JP4797928B2 - Hair dryer - Google Patents

Description

  The present invention relates to a hair dryer that discharges hot air or cold air to dry or set hair.

  In the hair dryer, as shown in FIGS. 4 and 5, in order to ensure the necessary wind pressure, in the nozzle 51 connected to the connection port provided at the downstream end portion of the air flow path, the discharge port 52 of this nozzle 51. Is formed in a rectangular shape having a cross-sectional area smaller than the cross-sectional area of the connection port, that is, the cross-sectional area of the connection portion 53 of the nozzle 51 connected to the connection port.

  The side portion 54 of the nozzle 51 on the long side of the discharge port 52 formed in the rectangular shape is formed so as to spread linearly from the connection port side toward the discharge port 52 side. In the side part 55 of the nozzle 51, it forms so that it may restrict | squeeze linearly toward the discharge port 52 side from the said connection port side (patent document 1).

In addition, as shown in FIGS. 6 and 7, the side portion 54 of the nozzle 51 on the long side may be formed in a concave arc shape, and the side portion 55 of the nozzle 51 on the short side may be formed in a concave arc shape. In any nozzle 51, the cross-sectional area of the discharge port 52 is narrower than the cross-sectional area of the connection port.
Japanese Utility Model Publication No. 54-65278

  However, in the nozzle of the hair dryer described in Patent Document 1 of the background art, since the cross-sectional area of the discharge port is narrower than the cross-sectional area of the connection port, the necessary wind pressure can be secured, In some cases, the air volume of air discharged from the discharge port decreases. For this reason, in order to ensure the said air volume, it needed to enlarge the air blower.

  The present invention solves the above-mentioned problems of the background art, and an object of the present invention is to provide a hair dryer capable of ensuring the air pressure of the air discharged from the discharge port of the nozzle and preventing the decrease in the air volume. .

In order to solve the above-mentioned problems, the present invention provides an air flow path formed in a housing, a fan that is disposed in the air flow path and blows air introduced into the air flow path, and heats the introduced air a heater for being connected to the housing by a connecting portion provided at the downstream end of the air passage, and a nozzle for discharging the blown air by the fan, and the discharge port of the nozzle is formed in a rectangular In the long side of the discharge port, both sides of the nozzle on the discharge port side from the discharge port side end of the connecting portion are formed so that the width between both sides increases, and both sides of the nozzle on the short side of the discharge port When the cross-sectional area is narrowed from the connecting part side to the discharge port side, the part is formed so that the width between both side parts decreases.
Form both sides on the long side of the discharge port in a convex arc shape so that the width between both sides increases, and form both sides on the short side in a concave arc shape so that the width between both sides decreases. Therefore, in the vicinity of the discharge port, the increase in the width between both sides on the long side and the decrease in the width between both sides on the short side are reduced, and the decrease in the cross-sectional area near the discharge port is made gradual. It is characterized by that.

Further, the both sides of the nozzle at a predetermined distance from the end of the discharge port to the connection port may be formed so as to be parallel to each other on both the long side and the short side of the discharge port .

The present invention also includes an air flow path formed in the housing, a fan that is disposed in the air flow path and blows air introduced into the air flow path, and a heater that heats the introduced air. In a hair dryer, a nozzle is connected to a housing by a connecting portion provided at a downstream end of an air flow path and discharges air blown by a fan, and the nozzle has a discharge port formed in a rectangular shape. On the long side of the discharge port, both sides of the nozzle on the discharge port side from the discharge port side end of the connection portion are formed so as to increase the width between both sides, and the nozzle on the short side of the discharge port Both sides are formed so that the width between both sides decreases, and when the cross-sectional area is reduced from the connection side to the discharge port side, the width between the two sides on the long side of the discharge port is formed in a convex arc shape. Formed to increase By forming both sides on the short side in a concave arc shape so that the width between both sides decreases, the degree of increase in the width between both sides on the long side and between the both sides on the short side in the vicinity of the discharge port with less degree of decrease width, a reduction in the cross-sectional area in the vicinity of the discharge port may be a gentle.

  In the hair dryer of this invention, since the pressure loss of the air which passes the inside of a nozzle can be reduced, while ensuring the wind pressure of the air discharged from a nozzle, the hair dryer which can prevent the fall of an air volume can be provided.

  Further, since the side portion of the nozzle on the short side of the discharge port is formed in a concave arc shape, the cross-sectional area of the discharge port can be more efficiently reduced than the cross-sectional area of the connection port.

  In addition, on the long side of the discharge port, both sides of the nozzle at a predetermined distance from the discharge port end to the connection port are formed in parallel with each other, thereby improving the wind pressure of air discharged from the nozzle. In addition, it is possible to prevent a decrease in the air volume.

