A base is provided for installation of an HVAC system which allows for high efficiency air intake. The HVAC base and air return system provides for intake of air simultaneously through the bottom and side of a furnace unit. The HVAC base and air return system allow for installation and use of a wider filter box.

A base is provided for installation of an HVAC system which allows for high efficiency air intake. The HVAC base and air return system provides for intake of air simultaneously through the bottom and side of a furnace unit. The HVAC base and air return system allow for installation and use of a wider filter box.

An automated storage and retrieval system for storing product items includes a framework structure with upright members and horizontal members and a storage volume including storage columns between the members. The framework structure includes a rail system arranged above the members. The automated storage and retrieval system further includes storage containers in which the product items are stored and container handling vehicles moving along the rail system for transporting the storage containers. The storage containers are stackable in stacks within the storage columns. The rail system includes rails and each rail includes tracks. Adjacent tracks of at least one rail of the rail system are separated by a ventilation slot extending in a vertical plane between two adjacent storage columns.

An automated storage and retrieval system for storing product items includes a framework structure with upright members and horizontal members and a storage volume including storage columns between the members. The framework structure includes a rail system arranged above the members. The automated storage and retrieval system further includes storage containers in which the product items are stored and container handling vehicles moving along the rail system for transporting the storage containers. The storage containers are stackable in stacks within the storage columns. The rail system includes rails and each rail includes tracks. Adjacent tracks of at least one rail of the rail system are separated by a ventilation slot extending in a vertical plane between two adjacent storage columns.

There is provided a wall port cover to be installed in building wall ports. Wall ports are simply openings in a wall or ceiling of a building which may be used to house electrical panels, HVAC systems, access panels, lighting switches, and the like. The wall port cover comprises an engagement means which is rotatable between an engaging position and a releasing position. In the engaging position, the engaging means extend beyond the wall port cover to engage a top surface of the wall or ceiling drywall panel to support and retain the wall port cover within the vent opening. In the releasing position, the engaging means are retracted within the wall port cover to disengage from the top surface of the wall or ceiling drywall panel to allow the wall port cover to be removed from the vent openings.

An autonomous device for measuring at least one characteristic of a fluid circulating in a conduit in a flow direction comprises a permanent magnetic field source, a magneto-electric converter and a processing circuit capable of using the electric charges supplied by the converter to supply a measurement of a characteristic of its environment. The source and the converter are placed in a stator and a rotor forming the device. The autonomous device further comprises attachment means allowing the stator to be fixedly placed in the conduit or at one end of the conduit, in a configuration in which the axis of rotation of the rotor is parallel to the flow direction. A control system may employ at least one such autonomous device.

A heating, ventilation, and/or air conditioning (HVAC) system includes a first condenser coil of a refrigerant circuit, wherein the first condenser coil is configured to receive a first refrigerant flow from a compressor of the refrigerant circuit, a modulating valve of the refrigerant circuit, and control circuitry communicatively coupled to the modulating valve. The modulating valve is configured to receive a second refrigerant flow from the compressor and configured to direct the second refrigerant flow to a second condenser coil of the refrigerant circuit and to a reheat coil of the refrigerant circuit in a parallel flow arrangement, and the control circuitry is configured to operate the modulating valve to apportion the second refrigerant flow between the second condenser coil and the reheat coil based on a detected operating parameter of an air flow directed across the reheat coil.

A heating, ventilation, and/or air conditioning (HVAC) system includes a first condenser coil of a refrigerant circuit, wherein the first condenser coil is configured to receive a first refrigerant flow from a compressor of the refrigerant circuit, a modulating valve of the refrigerant circuit, and control circuitry communicatively coupled to the modulating valve. The modulating valve is configured to receive a second refrigerant flow from the compressor and configured to direct the second refrigerant flow to a second condenser coil of the refrigerant circuit and to a reheat coil of the refrigerant circuit in a parallel flow arrangement, and the control circuitry is configured to operate the modulating valve to apportion the second refrigerant flow between the second condenser coil and the reheat coil based on a detected operating parameter of an air flow directed across the reheat coil.

An air conditioner switches between a normal refrigeration cycle and a defrosting refrigeration cycle, and includes: a refrigerant circuit that connects a first heat exchanger, a second heat exchanger, a radiation panel, and an expansion valve that regulates a flow rate of a refrigerant flowing through the radiation panel; and a controller that causes the air conditioner to switch between the normal refrigeration cycle and the defrosting cycle. During the normal refrigeration cycle, the radiation panel performs cooling or heating. During the defrosting cycle, the first heat exchanger serves as a radiator and the second heat exchanger serves as an evaporator. During the defrosting cycle, the controller causes the expansion valve to be in a fully closed state.

A method of installing a dryer vent in a building exterior foundation wall during construction of the building. The dryer vent installation method comprises mounting a rigid wall plate that includes a fastener tube, the fastener tube includes outwardly facing pins. The dryer vent installation method includes mounting a removable flapper housing with mounting slots, the housing including a flapper valve. The dryer vent installation method further includes removably fastening the flapper valve housing slots to the fastener tube pins.