JP7300359B2 - hair dryer - Google Patents

Description

TECHNICAL FIELD The present invention relates to a technique for reducing operating noise associated with driving a blower fan in a hair dryer.

2. Description of the Related Art In a hair dryer, the operating noise generated at the suction port side as the blower fan is driven can be roughly divided into air sucking noise from the suction port to the blower fan and wind noise generated by the fan blades of the blower fan. Both types of operating noise are caused by eddy currents that occur in the air flow. For example, Patent Document 1 discloses that a bell-mouth structure is provided between the suction port and the blower fan for guiding, in other words, suppressing the generation of eddies in the air flow from the suction port to the blower fan. It is In the hair dryer of Patent Document 1, first to third filters each composed of a filter element and a filter frame are arranged in an air passage from a suction port to a blower fan (fan), and a second filter is provided. The filter frame is provided with an air intake guide surface that widens in a bell mouth shape toward the first filter. Each filter element is made of a mesh formed by plain weaving single yarns made of punching metal or synthetic resin.

Japanese Unexamined Patent Application Publication No. 2012-20036

In the hair dryer of Patent Literature 1, the air suction guide surface can suppress the occurrence of swirl in the air flow from the suction port to the blower fan, so the noise level of the air suction sound can be reduced. Further, part of the wind noise generated by the fan blades of the blower fan is blocked by the filter elements of the first to third filters interposed between the suction port and the blower fan, and reflected to the blower fan side. so the noise level is slightly reduced. However, reflection by each filter element made of perforated plate such as punching metal or mesh is not sufficient, and there is room for improvement in terms of reducing wind noise.

SUMMARY OF THE INVENTION An object of the present invention is to reduce the noise level of the wind noise generated by the fan blades of a blower fan, thereby reducing the operating noise accompanying the driving of the blower fan.

The hair dryer of the present invention comprises a main body case 1 having an air inlet 4 at one end and an air passage 3 having an air outlet 5 at the other end, and a blower disposed near the air inlet 4 of the air passage 3. It is provided with a unit 6 and a heat source unit 7 arranged on the downstream side of the ventilation path 3 of the blower unit 6. - 特許庁The blower unit 6 includes a blower fan 24 that generates dry air and a fan motor 25 that drives the blower fan 24 to rotate. The blower fan 24 includes a hub 30 to which an output shaft 29 of the fan motor 25 is connected, and a plurality of fan blades 31 radially arranged around the center of rotation of the hub 30 . A sound insulation wall 41 and a sound insulation body 42 are provided in the ventilation passage 3 between the blower fan 24 and the suction port 4 so as to face the rotational trajectory of the fan blades 31 when viewed from the side directly facing the suction port 4. . The sound insulation wall 41 is formed in a flat plate shape having a ventilation opening 45 in the center, and the sound insulation body 42 is composed of a perforated flat plate 57 having a large number of ventilation holes 56 . They are arranged in close proximity. The ventilation opening 45 is formed in a circular shape, and the center of the circle of the ventilation opening 45 is located on the axis of the output shaft 29 . When a virtual plane orthogonal to the axial direction of the output shaft 29 is defined, the virtual The opening area of the ventilation opening 45 defined by the opening edge of the sound insulation wall 41 projected toward the plane from the axial direction of the output shaft 29 is set small.

A sound insulating body 42 is supported by a support bar 53 provided so as to straddle the ventilation opening 45. - 特許庁

The sound insulation wall 41 and the sound insulation body 42 are inseparably and integrally joined.

The opening ratio per unit area of the sound insulator 42 in contact with the sound insulation wall 41 is set smaller than the opening ratio per unit area of the sound insulator 42 facing the ventilation opening 45 .

The wall surface of the sound insulation wall 41 facing the blower fan 24 guides the air flowing into the ventilation opening 45 toward the blower fan 24, and the dry air sent from the blower fan 24 flows backward to the ventilation opening 45 side. An air guide tube 46 is formed to bulge.

The sound insulation wall 41 and the air guide tube 46 are smoothly connected via a bell mouth portion 47 that widens toward the suction port 4 side.

A guide wall surface 48 of the bell mouth portion 47 facing the ventilation opening 45 is formed in a single arc shape. The guide wall surface 48 and the entrance surface 49 of the sound insulation wall 41 on the suction port 4 side are smoothly connected.

The main body case 1 includes a cylindrical case 16 formed by joining a pair of half-split bodies 14 and 15 in a lid-to-cover manner, and a cap cylinder 18 externally fitted to the end of the cylindrical case 16 on the suction port 4 side. ing. A sound insulating wall 41 is held and supported by an end portion of the cylindrical case 16 on the side of the suction port 4 .

One end of the cap tube 18 protrudes from the tube case 16 . A suction grille 21 made of a perforated plate is fitted into an opening on the projecting end side of the cylindrical case 16 .

A cap tube 18 is detachably provided with respect to the tube case 16 .

