JP7296267B2 - hair dryer - Google Patents

Description

The present invention relates to hair dryers.

When drying wet hair using a hair dryer, it is desired to complete drying in a shorter time. Therefore, improvement of the air flow path inside the hair dryer has been studied (see Patent Document 1, for example).

The hair dryer disclosed in Patent Document 1 includes a cylindrical housing 3, a motor housed in the housing 3, and a fan 5 housed in the housing and rotated by the motor. The inner surface of the housing 3 has a shape that increases in diameter and slopes from a predetermined position between the suction port 2 and the discharge port 1 of the air flow generated by the fan 5 toward the discharge port 1 . Moreover, the hair dryer disclosed in Patent Document 1 has an ion generator 6 inside the housing 3 .

JP 2018-171243 A

A problem with hair dryers having an ion generator is that the placement of the ion generator increases the dimensions of the hair dryer (especially the distance from the fan to the outlet).

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a structure for a hair dryer having an ion generating section, which can suppress an increase in the size of the product.

A hair dryer according to one aspect of the present invention includes a main body, a blowing section provided in the main body and having a centrifugal fan, and a blowing path communicating with the blowing section through which air from the blowing section flows. and an ion generator provided in the main body for generating ions. In this hair dryer, the ion generating section has an ion generating electrode within a projected area of the centrifugal fan in the centrifugal direction of the centrifugal fan.

According to one aspect of the present invention, it is possible to suppress an increase in product size in a hair dryer having an ion generating section.

1 is a perspective view showing an external configuration of a hair dryer according to one embodiment of the present invention; FIG. Fig. 2 is a front view showing the external configuration of the hair dryer shown in Fig. 1; FIG. 2 is a side view showing the external configuration of the hair dryer shown in FIG. 1; Fig. 2 is a rear view showing the external configuration of the hair dryer shown in Fig. 1; Fig. 2 is an exploded perspective view showing internal components of the hair dryer shown in Fig. 1; FIG. 2 is a perspective sectional view showing the internal configuration of the hair dryer shown in FIG. 1; FIG. 2 is a cross-sectional view showing the internal configuration of the hair dryer shown in FIG. 1; FIG. 2 is a perspective sectional view showing the internal configuration of the hair dryer shown in FIG. 1; FIG. 2 is a perspective view showing the internal configuration of the hair dryer shown in FIG. 1; Fig. 2 is a front view showing the internal configuration of the hair dryer shown in Fig. 1; FIG. 2 is a schematic diagram showing arrangement positions of components arranged inside the main body of the hair dryer shown in FIG. 1 ; It is a schematic diagram which shows the front part of the hair dryer concerning 2nd Embodiment.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are given the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

<First Embodiment>
In this embodiment, a hair dryer 10 as an example of the present invention will be described as an example.

(Overall configuration of hair dryer)
First, the overall configuration of the hair dryer 10 according to this embodiment will be described. FIG. 1 is a perspective view of a hair dryer 10. FIG.

In this specification, in describing the shape and positional relationship of each component of the hair dryer 10, for the sake of convenience, the hair dryer 10 is shown in FIG. It is defined by coordinate axes in three directions: the Y2) direction (vertical direction) and the Z (Z1-Z2) direction (front-rear direction).

FIG. 2 shows the appearance of the hair dryer 10 when viewed from the front side (air outlet side, Z1 side). FIG. 3 shows the appearance of the hair dryer 10 when viewed from the right side (X2 side). FIG. 4 shows the appearance of the hair dryer 10 when viewed from the rear side (suction port side, Z2 side).

As shown in FIG. 1, the hair dryer 10 is mainly composed of a body portion 11 and a grip portion 20. As shown in FIG. The body portion 11 has an air blowing mechanism (such as the air blowing portion 150) and an air blowing path (air blowing path) inside, and the air sucked from the suction port 23 is blown to the blowing ports 12 (specifically, 12a and 12b). ).

The body portion 11 has a substantially cylindrical outer shape with an axis extending in the front-rear direction (Z1-Z2 direction). The Z1 side of the main body portion 11 constitutes a front portion 11a (the surface on which the outlets 12a and 12b are arranged). An air outlet 12 is arranged in the front portion 11a. The air outlet 12 is composed of two outlets, a first outlet 12a and a second outlet 12b. On the rear side (Z2 side) of each of the outlets 12a and 12b in the main body 11, an air blowing path, an air blowing section 150, and the like are provided. The front portion 11a, which is the surface on which the blowout ports 12a and 12b are arranged, constitutes the downstream end of the air blowout path.

The Z2 side of the body portion 11 constitutes a rear portion 11b. An air suction port 23 is arranged in the rear portion 11b (see FIG. 4).

