Certain exemplary embodiments can provide a system, machine, device, and/or manufacture that is configured for operably releasing condensate received from a condensate-producing unit toward a drain without allowing a substantial quantity of gas to flow through the system, machine, device, and/or manufacture, those embodiments including a float and/or a housing.

A manifold for a steam system is provided with a body forming a first chamber extending between an inlet and an outlet along a first axis and a second chamber extending from a face of the body along a second axis to intersect the first chamber. A first piston valve sub-assembly is disposed in the second chamber to enable and disable steam communication between the second chamber and a first port. A second piston valve sub-assembly is disposed in the second chamber to enable and disable steam communication between the second chamber and a second port. A handle is mounted for rotation relative to the face. A valve stem is connected to the handle and mounted for translation within the second chamber in response to rotation of the handle between four positions to individually activate and deactivate the first piston valve sub-assembly and the second piston valve sub-assembly.

The present disclosure relates to a condensate trap for a gas furnace for collecting and discharging condensate generated in a heat exchanger and an exhaust pipe, the condensate trap including: a first inlet through which the condensate generated in the heat exchanger is introduced; a second inlet through which the condensate generated in the exhaust pipe is introduced; a first passage through which the condensate introduced from the first inlet passes; a second passage through which the condensate introduced from the second inlet passes; a discharge port through which the condensate, having passed through the first passage and the second passage, is discharged outside; and a backflow prevention device disposed on the first passage and configured to prevent backflow of air, wherein the backflow prevention device includes: a housing; and a core which is movably disposed in the housing, and which in response to an amount of the condensate introduced from the first inlet being less than or equal to a predetermined amount, prevents backflow of the air by closing the first passage.

A manifold for a steam system is provided with a body forming a first chamber extending between an inlet and an outlet along a first axis and a second chamber extending from a face of the body along a second axis to intersect the first chamber. A first piston valve sub-assembly is disposed in the second chamber to enable and disable steam communication between the second chamber and a first port. A second piston valve sub-assembly is disposed in the second chamber to enable and disable steam communication between the second chamber and a second port. A handle is mounted for rotation relative to the face. A valve stem is connected to the handle and mounted for translation within the second chamber in response to rotation of the handle between four positions to individually activate and deactivate the first piston valve sub-assembly and the second piston valve sub-assembly.

A method of maintaining a backpressure of a fluidic product is provided. The method includes pressurizing a first reservoir to a first predetermined pressure level using compressed air, delivering the fluidic product to the pressurized first reservoir until a current level of the fluidic product in the first reservoir reaches a first predetermined level, pressurizing a second reservoir to a second predetermined pressure level using the compressed air, delivering the fluidic product to the pressurized second reservoir until a current level of the fluidic product in the second reservoir reaches a second predetermined level, and controlling the backpressure of the fluidic product using the first reservoir and the second reservoir such that a discharge flow of the fluidic product is continuous.

Certain exemplary embodiments can provide a system, machine, device, and/or manufacture that is configured for operably releasing condensate from a condensate producing system to a drain without allowing a substantial quantity of air to enter the condensate producing system from the drain or a substantial quantity of air to exit the condensate producing system to the drain.

Certain exemplary embodiments can provide a system, machine, device, and/or manufacture that is configured for operably releasing condensate from a condensate-producing unit without allowing a substantial quantity of gas to enter the condensate-producing unit and/or a substantial quantity of gas to flow through the system, machine, device, and/or manufacture.

Certain exemplary embodiments can provide a system, machine, device, and/or manufacture that is configured for operably releasing condensate from a condensate-producing unit without allowing a substantial quantity of gas to enter the condensate-producing unit and/or a substantial quantity of gas to flow through the system, machine, device, and/or manufacture.

A valve device includes: a casing including a valve chamber; a valve seat disposed in the valve chamber and including a valve hole; a float disposed in the valve chamber and movable in accordance with the amount of drain in the valve chamber to thereby open and close the valve hole; and a support supporting the float in the state of being seated on the valve seat and closing the valve hole. The support includes a base including an opening and having a frame shape, and two float seats disposed in the base, and the float in the state of being seated on the valve seat and closing the valve hole is seated on the two float seats.

A float drain for an enclosure can include a basket to collect liquid from the enclosure, a sealing structure surrounding an outlet of the basket, and a float configured to seat against the sealing surface to prevent fluid flow out of the outlet and to rise off of the sealing surface due to buoyancy forces as the liquid collects in the basket. The float drain can include other features, including: ribs or other protrusions extending into an interior are of the basket to space the float apart from an inner wall of the basket; an angled orientation of the sealing surface; and a trough, at least partly defined by the sealing structure, to collect debris.