Each of the half bodies 14 and 15 includes a cylindrical wall 19 and a cover wall 20 extending inwardly from the end of the cylindrical wall 19 on the suction port 4 side. The sound insulation wall 41 is sandwiched and supported by the tip edges of the pair of covering walls 20,20. When the pair of half-split bodies 14 and 15 are joined together, a pair of cover walls 20 and 20 are formed in a bowl shape with partial spherical walls.

In the hair dryer of the present invention, a sound insulating wall 41 and a sound insulating body 42 are arranged in a state in which the fan blade 31 rotates in the ventilation passage 3 between the blower fan 24 and the suction port 4, as viewed from the side directly facing the suction port 4. was set up. According to such a hair dryer, the wind noise generated by the fan blades 31 and dissipated toward the suction port 4 can be reflected toward the blower fan 24 by the sound insulation wall 41 and the sound insulation body 42 arranged in a double manner. Wind noise can be suppressed from leaking directly from the suction port 4 to the outside. Further, since the wind noise reflected by the sound insulation wall 41 and the sound insulation body 42 can be attenuated by mutual interference between the sound insulation wall 41 and the sound insulation body 42 and the blower fan 24, the sound pressure can be reduced. . Therefore, according to the present invention, the noise level of the wind noise generated by the fan blades 31 of the blower fan 24 can be reduced, and the operating noise accompanying the driving of the blower fan 24 can be reduced.

When the sound insulation wall 41 is formed in a flat plate shape having a ventilation opening 45 in the center, the sound insulation wall 41 in the shape of a flat plate diverts wind noise toward the blower fan 24 side while ensuring a flow path to the blower fan 24 . It can be reliably reflected and the noise level can be reduced. In addition, if the sound insulation body 42 is composed of a perforated flat plate 57 having a large number of ventilation holes 56 facing the sound insulation wall 41 and the ventilation openings 45, an air flow path from the suction port 4 to the ventilation openings 45 can be ensured. The noise level can be reduced by attenuating part of the wind noise by the sound insulator 42 facing the portion facing the ventilation opening 45, that is, the inner portion of the rotational locus of the fan blade 31. In addition, since the sound insulator 42 functions as a filter for filtering the air sucked from the suction port 4, it is possible to prevent dust and the like from entering the ventilation passage 3.

The sound insulation wall 41 and the sound insulation body 42 are arranged in close contact with each other, and when the sound insulation body 42 is supported by the support bar 53 provided so as to straddle the ventilation opening 45, for example, the sound insulation body 42 becomes flexible. Even if it is provided, the shape of the sound insulator 42 can be maintained because the support bar 53 prevents the sound insulator 42 facing the ventilation opening 45 from being drawn toward the blower fan 24 and deflected. Thereby, the generation of noise due to the vibration of the sound insulator 42 can be prevented.

When the sound insulating wall 41 and the sound insulating body 42 are inseparably and integrally joined, the shape of the sound insulating body 42 can be more surely maintained, so that the generation of noise caused by the vibration of the sound insulating body 42 can be surely prevented.

If the aperture ratio per unit area of the sound insulator 42 facing the sound insulation wall 41 is set to be smaller than the aperture ratio per unit area of the sound insulator 42 facing the ventilation opening 45, the portion of the sound insulator 42 facing the sound insulation wall 41: Wind noise can be sufficiently reflected, and the flow rate of the air passing through the portion of the sound insulator 42 facing the ventilation opening 45 can be sufficiently ensured.

The wall surface of the sound insulation wall 41 facing the blower fan 24 guides the air flowing into the ventilation opening 45 toward the blower fan 24, and the dry air sent from the blower fan 24 flows backward to the ventilation opening 45 side. If the air guide tube 46 is formed to bulge, the air that has passed through the ventilation opening 45 is guided by the air guide tube 46 to the fan blade 31 and swirled between the blower fan 24 and the ventilation opening 45. can be suppressed, so the air suction noise can be reduced. In addition, the air that has passed through the ventilation openings 45 and the dry air generated by the blower fan 24 are prevented from interfering with each other by the air guide tube 46, and it is possible to suppress the generation of eddy currents in the fan blade 31 portion. Wind noise generated by the blades 31 can be reduced.

When the sound insulation wall 41 and the air guide tube 46 are smoothly connected via the bell mouth portion 47 that expands toward the suction port 4 side, a vortex is generated at the connection portion between the sound insulation wall 41 and the air guide tube 46. Since it is possible to suppress the generation of air suction noise, it is possible to further reduce the air suction noise. Moreover, since the bell mouth portion 47 can reduce pressure loss when air is sucked into the air guide tube 46 , it is possible to prevent the wind speed of the dry air blown from the air outlet 5 from decreasing.

The guide wall surface 48 of the bell mouth portion 47 facing the ventilation opening 45 is formed in a single circular arc shape, and the guide wall surface 48 and the entrance surface 49 of the sound insulation wall 41 on the side of the suction port 4 are smoothly connected. Since the air flowing along the inlet surface 49 of the sound insulating wall 41 can be smoothly guided to the air guide tube 46 by the guide wall surface 48, the generation of vortex in the sound insulating wall 41 can be suppressed more effectively.