As shown in FIG. 2, the outlets 12a and 12b are arranged at either the left or right end of the front portion 11a of the body portion 11. As shown in FIG. The first outlet 12a is formed in the vertical direction (Y direction) along the left (X1 side) end of the front portion 11a when viewed from the front. The second outlet 12b is formed in the vertical direction (Y direction) along the edge on the right side (X2 side) when viewed from the front of the front portion 11a.

Each of the outlets 12a and 12b has an elongated (longitudinally elongated) opening in the vertical direction (Y direction). More specifically, the first outlet 12a and the second outlet 12b are arcuately formed along part of the outer periphery of the substantially circular front portion 11a. The opening of the first blowout port 12a and the opening of the second blowout port 12b are arranged at positions opposite to each other with the central portion 15 interposed therebetween. Since the openings of the air outlets 12a and 12b have such a shape, when the hair is dried using the hair dryer 10, the longitudinal direction of each opening extends in the direction along the extension direction of the hair at the treatment site. can be oriented.

The grip portion 20 is positioned below the body portion 11 . The grip part 20 is a part that a user holds when using the hair dryer 10 . As shown in FIG. 3 , when the hair dryer 10 is viewed from the side (for example, the X2 side), the grip part 20 extends downward (Y2 side) from substantially the center in the front-rear direction (Z direction) of the body part 11 . extended.

The Z1 side of the grip portion 20 constitutes a front portion 20a. An operation portion 40 is provided on the front portion 20 a of the grip portion 20 . When the hair dryer 10 is used, the user operates the operation unit 40 (specifically, the power switch 42) to start or stop the operation of the hair dryer 10. FIG. Further, by operating the operation unit 40 (specifically, the operation button 41), the type (warm air/cold air) and the amount of air blown out from the outlet 12 are adjusted. Moreover, the operation mode of the hair dryer 10 is switched by operating the operation part 40 (specifically, the operation button 41).

A power cord 22 is attached to the lower portion of the grip portion 20 . It should be noted that in another aspect of the invention, the hair dryer 10 may be of the cordless type. In this case, for example, a primary battery or a secondary battery is provided inside the body portion 11 or the grip portion 20 .

(Regarding the external shape of the hair dryer)
As shown in FIG. 3 and the like, the hair dryer 10 has a substantially T-shape when viewed from the side. As shown in FIG. 2, the front side (Z1 side) of the hair dryer 10 includes a substantially circular front portion 11a, a substantially rectangular front portion 20a narrower than the front portion 11a, and a and an inclined surface 20b whose width gradually narrows toward the front portion 20a.

As shown in FIG. 3, the side surface of the hair dryer 10 where the inclined surface 20b is arranged has a curved shape 16a. A side surface of the hair dryer 10 where the back surface portion 11b is arranged has a curved shape 16b that is symmetrical with the curved shape 16a. By forming a constriction with such curved shapes 16a and 16b, the hair dryer 10 can be made into a shape that is easy to hold.

Both the display unit 30 and the operation unit 40 are arranged on the front side (Z1 side) of the hair dryer 10 . At least one of the plurality of operation buttons 41 that constitute the operation portion 40 is arranged on the inclined surface 20b.

As shown in FIG. 2, the substantially circular front portion 11a includes a leftmost left end portion 13a, a rightmost right end portion 13b, and an uppermost portion when viewed from the Z1 side. It has an upper end 14a and a lowermost lower end 14b.

As shown in FIG. 1 and the like, the front portion 11a has a curved concave shape. Furthermore, in the front portion 11a having this curved concave shape, the ends in the left-right direction (X direction) (that is, the left end portion 13a and the right end portion 13b) are closer to the ends in the up-down direction (Y direction) ( That is, it is located on the front side (Z1 side) in a side view and a top view (or a bottom view) from the top end portion 14a and the bottom end portion 14b).

The display unit 30 is arranged in the vicinity of the central portion 15 which is recessed from the left and right (X-direction) ends 13a and 13b at which the outlets 12a and 12b are provided in the front portion 11a. The display unit 30 is arranged on the lower end portion 14b side that does not protrude forward (Z1 side) from the upper end portion 14a of the front portion 11a.

Thereby, as shown in FIG. 1, for example, when the user looks at the front part 11a of the hair dryer 10 from the oblique front side, the contents of the display part 30 can be confirmed.

2 and the like, the front portion of the hair dryer 10 is mainly composed of a front portion 11a of the body portion 11 and a front portion 20a of the grip portion 20. As shown in FIG. An inclined surface 20b is provided between the front portion 11a and the front portion 20a.

A first outlet 12a is provided along the outer periphery of the front portion 11a on the left side of the front portion 11a as viewed from the Z1 side. A second outlet 12b is provided on the right side of the front portion 11a as viewed from the Z1 side along the outer periphery of the front portion 11a. The first outlet 12a extends vertically from the left end 13a. The second outlet 12b extends vertically from the right end 13b.

