A dryer includes a fan configured to input and blow air, a heater configured to heat the blown air, an external temperature sensor configured to detect a body temperature of a drying target, an air temperature sensor configured to detect a temperature of the heated air, and a controller configured to enter a pre-warm mode when the body temperature is lower than a reference temperature, and to control the heater so that drying is performed at a pre-warm temperature higher than the body temperature and lower than the reference temperature in the pre-warm mode.

A blower includes a motor, a fan driven by the motor to rotate about a first axis, a power supply device, and a housing assembly accommodating the motor and including an inner duct and an outer duct assembly. The inner duct is formed with an inner air inlet. The outer duct assembly surrounds the inner duct. The outer duct assembly includes an outer duct and a hood, where the outer duct is disposed on a front side of the hood, an outer air outlet is formed at an end of the outer duct facing away from the hood, an outer air inlet is formed on the hood and has a front end portion and a rear end portion along a direction of the first axis, and the inner air inlet is disposed between the front end portion and the rear end portion along the direction of the first axis.

A hair dryer is provided that may include a main body including a discharge outlet through which fluid may be discharged outside of the main body, a handle that extends from the main body, including an inlet through which fluid enters the handle, a flow path that extends from the inlet to the discharge outlet, a fan provided inside of the handle, and provided in the flow path to blow the fluid, and a noise attenuation space provided inside of the handle, and to surround at least a portion of the fan along an inner circumferential direction of the handle, attenuating noise generated by the fan.

One aspect of the present invention provides a haircare device (10) configured for being used when styling hair. The hair care device comprising a hollow body (101), an air inlet (102) through which air can enter the hollow body, and a hair receiving portion (103) on the outside of the hollow body, wherein the hair receiving portion comprises multiple air outlets (104) through which In air can exit the haircare device. The haircare device further comprises a fan (105) configured for transporting air from the air inlet to the air outlets. The hair receiving portion comprises multiple slats (106) provided between respective pairs of air outlets under an obtuse angle with the hair receiving portion, wherein the slats and the air outlets are positioned along a straight line (109), and wherein the multiple slats have a substantially rounded surface (111) on the outside of the hollow body such that in use an airflow is generated that moves predominantly along the hair receiving portion along the straight line.

Hairstyling devices include one or more heat transmissive elements having a coating disposed thereon, the coating having ceramic and lava rock incorporated therein. The use of lava rock-containing coatings as described herein results in hairstyling devices with heat transmissive elements exhibiting enhanced heat retention, faster heat recovery, and increased ion emission. Furthermore, lava rock-containing coatings have been found more durable than equivalent heat transmissive element coatings that do not have lava rock incorporated therein.

An infrared hairdryer of the present disclosure includes a housing with an air inlet and an air outlet. The housing includes a motorized fan, an infrared radiation source for emitting IR radiant heat, and a back reflector positioned between the fan and the infrared emitter. A filter is positioned at the outlet of the hairdryer, allowing IR wavelengths comprised between 1.2 μm and 15 μm, preferably between 2 and 8 μm to leave the hairdryer and stopping the IR wavelengths out of this range. The infrared source has a thermal inertia allowing the infrared source to reach a temperature up to 1000° C. in less than 10 seconds, preferably in less than 5 seconds.

A hairdryer includes a casing having a main body having a main through cavity containing an electric motor and a fan to generate an air flow with a settled speed; an inner diffuser inside the main through cavity at the front outlet opening of main body and includes a through cavity having a passage section decreasing towards the front outlet opening to increase the speed of the air flow; the main body includes at least one side opening at the front outlet opening to enable air from outside entering into the main through cavity to increase an air output flow rate from the front outlet opening; an outer outlet element is reversibly coupled to the front outlet opening and includes an outflow tubular portion and a coupling tubular portion inserted into the front outlet opening to close the side opening and prevent the air from entering the main through cavity.

A battery powered blow dryer having a novel battery cooling feature to simultaneously cool the batteries and improve hair dryer performance.

A battery powered blow dryer having a novel battery cooling feature to simultaneously cool the batteries and improve hair dryer performance.

An electric hairdryer (1) comprising an electric motor (2) for an electric hairdryer provided with a motor shaft (2a) rotatable around a rotation axis (X), a fan (3) combined with the motor shaft (2a) having a base portion (3a) and a head portion (3b) opposite the base portion (3a), a protecting device (4) of the electric motor (2) comprising at least one barrier element (4a); an internally hollow containing element (4b). The electric motor (2) comprises a zone (2b) facing the fan (3) wherein the motor shaft (2a) extends along the rotation axis (X); this zone (2b) identifying a radial plane (P). The protecting device (4) is partially placed around the rotation axis (X) at a distance from the base portion (3a) of the fan (3) greater than or equal to a distance (D) between the base portion (3a) of the fan (3) and the radial plane (P).