The main body case 1 includes a cylindrical case 16 formed by joining a pair of half-split bodies 14 and 15 in a lid-to-cover manner, and a cap cylinder 18 externally fitted to the end of the cylindrical case 16 on the suction port 4 side. When the sound insulation wall 41 is sandwiched and supported by the end portion of the cylinder case 16 on the suction port 4 side, the sound insulation wall 41 is sandwiched by the cylinder case 16, and the separation of the cylinder case 16 is restricted by the cap cylinder 18. Therefore, the sound insulation wall 41 can be firmly supported with a simple structure.

One end of the cap tube 18 protrudes from the tube case 16, and when a suction grille 21 made of a perforated plate is fitted into the opening of the tube case 16 on the protruding end side, the protruding end of the cap tube 18 is projected onto the suction grille. Since it can be reinforced with 21, even if a large external force such as a drop impact acts on the cap tube 18, the cap tube 18 can be prevented from being damaged. In addition, the air sucked into the suction port 4 can be filtered by the suction grille 21, and dust and the like can be further prevented from entering the ventilation passage 3. - 特許庁

When the cap tube 18 is detachably attached to the tube case 16, the sound insulating body 42 can be cleaned by separating the cap tube 18, so that the dust and the like captured by the sound insulating body 42 can be easily removed. can.

Each of the half bodies 14 and 15 includes a cylindrical wall 19 and a covering wall 20 extending inwardly from the end of the cylindrical wall 19 on the suction port 4 side, and the sound insulating wall 41 is the tip of the pair of covering walls 20 and 20. When the pair of half-split bodies 14 and 15 are joined together, the pair of cover walls 20 and 20 are formed in a bowl shape with partial spherical walls. According to this, the air pushed out from the rotation center of the blower fan 24 by the fan blades 31 in the peripheral direction or in the direction of the suction port 4 is directed toward the blowout port 5 by the cover walls 20 formed in a bowl shape. Since the direction can be changed and guided, the dry air generated by the blower fan 24 can be smoothly supplied to the heat source unit 7. - 特許庁

BRIEF DESCRIPTION OF THE DRAWINGS It is a vertical side view which shows the principal part of the hair dryer which concerns on Example 1 of this invention. 1 is a side view showing the entire hair dryer according to Example 1. FIG. 1 is a cross-sectional plan view of a hair dryer according to Example 1. FIG. 1 is an exploded perspective view of a hair dryer according to Example 1. FIG. It is a perspective view which shows the state which separated the cap cylinder. It is a rear view of the state where the cap tube was separated. It is a partially broken enlarged view which shows a bayonet structure. Fig. 2 is a cross-sectional plan view of a hair dryer according to Example 2 of the present invention; It is a perspective view which shows the modification of a sound insulator.

(Example 1) Figs. 1 to 7 show Example 1 of the hair dryer according to the present invention. Front and back, left and right, and up and down in this embodiment follow the crossed arrows shown in FIGS. In FIG. 2, the hair dryer comprises a hollow cylindrical main body case 1 that is elongated in the front-rear direction, and a grip 2 that extends downward from the center of the lower surface of the main body case. Inside the main body case 1, a ventilation passage 3 having a circular cross section extending in the front-rear direction is provided. A blower unit 6 is arranged near the suction port 4 (rear end) of the ventilation passage 3 , and a heat source unit 7 is arranged downstream of the blower unit 6 in the ventilation passage 3 .

Inside the grip 2, a main switch 9, a mode switch 10, etc. are arranged. The main switch 9 consists of a slide switch, and can switch the hair dryer to one of operation stop, weak wind operation, and strong wind operation. The mode switch 10 consists of a rocker switch, and can switch the hair dryer between hot air mode and cold air mode.

As shown in FIG. 3, the main body case 1 includes a cylindrical case 16 formed by joining a pair of left and right divided halves 14 and 15 in a cover-to-cover manner, and a cylindrical case 16 which is connected to the outside from the outlet 5 side. It has a fitting cylinder 17 and a cap cylinder 18 externally fitted to the cylinder case 16 from the suction port 4 side. The makeup tube 17 and the cap tube 18 are each formed in a round tube shape. The makeup tube 17 covers most of the tube case 16 including the end on the blowout port 5 side, and the cap tube 18 is the remaining tube case. The rear end protrudes rearward from the cylindrical case 16 while covering the end of the suction port 4 side of 16 . When the cosmetic tube 17 and the cap tube 18 are fitted onto the tube case 16 , the front end opening of the cosmetic tube 17 serves as the blowout port 5 and the rear end opening of the cap tube 18 serves as the suction port 4 . The half bodies 14 and 15 are integrally provided with grip portions 2a and 2b that form the grip 2 when the half bodies 14 and 15 are joined together. A notch for avoiding the grip 2 is provided on the lower surface of the cosmetic cylinder 17 (see FIG. 2).