A central portion 15 is provided between the first outlet 12a and the second outlet 12b. The central portion 15 is positioned substantially in the center of the front portion 11a. The central portion 15 has a substantially circular shape. In the front portion 11a having a concave shape, the central portion 15 is recessed to the rearmost side (upstream side in the air blowing direction). In this embodiment, the central portion 15 has a substantially flat shape.

A display portion 30 is provided below the central portion 15 and on the outer peripheral portion of the central portion 15 . The display section 30 has an operation mode display section 31 that displays an operation mode and a temperature display section 32 . In this way, the display unit 30 is arranged at a position recessed upstream in the air blowing direction with respect to the air outlet 12 located on the downstream end side of the air blowing path. The operation mode display section 31 is composed of a plurality of LED lamps (31a to 31d).

An operation portion 40 is provided on the inclined surface 20b located below the front portion 11a and the front portion 20a of the grip portion 20. As shown in FIG. The operation unit 40 has a plurality of operation buttons 41 and a power switch 42 .

Further, an air volume display section 43 is provided as a further display section below the operation section 40 on the front section 20 a of the grip section 20 .

(Regarding the internal configuration of the hair dryer)
Next, the internal configuration of the hair dryer 10 will be described. FIG. 5 shows each part provided inside the hair dryer 10 in an exploded state. 5 mainly shows the parts arranged in the main body 11, and the illustration of the parts in the grip part 20 and the parts arranged on the front side of the hair dryer 10 is omitted as appropriate. ing.

The outer shape of the hair dryer 10 is mainly formed by the left side member 2a and the right side member 2b. Inside the housing formed of these members, the air passage forming member 3, the fan housing member 4, the suction port forming member 5, the operating portion forming member 140, the air blowing portion 150, the heater support member (cylindrical member) 160, An ion generator 180 (ion generator) and the like are provided.

The air passage forming member 3 forms an air passage from the outlet of the air blower 150 to the outlets 12a and 12b. The air passage forming member 3 has a substantially cylindrical shape, and the front side thereof is partially closed with walls 130 of various shapes. Openings 112 are formed in the wall 130 at positions corresponding to the outlets 12a and 12b. On the front side of the air passage forming member 3, an LED installation plate 35 and the like on which LED lamps constituting the operation mode display section 31 are arranged are attached.

The fan housing member 4 is arranged on the rear side inside the main body portion 11 . A centrifugal fan 151 of the air blowing section 150 is accommodated inside the fan accommodating member 4 . The suction port forming member 5 is attached to the rear side of the fan housing member 4 . A large number of holes are formed in the suction port forming member 5 , and these holes constitute the suction port 23 . The operation portion forming member 140 is mounted with various operation buttons 41 and a power switch 42 that constitute the operation portion 40 .

Air blower 150 includes centrifugal fan 151, motor 153, motor fixing part 152, and the like. A detailed configuration of the air blower 150 will be described later.

The heater support member (cylindrical member) 160 has a substantially cylindrical shape. In this embodiment, the heater support member (cylindrical member) 160 is mainly formed of a rear member 161 and a front member 162 . Although not shown in FIG. 5, the heater support member 160 supports the heater 191 . The heater 191 is arranged along the outer periphery of the heater support member 160 (see FIG. 10, etc.).

A first air passage dividing portion 171 , a plurality of partition members 172 , and a plurality of second air passage dividing portions 173 are attached to the outer surface of the heater support member 160 . The first air passage dividing portion 171 , the partition member 172 , and the second air passage dividing portion 173 are substantially plate-shaped members, and are attached so as to stand on the outer surface of the heater support member 160 . . In a space formed mainly by the outer surface of the heater support member 160 and the inner peripheral surface of the air passage forming member 3, an air passage from the air blower 150 to the outlets 12a and 12b is formed.

A motor 153 is arranged inside the heater support member 160 . That is, the heater support member 160 is provided so as to at least partially cover the outer circumference of the motor 153 .

The ion generator 180 is arranged near the boundary between the body portion 11 and the grip portion 20 . That is, the ion generator 180 is arranged between the motor 153 and the operating portion forming member 140 . The ion generator 180 has a body portion 181 and a plurality of ion generating electrodes 182 .

The ion generator 180 generates positive (+) ions (eg, H ⁺ (H ₂ O) _m (m is any natural number)) and negative (−) ions (eg, O ₂ ⁻ (H ₂ O) _n (n generates at least one of any natural number)). Since the ion generator 180 is provided, ions can be contained in the air blown out from the outlets 12a and 12b.

The body portion 181 has a rectangular parallelepiped shape. An ion generator is provided inside the body portion 181 .