  FIG. 1 shows a hair dryer according to a first embodiment of the present invention. As shown in FIG. 1, this hair dryer has a main body case 1 as a housing, and the main body case 1 is connected to an air suction port 2 and a nozzle 4 formed in an annular shape and provided with an air discharge port 3. A connection port 5 is provided.

  In the nozzle 4, the connection portion 6 connected to the connection port 5 is formed in an annular shape like the connection port 5. On the other hand, the suction port 2 is invaded with dust, dust or the like into the main body case 1. In order to prevent this, a filter 7 formed in a lattice shape is provided.

  Next, an air flow path 8 is provided in the main body case 1. The air flow path 8 includes a motor 9 and a fan 10 connected to the motor 9, and sucks air from the suction port 2. An air blowing section 11 for blowing air to the air flow path 8 is provided.

  In the air flow path 8, a heating unit 14 including an insulating plate 12 having a cross-shaped cross section and a heater 13 wound outside the insulating plate 12 is provided on the downstream side of the air blowing unit 11. ing.

  In addition, a grip portion 15 that is gripped by the user is provided at the lower portion of the main body case 1, and the grip portion 15 controls the air blowing portion 11 and the heating portion 14 so that the air blowing state is light or light. , And a multistage slide type changeover switch 16 that switches in the order of strong wind, and a push type changeover that controls the on / off of the heating unit 14 on the upper side of the changeover switch 16 to switch the blowing state to hot air or cold air A switch 17 is provided.

  Next, as shown in FIGS. 2 and 3, the discharge port 3 of the nozzle 4 is formed in a rectangular shape, and the connection portion 6 to the main body case 1 provided on the opposite side of the discharge port 3 is formed in an annular shape. . Here, the cross-sectional area of the discharge port 3 is set to be smaller than the cross-sectional area of the connection portion 6, and the inside of the nozzle 4 has a configuration in which the cross-sectional area is narrowed from the connection portion 6 side to the discharge port 3 side. It has become.

  Here, the width in the longitudinal direction of the discharge port 3 is set to be larger than the width of the connection portion 6, and the width in the short direction of the discharge port 3 is conversely smaller than the width of the connection portion 6. Is set to

  In the nozzle 4, the side 18 in the longitudinal direction from the end of the connection portion 6 on the discharge port 3 side to the discharge port 3 side is formed in a convex arc shape, and the side portion 19 in the short direction of the discharge port 3 is It is formed in a concave arc shape, and the sectional area from the connection portion 6 side to the discharge port 3 side is configured so that the throttle is smoothly formed.

  Further, on the side portion 18 in the longitudinal direction of the discharge port 3, both side portions 18 are formed in parallel to each other up to a predetermined distance from the discharge port 3. Further, the side portion 19 of the discharge port 3 in the short direction is also formed so that the side portions 19 are parallel to each other up to a predetermined distance from the discharge port 3.

  In the above configuration, the operation of the hair dryer in the embodiment of the present invention will be described with reference to FIGS.

  When the user grips the grip 15 provided at the lower part of the main body case 1 and selects the changeover switch 16 in a light wind, the motor 9 is driven in the blower 11 and the fan 10 connected to the motor 9 rotates. To do.

  At this time, when the user selects the changeover switch 16 for a light breeze, the motor 9 is controlled so that the rotational speed of the motor 9 is smaller than the weak wind. When the user selects the changeover switch 16 for a strong wind, the rotational speed of the motor 9 is It is controlled to be larger than the weak wind.

  Next, when the user switches the changeover switch 17 to hot air, the heater 13 of the heating unit 14 is driven. Here, when the changeover switch 17 is switched to cold air, the heater 13 is controlled not to be driven.

  When the fan 10 rotates, air is sucked from the suction port 2, and the sucked air passes through the heating unit 14 provided on the downstream side of the blower unit 11, but the heater 13 of the heating unit 14 is driven. After the air passing through the heating unit 14 is heated, it flows through the air flow path 8 and is blown to the nozzle 4 connected by the connection part 6 to the connection port 5 provided at the downstream end of the air flow path 8. The

  The air introduced into the nozzle 4 from the connection portion 6 is blown toward the discharge port 3, but the inside of the nozzle 4 has a configuration in which the cross-sectional area is reduced from the connection portion 6 side to the discharge port 3 side. Therefore, the wind pressure of the air flowing through the nozzle 4 increases.

  At this time, as shown in FIGS. 2 and 3, since the side portion 18 in the longitudinal direction of the discharge port 3 is formed in a convex arc shape, the reduction of the cross-sectional area in the vicinity of the discharge port 3 in the nozzle 4 is particularly small. Since it becomes gentle, the turbulence of the wind vector W of the air flowing in the nozzle 4 is suppressed. As a result, the pressure loss of the wind pressure is reduced, and the reduction of the air volume is also reduced.