As shown in FIG. 4, each of the half bodies 14 and 15 has a cylindrical wall 19 and a cover wall 20 extending inward from the end of the cylindrical wall 19 on the suction port 4 side. When 15 is joined in a lid-to-cover manner, a pair of cover walls 20 are formed in a bowl shape with partial spherical walls that decrease in diameter toward the upstream side of ventilation passage 3 (see FIG. 3). A suction grille 21 made of a partially spherical punched metal (perforated plate) with a large number of round holes opened in a zigzag pattern is fitted into the opening on the projecting end side (rear end side) of the cap tube 18 . , the suction grille 21 prevents dust or part of hair or clothes from being sucked into the air passage 3. - 特許庁In addition, although not shown, the air outlet 5 is provided with an air outlet grill made of metal mesh to prevent fingers from entering the ventilation passage 3 . The intake grille 21 is received by a seat wall 22 that protrudes from the inner surface of the cap cylinder 18 in a circumferential shape.

As shown in FIG. 3, the blower unit 6 includes an axial blower fan 24 for generating dry air and a fan motor 25 for rotating the fan 24. Both of these 24 and 25 are formed into a cylindrical fan case. 26 is housed. The fan motor 25 is fixed to a motor holder 28 integrally formed inside the fan case 26 via a plurality of rectifying blades 27 . The blower fan 24 includes a hub 30 to which an output shaft 29 of the fan motor 25 is connected, and a plurality of fan blades 31 radially arranged around the center of rotation of the hub 30 . The hub 30 is composed of a disk having a partially spherical shell-shaped bulge on its rear surface, and on the rear surface of the hub 30 including the bulge, eight large and small curved plate-shaped fan blades 31 are alternately arranged. It is The locus of rotation of the fan blades 31 viewed from the side facing the suction port 4 is formed in a circular ring shape.

As shown in FIG. 2, the heat source unit 13 includes a halogen lamp 34 that serves as a heat source, a reflector 35 that surrounds the halogen lamp 34 and reflects the light emitted from the lamp 34 forward. An optical filter 36 fixed to the reflector 35 in front of the halogen lamp 34 and a light source stand 37 fixedly supporting the halogen lamp 34 and the reflector 35 are provided. The halogen lamp 34 has a bulb 38 in which a filament (light-emitting portion), an inert gas, a halogen gas, and the like are enclosed. When the halogen lamp 34 is turned on, the bulb 38 emits visible light and infrared light. The optical filter 36 is configured to transmit infrared light but block the transmission of visible light, thereby preventing the glare of the halogen lamp 34 from being felt by the user. It should be noted that blocking the transmission of visible light does not mean completely blocking visible light, but is a concept that includes attenuating visible light. Of course, it also includes those that completely block visible light and allow only infrared light to pass through.

When the slide knob 11 is slid from the stop position to the weak wind operation or strong wind operation position to drive the fan motor 25, the blower fan 24 sucks the external air from the suction port 4 into the air passage 3 to generate dry air. At this time, when the mode switch 10 is in the warm air mode, the halogen lamp 34 is lit, and infrared light and dry air are sent from the outlet 5 toward the hair, and when the mode switch 10 is in the cool air mode, While the halogen lamp 34 is turned off, dry air is sent from the outlet 5 toward the hair. In the warm air mode, the reflector 35 is heated by the halogen lamp 34 to raise the temperature, so that the drying air is heat-exchanged with the halogen lamp 34 through the reflector 35, and the warmed drying air is sent toward the hair. be paid.

When the blower fan 24 is rotationally driven by the fan motor 25, the operating noise generated on the suction port side accompanying the driving of the blower fan 24 is the sound of the air being sucked from the suction port 4 to the blower fan 24 and the sound of the blower fan 24. A wind noise is generated by the fan blades 31 . In order to reduce the noise levels of these suction noise and wind noise, and to reduce the operating noise associated with the driving of the blower fan 24, the ventilation passage 3 between the blower fan 24 and the suction port 4 is provided with the following as shown in FIG. Second, a sound insulation wall 41 and a sound insulation that reflect wind noise generated by the fan blades 31 and dissipated to the side of the suction port 4 to the side of the blower fan 24 in a state facing the rotation locus of the fan blades 31 viewed from the side facing the suction port 4. A body 42 is provided.

As shown in FIGS. 1 and 4, the sound insulation wall 41 on the side closer to the blower fan 24 is formed in a flat disk shape (flat plate shape) having a circular ventilation opening 45 in the center. The wall surface of the sound insulation wall 41 facing the blower fan 24 guides the air flowing into the ventilation opening 45 toward the blower fan 24, and the dry air sent from the blower fan 24 flows backward to the ventilation opening 45 side. A bulging air guide tube 46 is formed to prevent the air from blowing. The air guide tube 46 is formed in a cylindrical shape and extends from the opening edge of the ventilation opening 45 toward the fan blades 31 in a direction approaching the fan blades 31 . The sound insulation wall 41 and the air guide tube 46 are smoothly connected via a bell mouth portion 47 that expands toward the suction port 4 side, and the guide wall surface 48 of the bell mouth portion 47 facing the ventilation opening 45 is single. It is formed in an arc shape. The guide wall surface 48 and the entrance surface 49 of the sound insulating wall 41 on the side of the suction port 4 are smoothly connected, and similarly, the guide wall surface 48 and the inner surface of the air guide tube 46 are smoothly connected. By providing a bell mouth portion 47 at the connecting portion between the sound insulating wall 41 and the wind guide tube 46, the generation of eddy currents at the connecting portion is suppressed.