The ion generating electrode 182 is a needle-like member protruding upward on the rear side of the upper surface of the main body portion 181 . In this embodiment, two ion generating electrodes 182 are provided, one ion generating electrode 182 emitting positive ions and the other ion generating electrode 182 emitting negative ions.

The ion generator may be configured to generate both positive ions and negative ions as in this embodiment, or may be configured to generate either positive ions or negative ions.

An electronic component 192 is provided above the ion generator 180 . The electronic component 192 is arranged inside a space (third airflow path FC) partitioned by the two second air path dividing portions 173 . The electronic component 192 includes a triac that supplies electric power to the heater 191 and the motor 153 . Further, the electronic component 192 is provided with a heat sink for releasing heat generated within the component.

(About the blower)
Next, a more specific configuration of the air blower 150 will be described with reference to FIGS. 6 to 8 and the like. 6 to 8 show the internal configuration of the hair dryer 10. FIG. FIG. 6 is a diagram showing the inside of the main body 11 when the upper portion of the main body 11 is cut along the XZ plane. FIG. 7 is a cross-sectional view showing the internal configuration of the main body 11 when the main body 11 is cut in the vertical direction (Y direction) at the center position in the horizontal direction (X direction). In FIGS. 6 and 7, arrows indicate the flow of air generated by the air blower 150. FIG. In FIG. 6, illustration of the heater 191 is omitted. FIG. 8 is a perspective sectional view of the hair dryer 10 shown in FIG.

As described above, the blower section 150 is mainly composed of the centrifugal fan 151, the motor 153, the motor fixing part 152, and the like.

The centrifugal fan 151 has a plurality of rotor blades (also called rotor blades) 151a. The centrifugal fan 151 is connected to a rotating shaft 153a of a motor 153 and driven by the motor 153 to rotate. As the moving blades 151a rotate, the air that has flowed into the main body 11 from the suction port 23 is discharged in the centrifugal direction of the rotating shaft 153a. As a result, wind is generated in the direction indicated by the arrow in FIG. Centrifugal fan 151 is, for example, a turbo fan.

The motor 153 is arranged on the front side (Z1 side) of the centrifugal fan 151 . The motor 153 has a rotating shaft 153a protruding rearward (Z2 side). The end of the rotating shaft 153 a protruding rearward is connected to the centrifugal fan 151 .

The motor 153 is located at a position that at least partially overlaps the air blowing path (specifically, the first air blowing path FA, the second air blowing path FB, etc.) leading from the air blower 150 to the outlets 12a and 12b in a side view. are placed in That is, the motor 153 and the air blowing path (specifically, the first air blowing path FA, the second air blowing path FB, etc.) overlap at least partially in a side view, and extend in the front-rear direction (Z1-Z2). are arranged parallel in the direction. As shown in FIGS. 7 and 8, in the hair dryer 10 according to the present embodiment, half or more of the length in the Z direction of the main body of the motor 153 excluding the rotating shaft 153a is the first blowing air in a side view. It overlaps with the route FA and the second air blowing route FB. This makes it possible to reduce (shorten) the dimension of the main body 11 in the Z direction while ensuring the length of the air blowing path from the air blowing part 150 to the outlets 12a and 12b.

A motor fixing part 152 is arranged between the centrifugal fan 151 and the motor 153 . The motor fixing part 152 has a plurality of stator vanes (also called stationary vanes) 152a and a motor housing portion 152b. A body portion of the motor 153 is fitted into the motor accommodating portion 152b. Thereby, the motor 153 is fixed to the motor accommodating portion 152b.

A plurality of stationary blades 152a are provided along the outer circumference of the motor accommodating portion 152b. The stator vanes 152a are arranged with a predetermined distance from each other. As a result, the wind generated by the rotation of the centrifugal fan 151 passes between the stationary blades 152a and passes through the front airflow path (specifically, the first airflow path FA, the second airflow path FB, etc.). to (see FIG. 6). In this manner, the motor fixing component 152 is provided with the ventilation path F2 that is connected to the ventilation path.

(Composition of air blowing route)
Next, a distribution route (blowing route) in the body portion 11 of the wind generated by the blowing portion 150 will be described. In the hair dryer 10 according to this embodiment, the air generated in the air blowing section 150 passes through the space formed by the air passage forming member 3, the heater support member 160, etc. 2 blow-off port 12b. That is, the airflow path is mainly formed by the airflow path forming member 3 and the heater support member 160 .

The wind generated in the air blowing section 150 by the rotation of the centrifugal fan 151 is discharged in the centrifugal direction as indicated by the arrow in FIG. A space in which the moving blades 151a of the centrifugal fan 151 are provided is called a wind generating portion F1. The wind generated by the wind generating portion F1 passes between the stationary blades 152a of the motor fixing component 152 provided on the front side of the centrifugal fan 151, as indicated by solid arrows in FIG. flow into the airflow path on the side. In this way, the portion of the motor fixing component 152 where the stationary blade 152a is arranged serves as the ventilation passage F2 connected to the air blowing passage. The ventilation path F2 can also be said to be an air outlet in the blower section 150 .

