Disclosed herein is a method of controlling a haircare appliance including a heater. The method includes measuring a temperature of output air of the haircare appliance to obtain a measured output air temperature. The method includes comparing the measured output air temperature to a desired output air temperature. The method includes determining a desired heater temperature based on the comparison of the measured output air temperature to the desired output air temperature. The method includes predicting a predicted heater temperature. The method includes comparing the predicted heater temperature to the desired heater temperature. The method includes outputting a control signal based on the comparison of the predicted heater temperature to the desired heater temperature.

A portable wig and cap drying stand for use with a portable electric hairdryer. The stand has a base which receives the bottom or fan section of the hairdryer and holds the nozzle of the hair dryer directed vertically away from the stand and towards a wig support. A hollow cylinder fits over the nozzle and connects the wig support to the base of the stand. The hairdryer is turned on for drying the wig or hat on the stand. When not in use, the stand may be compacted by removing or collapsing the cylinder, for portability and packability.

A hairdryer including a heater, a fluid flow path and a thermal fuse wherein the fluid flow path extends from a fluid inlet to a fluid outlet, the heater extends within the fluid flow path from an upstream end of the heater to a downstream end of the heater and the thermal fuse extends across the downstream end of the heater. The heater may be generally cylindrical in shape and the thermal fuse may extend at least partially radially across the downstream end of the heater. The heater may be annular in cross-section and the thermal fuse may extend at least partially radially across the annular downstream end of the heater. The heater may comprise an element, a scaffold around which the element is wound and an outer wall wherein the outer wall extends about the element and the scaffold.

A multifunctional hair treatment device. A handpiece in the shape of a glove has nozzles on fingers thereof. A device body draws in and heats ambient air, thereby creating hot wind. A blower tube connects the nozzles of the handpiece to the device body to supply hot wind created in the device body to the nozzles of the handpiece. A user can dry and style hair using the handpiece worn on his or her hand.

A multifunctional hair treatment device. A handpiece in the shape of a glove has nozzles on fingers thereof. A device body draws in and heats ambient air, thereby creating hot wind. A blower tube connects the nozzles of the handpiece to the device body to supply hot wind created in the device body to the nozzles of the handpiece. A user can dry and style hair using the handpiece worn on his or her hand.

A portable and wearable hair styling device includes a headband configured to conform to a head of a user, a hair wrap attached to the headband, wherein the hair wrap includes a flexible inside layer, an air distribution network, and a flexible outside layer attached to the flexible inside layer creating an interior volume between the flexible inside layer and the flexible outside layer, wherein the flexible outside layer includes a hair dryer attachment and a clip configured to close a lower portion of the hair wrap around hair of the user.

A portable and wearable hair styling device includes a headband configured to conform to a head of a user, a hair wrap attached to the headband, wherein the hair wrap includes a flexible inside layer, an air distribution network, and a flexible outside layer attached to the flexible inside layer creating an interior volume between the flexible inside layer and the flexible outside layer, wherein the flexible outside layer includes a hair dryer attachment and a clip configured to close a lower portion of the hair wrap around hair of the user.

A wall-mounted hair dryer includes a housing having at least one outer wall with a turbo air blower received therein. On the outer wall are a pair of control switches for adjusting both the blower speed and the intensity of an internal heater. At the upper end of the housing is a manifold in fluid communication with the air blower. The manifold includes at least a left, a right and a central conduit, each having an outlet with an adjustable, louvered nozzle mounted thereon. The nozzles surround an adjustable mirror for assisting a user with styling the hair. The blower housing is mounted on a wall or door using one of three mounting brackets.

A hands-free dryer allows for drying of a target while permitting the hands of a user to not be controlling the operation of the hands-free dryer. The hands-free dryer includes a blower for providing air flow, an orientation system allowing the blower to be adjustably oriented at an angle. There is a semi-rigid flexible hose connected to the blower that retains its configuration without the user having to maintain the configuration. Also, there is a support system that provides support for the hands-free dryer while worn by the user.

A hair cooling and dehumidification apparatus includes a wearable headgear. The wearable headgear includes an outer layer, an insert layer, and an inner layer. The outer layer includes a supply port. The supply port is in fluid communication with a high-pressure storage tank via a vortex tube. The insert layer, detachably attached to the outer layer, includes a network of ducts and detachable insert elements. The ducts are in fluid communication with the supply port to receive a cooling gas from the vortex tube and distribute the cooling gas to the hair. The detachable insert elements are detachably attached to the insert layer via fasteners. The detachable insert elements, spaced apart to accommodate the network of ducts there between, comprise desiccant materials embedded within for absorbing moisture. The inner layer is proximal to the hair of the user to transfer the cooling gas to the hair.