  Further, since the side portion 19 in the short direction of the discharge port 3 is formed in a concave arc shape, the reduction of the cross-sectional area in the vicinity of the discharge port 3 in the nozzle 4 is made more gradual. Therefore, the pressure loss of the wind pressure of the air flowing through the nozzle 4 can be further reduced.

  Further, in the side portion 18 in the longitudinal direction of the discharge port 3, each side portion 18 is formed to be parallel to each other up to a predetermined distance from the discharge port 3, and the short side of the discharge port 3. Also in the portion 19, since the side portions 19 are formed so as to be parallel to each other up to a predetermined distance from the discharge port 3, the cross-sectional area on the connection portion 6 side from the discharge port 3 in the vicinity of the discharge port 3. Can be made equal to or equivalent to the cross-sectional area of the discharge port 3, it is possible to further suppress the pressure loss of the wind pressure and the decrease in the air volume.

  And the air by which the wind pressure was raised is discharged from the discharge outlet 3, and is supplied to a user's hair etc.

  As described above, according to the embodiment of the present invention, the pressure loss of the air pressure of the air discharged from the discharge port 3 of the nozzle 4 and the decrease in the air volume can be suppressed. When used for so-called professional use, it is possible to discharge a strip-like wide concentrated air with high wind pressure and air volume, improving the quick drying property of wet hair and the drying property at the root of the hair, Furthermore, the hair dryer which can also improve the setting property of hair can be provided.

  In the embodiment of the present invention, the shape of the fan 10 is not particularly shown. However, a turbo fan having a small flow rate fluctuation against resistance change such as pressure loss may be used, and a sirocco fan or shaft may be used. A flow fan may be used.

  R of the convex curved surface shape at the side portion 18 in the longitudinal direction of the discharge port 3 is preferably set so that the reduction in the cross-sectional area is substantially constant in the nozzle 4.

The front view which shows the internal structure of the hair dryer which is 1st Embodiment of this invention. The perspective view of the nozzle of the hair dryer. (A) Sectional drawing of the transversal direction of the nozzle of the hair dryer. (B) Sectional drawing of the longitudinal direction of the nozzle of the hair dryer. The perspective view of the nozzle of the conventional hair dryer. (A) Sectional drawing of the transversal direction of the nozzle of the hair dryer. (B) Sectional drawing of the longitudinal direction of the nozzle of the hair dryer. The perspective view which shows another form of the nozzle of the hair dryer. (A) Sectional drawing of the transversal direction of the nozzle of the hair dryer. (B) Sectional drawing of the longitudinal direction of the nozzle of the hair dryer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Main body case 3 Discharge port 4 Nozzle 6 Connection part 8 Air flow path 10 Fan 13 Heater 18 Side part 19 Side part

Claims (3)

An air flow path formed in the housing, a fan that is arranged in the air flow path and blows air introduced into the air flow path, a heater that heats the introduced air, and a downstream end of the air flow path And a nozzle that discharges air blown by a fan.The nozzle discharge port is formed in a rectangular shape, and the discharge port of the connection unit is formed on the longitudinal side of the discharge port. thereby forming both sides of the nozzles of the discharge port side from the outlet side end portion so that the width between both side portions is increased, so that the both sides of the nozzle in the lateral side of the discharge port width between both side portions decreases When the cross-sectional area is reduced from the connection side to the discharge port side,
Form both sides on the long side of the discharge port in a convex arc shape so that the width between both sides increases, and form both sides on the short side in a concave arc shape so that the width between both sides decreases. Therefore, in the vicinity of the discharge port, the increase in the width between both sides on the long side and the decrease in the width between both sides on the short side are reduced, and the decrease in the cross-sectional area near the discharge port is made gradual. Hair dryer. The hair dryer according to claim 1, wherein both sides of the nozzle at a predetermined distance from the end of the discharge port to the connection port are parallel to each other on both the long side and the short side of the discharge port.   In a hair dryer comprising: an air flow path formed in a housing; a fan that is arranged in the air flow path and blows air introduced into the air flow path; and a heater that heats the introduced air. A nozzle that is connected to the housing by a connecting portion provided at a downstream end of the path and discharges air blown by a fan;
The discharge port is formed in a rectangular shape, and on the longitudinal side of the discharge port, both sides of the nozzle on the discharge port side are formed from the discharge port side end of the connection portion so that the width between both sides is increased. When both sides of the nozzle on the short side of the outlet are formed so that the width between both sides decreases, when the cross-sectional area is reduced from the connection side to the discharge port side,
Form both sides on the long side of the discharge port in a convex arc shape so that the width between both sides increases, and form both sides on the short side in a concave arc shape so that the width between both sides decreases. Thus, in the vicinity of the discharge port, the degree of increase in the width between the two sides on the long side and the degree of decrease in the width between the two sides on the short side are reduced, and the decrease in the cross-sectional area near the discharge port is moderated. No hair dryer nozzle.

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