Cooling systems are provided. The cooling systems include a plurality of cooling units. Each cooling unit has a base having a housing with control components, a cooling tower attached to the base at a first end of the cooling tower, with an inner flow path and an exterior surface, and an air distribution system attached to the cooling tower at a second end. The air distribution system includes an air distribution chamber between first and second enclosures, cool and warm air dispensers are configured in the first enclosure, and a cover is disposed on an exterior of the enclosures. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the air dispensers. At least two of the cooling units of the plurality of cooling units are arranged in a linear arrangement.

Cooling units are provided. The cooling units include abase having a housing with control components, a cooling tower attached to the base and having an inner flow path and an exterior surface. An air distribution system is attached to the cooling tower and includes an air distribution chamber defined between first and second enclosures, air dispensers are configured in the first enclosure, and a cover disposed on an exterior surface of the second enclosure. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the cool air dispenser and the warm air dispenser and an electronics package installed on the cooling unit.

Cooling unit (100, 200) including a base (102, 202) having a housing with control components (110, 112, 212), a cooling tower (104, 204) attached to the base (102, 202) at a first end of the cooling tower (104, 204), the cooling tower (104, 204) having an inner flow path and an exterior surface, and an air distribution system (106, 206) attached to the cooling tower (104, 204) at a second end of the cooling tower (104, 204). The air distribution system (106, 206) has a first enclosure (130), a second enclosure (132) defining an air distribution chamber (126) between the first and second enclosures, a cool air dispenser (138) configured in the first enclosure (130), a warm air (142) dispenser configured in the first enclosure (130) at a location different from the cool air dispenser (138), and a cover (144) disposed on an exterior surface of the second enclosure (132). The control components (110, 112, 212) are configured to convey air through the base (102, 202), the cooling tower (104, 204), and the air distribution system (106, 206) to dispense air through the cool air dispenser (138) and the warm air dispenser (142).

Cooling units are provided. The cooling units include a base having a housing with control components and a cooling tower attached to the base and having an inner flow path and an exterior surface. An air distribution system is attached to the cooling tower and includes an air distribution chamber defined between first and second enclosures, air dispensers are configured in the first enclosure, and a cover is disposed on an exterior surface of the second enclosure. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the cool air dispenser and the warm air dispenser. A cooling unit water supply is arranged to provide cooling water to the air distribution system through the cooling tower and a water treatment module connected to the cooling unit water supply to treat the cooling water.

Cooling units are provided. The cooling units include a base having a housing with control components and a cooling tower attached to the base having an inner flow path and an exterior surface. An air distribution system is attached to the cooling tower and includes an air distribution chamber defined between the first and second enclosures and a cover is disposed on an exterior surface of the second enclosure. A plurality of dispersing apertures are formed within the first enclosure to generate a curtain of cool air to be dispensed from the air distribution system. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the cool air dispenser and the warm air dispenser.

Cooling units are provided. The cooling units include a base having a housing with control components and a cooling tower attached to the base having an inner flow path and an exterior surface. An air distribution system is attached to the cooling tower and includes an air distribution chamber defined between first and second enclosures, a cool air dispenser configured in the first enclosure, a warm air dispenser configured in the first enclosure at a location different from the cool air dispenser, and a cover disposed on an exterior surface of the second enclosure. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the cool air dispenser and the warm air dispenser and a plurality of ducts connect the cooling tower to at least one of the cool air dispenser and the warm air dispenser.

Cooling units are provided. The cooling units include a base having a housing with control components and a cooling tower attached to the base having an inner flow path and an exterior surface. An air distribution system is attached to the cooling tower and includes an air distribution chamber defined between first and second enclosures, air dispensers are configured in the first enclosure, and air flowing through the cooling tower mixes within the air distribution chamber to form a single stream of air to be dispensed through the air dispenser. The control components are configured to convey air through the base, the cooling tower, and the air distribution system to dispense air through the air dispenser.

An air blowing device includes: an air blower provided in connection with a support stand, the air blower being configured to generate rising air; a support frame attached to the support stand; and a wind-direction changing device configured to change a wind direction to a direction crossing a direction of the rising air upon receipt of the rising air, wherein descending air blown to periphery around the air blower is generated by the wind-direction changing device, and the wind-direction changing device is supported by the support frame.

An intelligent umbrella includes a base assembly, a center support assembly having one or more arm support assemblies, and one or more arms coupled to the one or more arm support assemblies. The center support assembly is a tubular structure to house electrical and mechanical components. The umbrella includes a computing device, the computing device integrated inside the center support assembly. The computing device includes one or more memory devices, one or more processors and computer-readable instructions stored in the one or more memory devices and executable by the one or more processors. The intelligent umbrella includes a shading fabric. The intelligent umbrella includes a camera, the camera to capture images of an area in proximity to the intelligent shading umbrella, the camera integrated inside the center support assembly.

Systems, methods, and computer-readable storage devices for providing directions haptically such that sight and hearing can continue unimpeded. In one exemplary embodiment, a wearable device (such as earphones, ear rings, gloves, glasses, or other wearable objects) configured as disclosed herein receives directions to an intended destination for a user, the directions comprising a movement action and a distance to the movement action. The wearable device has multiple haptic output units and generates, through one of those units, a haptic output based on the directions. This allows the user to receive the directions through touch rather than looking at their mobile device or from audio.