An air conditioner housing assembly and an air conditioner are provided. The air conditioner housing assembly has a chassis for bearing a weight of the air conditioner. An enclosure plate of the assembly is fixed to an upper side of the chassis, and the enclosure plate extends in an up-down direction and is distributed around a periphery of the chassis. A housing of the assembly is fixed to the enclosure plate or the chassis, or both. An inner side of the housing is enclosed with the upper side of the chassis to form a containing space. The enclosure plate is located on the inner side of the housing. The enclosure plate is provided with a positioning portion, and the housing is provided with a positioning fit portion. The positioning portion is matched with the positioning fit portion to position the housing through the enclosure plate.

An air conditioner housing assembly and an air conditioner are provided. The air conditioner housing assembly has a chassis for bearing a weight of the air conditioner. An enclosure plate of the assembly is fixed to an upper side of the chassis, and the enclosure plate extends in an up-down direction and is distributed around a periphery of the chassis. A housing of the assembly is fixed to the enclosure plate or the chassis, or both. An inner side of the housing is enclosed with the upper side of the chassis to form a containing space. The enclosure plate is located on the inner side of the housing. The enclosure plate is provided with a positioning portion, and the housing is provided with a positioning fit portion. The positioning portion is matched with the positioning fit portion to position the housing through the enclosure plate.

A coating composition contains silica fine particles having an average particle size of 3 nm or more and 25 nm or less, a solvent having a boiling point of 150° C. or higher and 300° C. or lower, and water. The content of the silica fine particles is 0.1 mass% or more and 5 mass% or less. The content of the solvent is 20 mass% or more and 70 mass% or less.

A dust hood, useful for use in the compressed air and vacuum cleaning of a dusty apparatus placed therein, which is in the form of a flexible bag having a portion of its front face transparent with that front face also containing holes for a hose supplying compressed air and a hose supplying vacuum, respectively, for such cleaning.

A dust hood, useful for use in the compressed air and vacuum cleaning of a dusty apparatus placed therein, which is in the form of a flexible bag having a portion of its front face transparent with that front face also containing holes for a hose supplying compressed air and a hose supplying vacuum, respectively, for such cleaning.

An air conditioner indoor unit includes an air outlet frame, a front water receiving tray, and a panel. The air outlet frame includes an upper enclosure plate, a lower enclosure plate, and a side enclosure plate located between and connecting the upper enclosure plate and the lower enclosure plate. The front water receiving tray is above the upper enclosure plate and includes a protrusion section protruding out of the side enclosure plate and a water outlet hose at the protrusion section. The water outlet hose is configured to be received in a receiving cavity formed below the protrusion section and opening forward. The panel includes a cover member configured to cover the receiving cavity when the panel is in a closed state.

An air conditioner indoor unit includes an air outlet frame, a front water receiving tray, and a panel. The air outlet frame includes an upper enclosure plate, a lower enclosure plate, and a side enclosure plate located between and connecting the upper enclosure plate and the lower enclosure plate. The front water receiving tray is above the upper enclosure plate and includes a protrusion section protruding out of the side enclosure plate and a water outlet hose at the protrusion section. The water outlet hose is configured to be received in a receiving cavity formed below the protrusion section and opening forward. The panel includes a cover member configured to cover the receiving cavity when the panel is in a closed state.

A method for air conditioning including installing an air conditioning unit at a desired location. The air conditioning unit includes a housing that has air supply inlets and exhaust air outlets. The housing encloses a mode control unit that switches a zone coil associated with a zone from a cooling mode to a heating mode by switching from a cooling medium to a heating medium flowing through the zone coil. The zone coil receives the heating or cooling medium and conditions incoming air from a supply fan to be exhausted in a zone associated with the zone coil. A variable refrigerant flow cooling/heating unit provides a cooling medium or a heating medium at varying rates to control a temperature of a zone.

A method for air conditioning including installing an air conditioning unit at a desired location. The air conditioning unit includes a housing that has air supply inlets and exhaust air outlets. The housing encloses a mode control unit that switches a zone coil associated with a zone from a cooling mode to a heating mode by switching from a cooling medium to a heating medium flowing through the zone coil. The zone coil receives the heating or cooling medium and conditions incoming air from a supply fan to be exhausted in a zone associated with the zone coil. A variable refrigerant flow cooling/heating unit provides a cooling medium or a heating medium at varying rates to control a temperature of a zone.

The roof cover vent system comprises a vent sheath, a flange sheath, and a pitched roof. The pitched roof further comprises a roof vent and a roof pitch. The vent sheath attaches to the flange sheath to form a composite prism structure. The roof vent inserts into the composite prism structure formed by the vent sheath and the flange sheath. The composite prism structure formed by the vent sheath and the flange sheath enclose the lateral face and the inferior structures of the roof vent while allowing the roof vent to release gas into the atmosphere. The flange sheath is formed as a prismatic section. The prismatic section is selected such that center axis of the composite prism structure formed by the vent sheath and the flange sheath will remain parallel to the force of gravity while the flange sheath rests flush on the pitched roof.