The wind that has passed through the ventilation path F2 flows into the space formed by the air path forming member 3, the heater support member 160, and the like. This space is mainly divided into three spaces by a first air passage dividing portion 171 and two second air passage dividing portions 173 attached to the outer surface of the heater support member 160 . Each divided space serves as a ventilation path. In this manner, three air blowing paths are formed in the main body 11, namely, a first air blowing path FA, a second air blowing path FB, and a third air blowing path FC.

FIG. 10 shows a view of the inside of the main body 11 viewed from the front side (Z1 side). A first airflow path FA is formed in a space partitioned by the first air passage dividing portion 171 and the one second air passage dividing portion 173 . A second airflow path FB is formed in a space partitioned by the first air passage dividing portion 171 and the second air passage dividing portion 173 on the other side. Also, a third airflow path is formed in the space partitioned by the two second airflow path dividing portions 173 .

As shown in FIG. 6, the first airflow path FA is connected to the first outlet 12a. Part of the air that has exited the ventilation path F2 of the air blowing unit 150 passes through the first air blowing path FA and is blown out from the first blowing port 12a, as indicated by the dashed arrow in FIG.

Also, as shown in FIG. 6, the second air blowing path FB is connected to the second outlet 12b. Part of the air that has exited the ventilation path F2 of the air blowing unit 150 passes through the second air blowing path FB and is blown out from the second air outlet 12b, as indicated by the dashed-dotted arrow in FIG.

As shown in FIG. 6, the standing position of the first air passage dividing portion 171 substantially overlaps one front end of the stationary blade 152a provided on the motor fixing component 152 in a front view. As a result, the air coming out of the air blowing section 150 is divided into the air flowing into the first air blowing path FA side and the air flowing into the second air blowing path FB side on the most upstream side of the air blowing path. That is, at a position separated by a predetermined distance from the first outlet 12a and the second outlet 12b, the airflow route to the first outlet 12a (that is, the first airflow route FA) and the second outlet A blowing path to the mouth 12b (that is, a second blowing path FB) is formed.

As described above, in the hair dryer 10, the air blowing path is divided into two or more at the front end of the air passage F2, which is the air outlet of the air blowing section 150 (that is, the most upstream side of the air flow in the air blowing path). It is One of the divided airflow paths (for example, the first airflow path FA) is connected to the first outlet 12a, and the other divided airflow path (for example, the second airflow path FB). is connected to the second outlet 12b. According to this configuration, while suppressing an increase in the dimension in the front-rear direction (Z direction) of the main body 11 (increase in length), the length in the front-rear direction of each airflow path leading to each outlet can be reduced. can be secured. By ensuring that the dimension (length in the front-rear direction) of each airflow path leading to each blowout port is equal to or greater than a predetermined value, it is possible to suppress unevenness in the amount of air blown out from each blowout port.

In addition, as shown in FIG. 9 and the like, a slight gap G may be provided between the rear end of the first air passage dividing portion 171 and the front end of the stationary blade 152a.

Further, as shown in FIG. 9 and the like, the inside of the second blowing path FB is divided into a plurality of sections by a substantially plate-like partition member 172 extending in the Z direction. Similarly, the interior of the first airflow path FA is also divided into a plurality of sections by a substantially plate-like partition member 172 extending in the Z direction. In this way, the inside of each of the air blowing paths FA and FB is divided into a plurality of spaces along the direction of the main air flow (that is, the Z1 direction), so that the air from the air blowing section 150 is directed to the outlet 12a. and 12b.

The third airflow path FC is located on the lower side of the body portion 11 (that is, on the grip portion 20 side). Part of the air that has exited the ventilation passage F2 of the air blower 150 also flows into the third air passage FC. The front side (Z1 side) of the third airflow path FC is blocked by a wall portion 130 (see FIG. 5) of the airflow path forming member 3 or the like. That is, when the hair dryer 10 is viewed from the front portion 11a side of the body portion 11, the third blowing path FC does not overlap the first blowout port 12a and the second blowout port 12b.

As shown in FIG. 8, an electronic component 192 is arranged in the third airflow path FC. A heater control component (for example, a triac) included in the electronic component 192 generates heat when the heater 191 operates, and the temperature rises. By arranging the electronic component 192 including such a heater control component and the like in the third air blowing path FC, the air from the air blowing section 150 can be sent around the electronic component 192 . Thereby, the heat dissipation of the electronic component 192 can be promoted, and the temperature rise of the electronic component 192 can be suppressed.