As shown in FIG. 3, the sound insulation wall 41 is sandwiched and supported by the pair of cover walls 20,20. Specifically, a connection frame 51 in which a circular engagement groove 50 is recessed is provided at the peripheral end of the sound insulation wall 41 , and the tip edge of each covering wall 20 engages with the engagement groove 50 . In this state, the sound insulation wall 41 is sandwiched and supported by a pair of covering walls 20, 20 from the left and right. As shown in FIG. 1 , in addition to the sound insulation wall 41 , the tip portions of the pair of cover walls 20 and 20 are also arranged facing the rotational trajectory of the circular ring-shaped fan blades 31 . A mounting recess 52 that opens rearward is formed on the rear surface of the sound insulation wall 41 by the connecting frame 51, and a support bar 53 is provided in the ventilation opening 45 so as to straddle the opening 45 in a crossing manner. The rear surface of the support bar 53 and the entrance surface 49 are flush with each other.

The sound insulation body 42 is composed of a perforated flat plate 57 having a large number of ventilation holes 56 , and is arranged so as to face the sound insulation wall 41 and the ventilation openings 45 . The sound insulation body 42 of this embodiment is formed by cutting out a mesh body formed by plain weaving synthetic resin single yarns into a disc shape, and is arranged closely to the sound insulation wall 41 in a state of being fitted in the mounting recess 52 . Furthermore, it is adhesively fixed to the entrance surface 49 and the rear surface of the support bar 53 and is inseparably and integrally joined to the sound insulating wall 41 . The sound insulator 42 is arranged to face the rotation trajectory of the circular ring-shaped fan blades 31 and the inner portion of the rotation trajectory. The aperture ratio per unit area of the sound insulator 42 is set to be larger than the aperture ratio per unit area of the suction grille 21 (see FIG. 5). The sound insulating wall 41 and the sound insulating body 42 can also be joined by welding the portions where the both 41 and 42 are in contact with each other instead of adhesion.

As described above, by providing the sound insulation wall 41 and the sound insulation body 42 so as to face the circular ring-shaped rotational trajectory of the fan blades 31 viewed from the side facing the suction port 4, the sound generated by the fan blades 31 is generated on the suction port 4 side. The wind noise dissipated to the outside can be reflected to the blower fan 24 side by the sound insulation wall 41. - 特許庁In addition, part of the wind noise dissipated to the suction port 4 side through the ventilation opening 45 can be reflected by the sound insulating body 42 to the blower fan 24 side.

As shown in FIGS. 5 and 7, the cap tube 18 that constitutes the main body case 1 has a bayonet structure provided between the tube case 16 and the cap tube 18, and is detachably attached to the tube case 16. ing. A bayonet groove 62 formed in an L shape by a guide groove 60 extending in the longitudinal direction and a locking groove 61 extending in the circumferential direction of the cylindrical case 16 is provided on the outer surface of the rear end of the cylindrical wall 19 of the cylindrical case 16 . ing. In addition, an L-shaped bayonet claw 63 is formed to protrude from the inner surface of the cap cylinder 18 so as to correspond to the bayonet groove 62 . The bayonet structure consisting of the bayonet grooves 62 and the bayonet claws 63 is provided at four locations at regular intervals in the circumferential direction. After aligning the bayonet claws 63 with the bayonet grooves 62, the cap tube 18 is fitted to the tube case 16, and the cap tube 18 is rotated clockwise to attach the cap tube 18 to the tube case 16.例文帳に追加The cap cylinder 18 can be separated from the cylinder case 16 by carrying out the procedure in reverse to the mounting. In FIG. 7, reference numeral 64 denotes a lock rib that prevents the bayonet claw 63 from coming off.

(Example 2) Fig. 8 shows Example 2 of the hair dryer according to the present invention. In this embodiment, the fan case 26 is composed of the half members 14 and 15, and the case 26 also serves as the cylinder case 16 that constitutes the main body case 1. As shown in FIG. The blower fan 24 has a hub 30 formed in the shape of a truncated cone, and a plurality of fan blades 31 radially arranged on the inclined peripheral surface of the hub 30 . The connecting frame 51 of the sound insulation wall 41 does not have the engagement groove 50 , and instead, a circular engagement groove 67 is formed on the inner surface of the rear end of the tubular case 16 . The sound insulation wall 41 is held and supported in a state where the connection frame 51 is engaged with the engagement groove 67 . Also, the cap tube 18 is fitted onto the tube case 16 via the makeup tube 17 . Since other parts are the same as those of the hair dryer of Example 1, the same reference numerals are given to the same members, and the description thereof is omitted.

