A hair dryer, including: a housing provided with an air intake and an air outlet, and having an air passage communicating the air intake with the air outlet; a fan installed in the air passage for discharging air from the air intake to the air outlet; and a water particle generator installed in the housing for providing water particles in a direction towards the air outlet; where an installing cavity for installing the water particle generator is provided in the housing, the installing cavity has a cold air passage connected to the air intake and a particle outlet for releasing the water particles, and when in operation of the hair dryer, cold air flowing through the cold air passage that carries the water particles generated by the water particle generator is blown out of the particle outlet.

Provided is a system and a heating method for the system, that includes a stand, a heatable headform disposed on a one end of the stand, and a power supply for receiving power via a power connector from an external power source. The heatable headform receives power from the external power source via the power supply. The system further includes a replaceable human hair covering formed of heat conductive material, to be placed over the heatable headform and heated via the heatable headform for performing hair processing or other chemical processing operations thereon, to simulate that of a human being.

An intelligent head cover includes: multiple sensors, a hairstyle processing component and a controller; where the multiple sensors are configured to acquire sensory data related to a user, the controller is configured to control the hairstyle processing component to perform a hairstyle processing action based on a control instruction. The control instruction is generated based on the sensory data.

Disclosed is a disposable hair conditioning cap to facilitate deep hair conditioning. The disposable hair conditioning cap may include a plurality of fabric layers conforming to a crown of a user. Further, the disposable hair conditioning cap may include at least one heating element disposed within at least one of the plurality of fabric layers. Further, the at least one heating element is configured to generate heat based on contact of the at least one heating element with at least one activating substance.

A hair cooling apparatus includes a wearable headgear. The wearable headgear includes a flexible hose, securely positioned in a zigzag pattern within an interior cavity of the wearable headgear. The flexible hose is configured to circulate air within the interior cavity via a plurality of openings via a connector using a blower unit. The blower unit is securely positioned in a portable carrier and powered using one or more batteries. The blower unit is configured to supply air within the interior cavity of the wearable headgear via the flexible hose. The apparatus produces cooling to the user's hair and protects from the moisture for preserving an opted hairstyle of the user without affecting the lifestyle. The wearable headgear further comprises a moisture absorbing material, configured to effectively absorb the sweat around the user's brow, ear portions, and the neck portion.

A hair dryer, including: a housing provided with an air intake and an air outlet, and having an air passage communicating the air intake with the air outlet; a fan installed in the air passage for discharging air from the air intake to the air outlet; and a water particle generator installed in the housing for providing water particles in a direction towards the air outlet; where an installing cavity for installing the water particle generator is provided in the housing, the installing cavity has a cold air passage connected to the air intake and a particle outlet for releasing the water particles, and when in operation of the hair dryer, cold air flowing through the cold air passage that carries the water particles generated by the water particle generator is blown out of the particle outlet.

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.

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.

A moisturizing steam cap and method for hair moisturizing, where the moisturizing steam cap includes: an outer surface; an inner portion; a flap pocket stitched onto the inner portion, where the flap pocket includes a slit opening on one side of the pocket; and a moisturizing insert, where the moisturizing insert is placed into the flap pocket. The moisturizing insert may include an outer layer and a protective barrier. The steps related to a method of hair moisturizing according to the present invention includes: saturating a moisturizing insert with a moisturizing substance, inserting a moisturizing insert into a flap pocket of a moisturizing steam cap; placing a moisturizing steam cap over a user's hair; and heating the moisturizing insert releasing steam with the moisturizing steam cap.

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.