(Structure around heater)
Next, the configuration of the heater 191 arranged in the blowing path will be described with reference to FIGS. 9 and 10. FIG. FIG. 9 shows the configuration inside the second air blowing path FB. The hair dryer 10 shown in FIG. 9 shows a state in which the right side member 2b and the air passage forming member 3 are removed. The inside of the first air blowing path FA has a configuration symmetrical to that of the second air blowing path FB. FIG. 10 shows the configuration of each ventilation path in the main body 11. As shown in FIG. FIG. 10 shows a state in which each ventilation path in the main body 11 is viewed from the front side.

As shown in FIG. 9, the heater 191 is composed of a plurality of coiled heating wires. Each heating wire that constitutes the heater 191 is arranged so as to pass through each partition member 172 and cross the inside of the second air blowing path FB. Although not shown in FIG. 9, each electric heating wire that constitutes the heater 191 is arranged so as to pass through the first air passage dividing portion 171 and traverse the inside of the first air blowing path FA. As shown in FIG. 10 , the heater 191 extends from one second air passage dividing portion 173 to the other second air passage dividing portion 173 along the outer circumference of the heater support member 160 .

Thus, the heater 191 is arranged in the first air-blowing path FA and the second air-blowing path FB, but is not arranged in the third air-blowing path FC. As a result, the air passing through the insides of the first air blowing path FA and the second air blowing path FB is heated by the heater 191, and warm air can be blown out from the air outlets 12a and 12b.

On the other hand, the third airflow path FC is not directly heated by the heater 191 . Therefore, it is possible to suppress the temperature rise in the third ventilation path FC when the heater 191 is turned on. As described above, the electronic component 192, which is a component to be cooled, is arranged in the third airflow path FC. Even when hot air is blown out, the air sent from the air blower 150 into the third air blowing path FC is not directly heated by the heater 191, so that the temperature rise of the electronic components 192 arranged in the third air blowing path FC is suppressed. be able to.

(Regarding the position of the ion generator)
Next, the arrangement position of the ion generator 180 in the main body 11 will be described. FIG. 11 schematically shows the arrangement positions of the components arranged in the hair dryer 10 according to this embodiment.

The ion generator 180 is arranged at a position that at least partially overlaps the motor 153 of the air blowing section 150 when viewed from above. In other words, at least part of the main body 181 of the ion generator 180 is located within the projection area of the motor 153 when the inside of the main body 11 is viewed from above (Y1 side).

Further, in this embodiment, the ion generator 180 is arranged below the arrangement position of the motor 153 (see FIG. 7). In other words, the ion generator 180 is arranged on the side where the grip portion 20 is provided inside the main body portion 11 .

As described above, in the hair dryer 10 according to the present embodiment, the grip portion 20 is provided with the operation portion 40 having the power switch 42 and the like. A power supply board is arranged on the rear side of the operating portion 40 in the grip portion 20 . By arranging the ion generator 180 on the side where the grip part 20 is provided, the distance from the ion generator 180 to the power supply substrate can be relatively shortened. This facilitates wiring connection between the ion generator 180 and the power substrate.

A third ventilation path FC is arranged between the main body 181 of the ion generator 180 and the motor 153 (see FIG. 7). As described above, the motor 153 at least partially overlaps the air blowing paths (specifically, the first air blowing path FA, the second air blowing path FB, and the third air blowing path FC) in a side view. It is placed in a position where Therefore, the body part 181 of the ion generator 180 is arranged at a position that at least partially overlaps with the air blowing path when viewed from above. Accordingly, it is possible to suppress an increase in the Z-direction dimension (length) of the main body 11 due to the placement of the ion generator 180 inside the main body 11 .

Further, in the ion generator 180, the ion generating electrode 182 protrudes upward from the upper surface of the body portion 181 (see FIG. 5). As shown in FIG. 11 , the ion generating electrode 182 is arranged within a projection area A of the centrifugal fan 151 in the centrifugal direction of the centrifugal fan 151 . That is, the ion generating electrode 182 is configured to emit ions into the wind generating portion F1.

As described above, in the hair dryer 10 according to the present embodiment, the air blowing path includes the first air blowing path FA and the second air blowing path at the outlet of the air blowing section 150 (that is, the front end of the air passage F2). It is divided into a plurality of airflow paths FB and a third airflow path FC. By arranging the ion generating electrode 182 within the projection area A of the centrifugal fan 151 in the centrifugal direction of the centrifugal fan 151, the ion generating electrode 182 emits air upstream of the air flow path from the dividing position of the air blowing path. Ions can be included in the wind.