FIG. 9 shows a modification of the sound insulator 42. As shown in FIG. The sound insulator 42 of this modified example is composed of a net-like perforated flat plate 57 having a large number of ventilation holes 56 formed by stamping, laser processing, or etching a synthetic resin sheet. The vent hole 56 has a different opening size between the part in contact with the sound insulator 41 and the part facing the vent opening 45, and the vent hole 56 in the latter part is formed larger than the former part. there is As a result, the opening ratio per unit area of the sound insulator 42 in contact with the sound insulation wall 41 is set smaller than the opening ratio per unit area of the sound insulator 42 facing the ventilation opening 45 . As described above, according to the mesh-like perforated flat plate 57 formed by punching a synthetic resin sheet, compared to the perforated flat plate 57 made of a mesh formed by plain weaving synthetic resin single yarns, It is advantageous in that the opening ratio can be freely set according to the size of the ventilation holes 56, and the desired opening ratio can be easily set. The ventilation holes 56 of the sound insulating body 42 may be provided at least in a portion facing the ventilation opening 45 . Further, the sound insulating body 42 may be formed in a flat disk shape having an opening in the center and facing the rotational trajectory of the fan blades 31 when viewed from the side directly facing the suction port 4 . The sound insulator 42 can also be made of punching metal.

The hair dryer according to the embodiment as described above can be expressed as follows.

a body case 1 having an air inlet 4 at one end and a ventilation passage 3 having an air outlet 5 at the other end;
A blower unit 6 arranged near the suction port 4 of the ventilation passage 3;
a heat source unit 7 arranged downstream of the ventilation passage 3 of the blower unit 6;
with
The blower unit 6 includes a blower fan 24 for generating dry air and a fan motor 25 for rotating the blower fan 24,
The blower fan 24 includes a hub 30 to which the output shaft 29 of the fan motor 25 is connected, and a plurality of fan blades 31 radially arranged around the center of rotation of the hub 30.
In the ventilation path 3 between the blower fan 24 and the suction port 4, the wind is generated by the fan blades 31 and dissipated to the suction port 4 side in a state facing the rotation locus of the fan blades 31 viewed from the side facing the suction port 4. The hair dryer is provided with a sound insulation wall 41 and a sound insulation body 42 for reflecting sound to the blower fan 24 side.

According to the hair dryer configured as described above, wind noise generated by the fan blades 31 and dissipated toward the suction port 4 is reflected toward the blower fan 24 by the sound insulation wall 41 and the sound insulation body 42 arranged in a double manner. Therefore, it is possible to suppress direct leakage of wind noise from the suction port 4 to the outside. Further, since the wind noise reflected by the sound insulation wall 41 and the sound insulation body 42 can be attenuated by mutual interference between the sound insulation wall 41 and the sound insulation body 42 and the blower fan 24, the sound pressure can be reduced. . Therefore, according to the present invention, the noise level of the wind noise generated by the fan blades 31 of the blower fan 24 can be reduced, and the operating noise accompanying the driving of the blower fan 24 can be reduced.

The sound insulation wall 41 is formed in a flat plate shape having a ventilation opening 45 in the center,
A hair dryer in which a sound insulation body 42 is composed of a perforated flat plate 57 having a large number of ventilation holes 56 facing a sound insulation wall 41 and a ventilation opening 45. - 特許庁

According to the sound insulation wall 41 configured as described above, the flat plate-shaped sound insulation wall 41 reliably reflects the wind noise toward the blower fan 24 side while ensuring the flow path to the blower fan 24, thereby reducing the noise level. can be made Further, according to the sound insulating body 42 having the above configuration, while ensuring the flow path of air from the suction port 4 to the ventilation opening 45, the portion facing the ventilation opening 45, that is, the inner portion of the rotation trajectory of the fan blade 31 The noise level can be reduced by attenuating part of the wind noise with the sound insulator 42 facing the wind. In addition, since the sound insulator 42 functions as a filter for filtering the air sucked from the suction port 4, it is possible to prevent dust and the like from entering the ventilation passage 3.

The sound insulation wall 41 and the sound insulation body 42 are arranged in close contact,
A hair dryer in which a sound insulating body 42 is supported by a support bar 53 provided so as to straddle a ventilation opening 45. - 特許庁

According to the configuration as described above, even if the sound insulator 42 is flexible, for example, the support bar 53 can prevent the sound insulator 42 facing the ventilation opening 45 from being pulled toward the blower fan 24 and deflected. Therefore, the shape of the sound insulator 42 can be maintained. Thereby, the generation of noise due to the vibration of the sound insulator 42 can be prevented.

A hair dryer in which a sound insulation wall 41 and a sound insulation body 42 are inseparably and integrally joined.

According to the configuration as described above, since the shape of the sound insulator 42 can be more reliably maintained by being inseparably and integrally joined, the generation of noise due to the vibration of the sound insulator 42 can be reliably prevented.

