Abstract: A cover assembly for ceiling registers connected to the air ducts or the trunk line of a central air conditioning system. The cover assembly is designed to prevent heat and moisture from entering the trunk line through the register or any wall sleeves, gaps and openings. The cover assembly is comprised of a flat rigid material of sufficient size to cover the opening of a ceiling register. The cover has a peripheral seal that presses against the rim face of the register by a fastening device. The fastening device attaches to the ceiling register to secure the cover to the ceiling register with an air tight seal.
Abstract: A diffuser assembly for an air-conditioning installation, has low thermal conductivity so that it can prevent from accumulating condensation and is incombustible enough. Each of the diffuser elements of the diffuser assembly contains 90% by weight or more of an inorganic fiber material or an inorganic material composed mainly of inorganic fibers and obtained by molding and curing with the use of a binder. The inorganic fibers used are preferably ceramic or polycrystalline mullite fibers.
Abstract: An element for use in ductwork of a heating and air conditioning system includes a converging shape that causes pressure of the air flowing therethrough to decrease and which establishes a negative pressure between the surroundings of the element and the air flowing through the element. A plurality of vents are defined in the element whereby air from a room flows into the element to be mixed with conditioned air in the element before that conditioned air is exhausted into the room. The converging shape of the element causes pressure to vary according to a specific relationship, and each of the vents has a cross sectional area that varies according to the same relationship whereby adjacent vents have different cross sectional areas.
Abstract: An air exchange system is disclosed for use in a building having a plurality of stories each having a base floor, finished floor, finished ceiling and rough ceiling. The system comprises a plurality of main distribution ducts each adapted to be located in the space defined between the finished ceiling of a lower story and the finished floor of an upper story lying immediately above the lower story. The main ducts are located on alternate floors and adapted to supply sufficient air for the two adjacent floors. Each of the main ducts are provided with at least one upper duct which communicates with an upper story through the base floor and at least one lower duct which communicates with a lower story through the rough ceiling thereof. A variable air volume control unit is connected to each upper and lower duct controlling the volume of conditioned air entering a story of the building in order to control the temperature within the user space therein.
Abstract: An air conditioning system comprises an air conditioning unit, a blower for blowing conditioned air, a polygonal branch chamber of prescribed volume, a main duct with damper for delivering conditioned air from the blower to the polygonal branch chamber and branch ducts with dampers for delivering the conditioned air from the polygonal branch chamber to a plurality of discrete spaces. The polygonal branch chamber ensures quiet operation. An electrical circuit board is mounted on the bottom of the polygonal branch chamber and all wiring required for control of the dampers and other components of the system are connected with this board to enable maintenance work to be conducted at a signal location. A circular inspection hole with removable cover is formed in the bottom of the polygonal branch chamber to provide easy access to its interior.
Type:
Grant
Filed:
October 3, 1990
Date of Patent:
September 29, 1992
Assignee:
Zexel Corporation
Inventors:
Ichiro Tanaka, Seiji Sasaki, Zen-ichi Kakubari, Osamu Kojima
Abstract: A system for providing individual comfort control. The system includes means, such as an air diffuser, for distributing conditioned air into an environment; a personal comfort device for selectively providing conditioned air to a portion of the environment; and means for remotely controlling the operation of the personal comfort device.
Abstract: A safety spring lock for locking an air pattern control in a diffuser includes a normally bowed strip carrying a retainer clip. The strip is flattened to engage the clip with a fixed part of the diffuser, the clip engages the diffuser and that engagement and the inherent bias of strip hold the spring lock in place in the diffuser. The safety lock includes a U-shaped portion spaced from the retainer clip and connected to the retainer carrying portion by a normally bowed strip which is flexed to a flattened position to locate the U-shaped portion adjacent to portion of the movable air pattern conrol when it part of the diffuser. The U-shaped portion is urged into engagement with a portion of the air pattern control to prevent movement thereof in the diffuser which would otherwise be sufficient to remove the air pattern control from the diffuser.
Abstract: An air conditioning apparatus is provided with an air conditioner embedded in a ceiling of a room provided with an air inlet port opening to the room, a heat exchanger and a blower. A duct box is connected to the air conditioner through a blow-off casing provided on the duct box to project air into the room via an air outlet opening to the room. A fan is disposed on a lower portion of the blow-off casing. A diffuser is provided for redirecting conditioning air from a vertical direction to a substantially horizontal direction. The fan is rotatable forward and backward and includes an outer rotor motor and a plurality of blades fixedly attached to an outer peripheral surface of an outer rotor of the motor.
Abstract: The air supply system for feeding air to a firebox within a building comprises a fresh air intake box (3) in the outside building wall (19) and, in the immediate vicinity of the firebox, a distributor box (7), connected with several pipes (5a, 5b, 5c, 5d). The fresh air intake box (3) has an extensible tube (25) for adaptation to varying wall thicknesses of the outside building wall (19). The prefabricated parts can be readily installed on the building site. By the use of several pipes (5a, 5b, 5c, 5d), the individual pipe cross section can be kept at a small value so that no static impairment of the building ceiling (11), wherein the pipes (5a, 5b, 5c, 5d) are extended, occurs. Advantageously, a fan can be installed in the extensible and readily removable tube (25) in order to increase the flow velocity of the fresh air; servicing of the fan is possible without any problems.