As a result, the concentration of ions contained in the air blown out from the first outlet 12a through the first air-blowing path FA and the air blown out from the second outlet 12b through the second air-blowing path FB It is possible to reduce the concentration bias of the contained ions. In particular, in the ion generator 180 in which positive ions are emitted from one of the two ion generating electrodes 182 and negative ions are emitted from the other, the positive ions and negative ions contained in the air blown from each outlet are dispersed as uniformly as possible. can be

In the present embodiment, the ion generating electrode has a shape protruding from the main body portion 181 of the ion generator 180. You may wire-connect an electrode and a main-body part. By adopting such a configuration, the degree of freedom in the arrangement positions of the ion generating electrode and the main body increases. For example, two ion generating electrodes can be provided at positions facing each other within the projection area A of the centrifugal fan 151 in the centrifugal direction of the centrifugal fan 151, or can be provided on the left and right sides of the centrifugal fan 151, respectively.

(Summary of the first embodiment)
A hair dryer 10 according to the present embodiment includes a main body 11 and a plurality of outlets 12 a and 12 b provided on the front side (Z1 side) of the main body 11 . Inside the body portion 11, a blower portion 150, a blower path, an ion generator 180, and the like are provided. The blowing path is provided so as to communicate with the blowing section 150 . Thereby, the wind generated in the blower section 150 flows into the blowing path. The ion generator 180 is provided to contain ions in the wind passing through the air blowing path.

In the hair dryer 10 according to the present embodiment, the air blowing path consists of a first air blowing path FA, a second air blowing path FB, and a third is divided into a plurality of air blowing paths called air blowing paths FC. Of the plurality of airflow paths, the first airflow path FA is connected to the first blowout port 12a. Also, the second blowing path FB is connected to the second outlet 12b.

By dividing the air blowing path from the outlet of the air blowing part 150 to each of the air blowing ports 12a and 12b, the front-rear direction of each air blowing path leading to each air blowing port is suppressed while suppressing an increase in the size of the main body part 11. distance (length) can be secured. As a result, it is possible to obtain the hair dryer 10 capable of blowing good air from each blowout port while suppressing an increase in the size of the product (particularly, the distance from the fan to the blowout port).

Further, in the hair dryer 10 having a plurality of outlets as in the present embodiment, it is desired that the concentration of ions contained in the air blown from the respective outlets 12a and 12b be as uniform as possible. In particular, when the ion generator generates both positive ions and negative ions, it is desirable to balance positive ions and negative ions as much as possible.

Therefore, in the hair dryer 10 according to this embodiment, the ion generating electrode 182 of the ion generator 180 is arranged within the projection area A of the centrifugal fan 151 in the centrifugal direction of the centrifugal fan 151 . With this configuration, it is possible to reduce the bias in the concentration (amount) of ions contained in the air blown out from the outlets 12a and 12b.

<Second embodiment>
Next, a second embodiment of the invention will be described. In the first embodiment, a configuration in which a plurality of outlets are provided and air blowing paths are divided into a plurality of sections corresponding to the respective outlets is described as an example. However, the hair dryer according to one embodiment of the present invention may have only one air outlet. Therefore, in the second embodiment, a hair dryer 210 having one outlet will be described as an example.

FIG. 12 shows the configuration of the front portion 11a of the hair dryer 210 according to the second embodiment. A hair dryer 210 according to the present embodiment has one outlet 212 . The blowout port 212 is formed in a substantially annular shape (a partially cut annular shape) along the outer circumference of the front portion 11a. In other words, the outlet 212 has a shape in which the two outlets 12a and 12b in the first embodiment are joined together.

Moreover, although not shown, in the hair dryer 210 according to the present embodiment, the blowing path from the outlet of the blowing unit 150 to the blowing port 212 is not divided, but is configured as one blowing path. That is, the hair dryer 210 according to this embodiment is not provided with the first air passage dividing portion 171 as described in the first embodiment. It should be noted that, as in the first embodiment, a third airflow path FC may be provided.

The display section 30 (operation mode display section 31 and temperature display section 32) provided on the front portion 11a has the same configuration as in the first embodiment.

An ion generator 180 is provided in the hair dryer 210 according to the second embodiment. As in the first embodiment, the ion generator 180 is arranged below the position where the motor 153 is arranged. The ion generating electrode 182 of the ion generator 180 is arranged in the projection area of the centrifugal fan 151 in the centrifugal direction of the centrifugal fan 151 . That is, the ion generating electrode 182 is arranged in the wind generating portion F1, which is on the upstream side of the wind flow relative to the air blowing path.

According to this configuration, when positive ions are emitted from one of the ion generating electrodes 182 of the ion generator 180 and negative ions are emitted from the other, the positive ions and negative ions are made uniform as much as possible within the wind generating portion F1. Can be mixed.

In addition, in the hair dryer 210 according to the present embodiment, the ion generator 180 is arranged below the arrangement position of the motor 153, and the main body part 181 is arranged at a position that at least partially overlaps the air blowing path in top view. . Accordingly, it is possible to suppress an increase in the Z-direction dimension (length) of the main body 11 due to the placement of the ion generator 180 inside the main body 11 .