The hair dryer is such that the opening ratio per unit area of the sound insulating body 42 in contact with the sound insulating wall 41 is set smaller than the opening ratio per unit area of the sound insulating body 42 facing the ventilation opening 45. - 特許庁

According to the configuration described above, the portion of the sound insulator 42 facing the sound insulation wall 41 can sufficiently reflect the wind noise, and the portion of the sound insulator 42 facing the ventilation opening 45 prevents air passing through the portion. Sufficient flow rate can be secured.

The wall surface of the sound insulation wall 41 facing the blower fan 24 guides the air flowing into the ventilation opening 45 toward the blower fan 24, and the dry air sent from the blower fan 24 flows backward to the ventilation opening 45 side. A hair dryer in which an air guide tube 46 is formed to bulge.

According to the above configuration, the air that has passed through the ventilation openings 45 can be guided to the fan blades 31 by the air guide tube 46, thereby suppressing the occurrence of a vortex between the blower fan 24 and the ventilation openings 45. Therefore, the air suction noise can be reduced. In addition, the air that has passed through the ventilation openings 45 and the dry air generated by the blower fan 24 are prevented from interfering with each other by the air guide tube 46, and it is possible to suppress the generation of eddy currents in the fan blade 31 portion. Wind noise generated by the blades 31 can be reduced.

A hair dryer in which a sound insulating wall 41 and an air guide tube 46 are smoothly connected via a bell mouth part 47 expanding toward the suction port 4 side.

According to the configuration described above, it is possible to suppress the generation of a vortex at the connection portion between the sound insulating wall 41 and the air guide tube 46, so that the air suction noise can be further reduced. Moreover, since the bell mouth portion 47 can reduce pressure loss when air is sucked into the air guide tube 46 , it is possible to prevent the wind speed of the dry air blown from the air outlet 5 from decreasing.

A guide wall surface 48 of the bell mouth portion 47 facing the ventilation opening 45 is formed in a single arc shape,
A hair dryer in which a guide wall surface 48 and an inlet surface 49 of a sound insulating wall 41 on the suction port 4 side are smoothly connected.

According to the above configuration, the guide wall surface 48 can smoothly guide the air flowing along the inlet surface 49 of the sound insulation wall 41 to the air guide tube 46, so that the generation of the vortex in the sound insulation wall 41 can be suppressed more effectively. .

The main body case 1 includes a cylindrical case 16 formed by joining a pair of half-split bodies 14 and 15 in a lid-to-cover manner, and a cap cylinder 18 externally fitted to the end of the cylindrical case 16 on the suction port 4 side. and
A hair dryer in which a sound insulating wall 41 is sandwiched and supported by an end portion of a cylinder case 16 on the suction port 4 side.

According to the configuration as described above, the sound insulation wall 41 is sandwiched by the cylindrical case 16, and the separation of the cylindrical case 16 is restricted by the cap cylinder 18, so that the sound insulation wall 41 can be firmly supported with a simple structure.

One end of the cap tube 18 protrudes from the tube case 16,
This hair dryer has a suction grille 21 made of a perforated plate fitted into an opening on the projecting end side of a cylindrical case 16. - 特許庁

According to the above configuration, the projecting end of the cap tube 18 can be reinforced by the suction grille 21, so even if a large external force such as a drop impact acts on the cap tube 18, the cap tube 18 can be prevented from being damaged. . In addition, the air sucked into the suction port 4 can be filtered by the suction grille 21, and dust and the like can be further prevented from entering the ventilation passage 3. - 特許庁

A hair dryer in which a cap cylinder 18 is detachably attached to a cylinder case 16. - 特許庁

According to the configuration as described above, the sound insulator 42 can be cleaned by separating the cap tube 18, so that the dust and the like captured by the sound insulator 42 can be easily removed.

Each of the half bodies 14 and 15 includes a cylindrical wall 19 and a covering wall 20 extending inwardly from the end of the cylindrical wall 19 on the suction port 4 side,
The sound insulation wall 41 is sandwiched and supported by the tip edges of the pair of cover walls 20, 20,
This hair dryer has a pair of covering walls 20, 20 which are formed into a bowl shape by partially spherical walls when the pair of half-split bodies 14, 15 are joined.

According to the above configuration, the air pushed out from the rotation center of the blower fan 24 by the fan blades 31 in the peripheral direction or in the direction of the suction port 4 is blocked by the cover walls 20 formed in the bowl shape. Since the direction can be changed and guided toward the side, the dry air generated by the blower fan 24 can be smoothly supplied to the heat source unit 7. - 特許庁

In each of the above embodiments, the sound insulation wall 41 and the sound insulation body 42 are closely arranged, but both 41 and 42 can be arranged with a predetermined interval in the front-rear direction. In this case, the sound insulation wall 41 and the sound insulation body 42 may be joined via, for example, a plurality of columnar spacers extending in the front-rear direction. The contour shape of the sound insulation wall 41 and the ventilation openings 45 can also be formed in an elliptical, oval, or polygonal shape instead of a circular shape. The heat source of the heat source unit 7 is not limited to halogen lamps, and high-intensity lamps such as incandescent lamps, xenon lamps, and metal halide lamps can also be used. Moreover, the heat source unit 7 may use a nichrome wire formed in a spiral shape as a heat source.

