots can be located 90 degrees away from the lower chamfer slots, where all upper/lower chamfer slots can provide 360 degree coverage around the face section in order to draw in debris from around an entire internal surface area of beam pipe or vessel under treatment.

A toilet clearing vacuum attachment apparatus for clearing a clogged toilet includes a rigid connector. The connector is cylindrical and configured to attach to an intake of a wet vacuum. A hose is coupled to the connector. The hose has a cylindrical portion extending from the connector and a D-shaped toilet portion extending from the cylindrical portion. A rigid tip is coupled to a distal end of the toilet portion of the hose. The rigid tip is an extruded D-shape configured to fit within a trap of a toilet.

A toilet clearing vacuum attachment apparatus for clearing a clogged toilet includes a rigid connector. The connector is cylindrical and configured to attach to an intake of a wet vacuum. A hose is coupled to the connector. The hose has a cylindrical portion extending from the connector and a D-shaped toilet portion extending from the cylindrical portion. A rigid tip is coupled to a distal end of the toilet portion of the hose. The rigid tip is an extruded D-shape configured to fit within a trap of a toilet.

An autosampler sucks cleaning liquid from a tip side of a sampling needle and holds the cleaning liquid in the sampling channel before sucking analysis liquid from the tip of the sampling needle, and, after dispensing of the analysis liquid is finished, discharges the cleaning liquid from the tip of the sampling needle, so as to clean the inside of the sampling needle and the sampling channel.

An autosampler sucks cleaning liquid from a tip side of a sampling needle and holds the cleaning liquid in the sampling channel before sucking analysis liquid from the tip of the sampling needle, and, after dispensing of the analysis liquid is finished, discharges the cleaning liquid from the tip of the sampling needle, so as to clean the inside of the sampling needle and the sampling channel.