For configurations other than those described above, substantially the same configurations as in the first embodiment can be applied. Therefore, detailed description is omitted.

<Third Embodiment>
A sirocco fan may be used as the centrifugal fan 151 of the air blower 150 in the hair dryer according to the third embodiment of the present invention. In the configuration using a sirocco fan, an air suction port is provided on the side of the hair dryer 10 . In such a configuration, ion generator 180 may be arranged above centrifugal fan 151 .

For configurations other than those described above, substantially the same configurations as in the first embodiment can be applied. Therefore, detailed description is omitted.

(summary)
One aspect of the present invention relates to a hair dryer (eg, hair dryer 10). This hair dryer includes a main body (for example, main body 11), a blowing section (for example, blowing section 150) provided in the main body and having a centrifugal fan (for example, centrifugal fan 151), and the blowing section. A blowing path (for example, a first blowing path FA, a second blowing path FB, and a third blowing path FC) communicating with each other and into which wind from the blowing unit flows; and an ion generator (for example, an ion generator 180) that generates ions. The ion generating section has an ion generating electrode (eg, ion generating electrode 182) within a projection area (eg, projection area A) of the centrifugal fan in the centrifugal direction of the centrifugal fan.

In the above-described hair dryer (eg, hair dryer 10) according to one aspect of the present invention, the air blowing section (eg, blowing section 150) has a motor (eg, motor 153), and the ion generating section (eg, The ion generator 180) may be positioned to at least partially overlap the motor in top view.

In the above hair dryer (eg, hair dryer 10) according to one aspect of the present invention, a gripping portion (eg, gripping portion 20) is provided below the body portion (eg, body portion 11), and the ion generating A portion (eg, the ion generator 180) may be disposed on the side of the main body portion where the grip portion is provided.

The hair dryer (for example, the hair dryer 10) according to one aspect of the present invention has a plurality of outlets (for example, the first outlet) on the front side (for example, the Z1 side) of the main body (for example, the main body 11). 12a and second air outlets 12b), and the air blowing paths are provided in a plurality corresponding to the plurality of air blowing outlets, such as a first air blowing path FA and a second air blowing path FB. It may be divided.

It should be considered that the embodiments disclosed this time are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the scope of the claims rather than the above description, and is intended to include all modifications within the scope and meaning of equivalents of the scope of the claims. Also, configurations obtained by combining configurations of different embodiments described herein are also included in the scope of the present invention.

Reference Signs List 10: hair dryer 11: main body 12a: first blowout port 12b: second blowout port 20: grip portion 30: display portion 40: operation portion 150: blower portion 151: centrifugal fan 153: motor 171: first air passage Divider 173: Second air passage divider 180: Ion generator (ion generator)
181: (ion generator) main body 182: ion generating electrode F1: wind generating part F2: ventilation path FA: first ventilation path FB: second ventilation path FC: third ventilation path

Claims (5)

a main body having a plurality of outlets on the front side ;
a blowing unit provided in the main body and having a centrifugal fan and a motor ;
a blowing path located in front of the blowing section, communicating with the blowing section, and into which the wind from the blowing section flows;
An ion generating unit that is provided in the main body and generates ions,
a rotating shaft of the centrifugal fan extends rearward from the motor along an extending direction of an air blowing path extending from the air blowing portion to the outlet;
The blowing path is divided into a plurality of parts corresponding to the plurality of outlets at the exit of the blowing unit,
The ion generating section has an ion generating electrode within a projection area of the centrifugal fan in the centrifugal direction of the centrifugal fan , and the ion generating electrode is positioned upstream of the air flow path from the dividing position of the air blowing path. Let the wind contain the ions generated from
hair dryer. The air-blowing path includes at least a first air-blowing path leading to a first air outlet of the plurality of air outlets and a second air-blowing path leading to a second air outlet of the plurality of air outlets. have
A hair dryer according to claim 1 . The first outlet has an opening elongated in the vertical direction on the left end side of the front portion of the main body when viewed from the front of the main body,
The second outlet has an opening elongated in the vertical direction on the right end side of the front portion of the main body when viewed from the front of the main body,
The first airflow path is located on the left side of the main body when viewed from the front, and the second airflow path is located on the right side of the main body when viewed from the front. do,
A hair dryer according to claim 2. The blower unit has a motor,
The ion generating unit is arranged at a position that at least partially overlaps with the motor in a top view,
A hair dryer according to any one of claims 1 to 3. A gripping portion is provided below the main body,
5. The hair dryer according to any one of claims 1 to 4, wherein the ion generating section is arranged on a side of the main body section on which the gripping section is provided.

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