1 Body case 3 Ventilation path 4 Suction port 5 Air outlet 6 Blower unit 7 Heat source unit 14 Half-split body 15 Half-split body 16 Cylindrical case 18 Cap cylinder 19 Cylindrical wall 20 Cover wall 21 Suction grill 24 Blow fan 25 Fan motor 29 Output shaft 30 hub 31 fan blade 41 sound insulation wall 42 sound insulation body 45 ventilation opening 46 air guide tube 47 bell mouth portion 48 guide wall surface 53 support bar 56 ventilation hole 57 perforated flat plate

Claims (11)

a body case (1) having an air intake (4) at one end and a ventilation passage (3) having an air outlet (5) at the other end;
A blower unit (6) arranged near the suction port (4) of the ventilation passage (3);
a heat source unit (7) arranged downstream of the ventilation passage (3) from the blower unit (6);
with
The blower unit (6) includes a blower fan (24) for generating dry air and a fan motor (25) for rotating the blower fan (24),
The blower fan (24) includes a hub (30) to which an output shaft (29) of a fan motor (25) is connected, and a plurality of fan blades (31) radially arranged around the center of rotation of the hub (30). ) and
A sound insulation wall (41) is installed in the ventilation passage (3) between the blower fan (24) and the suction port (4) in a state facing the rotation trajectory of the fan blades (31) viewed from the side directly facing the suction port (4). and a sound insulator (42) are provided,
The sound insulation wall (41) is formed in a flat plate shape having a ventilation opening (45) in the center,
The sound insulation body (42) is composed of a perforated flat plate (57) having a large number of ventilation holes (56), and is arranged in close contact with the sound insulation wall (41) so as to block the ventilation openings (45),
The ventilation opening (45) is formed in a circular shape, and the center of the circle of the ventilation opening (45) is located on the axis of the output shaft (29),
When a virtual plane orthogonal to the axial direction of the output shaft (29) is defined, the circular rotation trajectory of the fan blade (31) projected from the axial direction of the output shaft (29) toward the virtual plane The opening area of the ventilation opening (45) defined by the opening edge of the sound insulation wall (41) projected toward the virtual plane from the axial direction of the output shaft (29) is set smaller than the area. Hair dryer featured. 2. A hair dryer according to claim 1, wherein the sound insulation (42) is supported by a support bar (53) straddling the ventilation opening (45). A hair dryer according to claim 1 or 2 , wherein the sound insulation wall (41) and the sound insulation body (42) are inseparably and integrally joined . 2. From claim 1, wherein the opening ratio per unit area of the sound insulator (42) in contact with the sound insulation wall (41) is set smaller than the opening ratio per unit area of the sound insulator (42) facing the ventilation opening (45). 4. A hair dryer according to any one of 3 . On the wall surface of the sound insulation wall (41) facing the blower fan (24), the air flowing into the ventilation opening (45) is flow-guided toward the blower fan (24), and dry air is supplied from the blower fan (24). 5. A hair dryer according to any one of claims 1 to 4, wherein the air guide tube (46) is formed to bulge to prevent the air from flowing back to the ventilation opening (45) side. 6. A hair dryer according to claim 5 , wherein the sound insulation wall (41) and the air guide tube (46) are smoothly connected via a bell mouth portion (47) that expands toward the suction port (4). . The guide wall surface (48) of the bell mouth (47) facing the ventilation opening (45) is formed in a single arc shape,
7. A hair dryer according to claim 6, wherein the guide wall surface (48) and the inlet surface (49) of the sound insulation wall (41) on the suction port (4) side are smoothly continuous. The body case (1) consists of a cylindrical case (16) formed by joining a pair of half-split bodies (14 and 15) in a lid-to-cover fashion, and an end portion of the cylindrical case (16) on the suction port (4) side. and a cap cylinder (18) fitted on the outside,
8. The hair dryer according to any one of claims 1 to 7, wherein the sound insulation wall (41) is sandwiched and supported by the end of the cylindrical case (16) on the suction port (4) side. One end of the cap tube (18) protrudes from the tube case (16),
9. A hair dryer according to claim 8 , wherein a suction grille (21) made of a perforated plate is fitted into an opening on the projecting end side of the cylindrical case (16). 10. A hair dryer according to claim 8 or 9 , wherein the cap tube (18) is detachably attached to the tube case (16) . Each half body (14, 15) includes a cylindrical wall (19) and a cover wall (20) extending inwardly from the end of the cylindrical wall (19) on the suction port (4) side,
The sound insulation wall (41) is sandwiched and supported by the tip edges of the pair of covering walls (20, 20),
11. The hair according to any one of claims 8 to 10, wherein the pair of covering walls (20, 20) are formed in a bowl shape with partial spherical walls when the pair of half bodies (14, 15) are joined together. dryer .

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