JP2017196019A - Hair Dryer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hair dryer capable of making a detection sensitivity of a hair temperature when in use more uniform.SOLUTION: A hair dryer 10 includes a dryer body 20 in which an air blowing path 22 having a suction port 22a and a discharge port 22b is formed, an air blowing part 23 disposed in the air blowing path 22, and a heating part 24 disposed closer to a discharge port 22b side than the air blowing part 23 in the air blowing path 22. The hair dryer 10 includes a hair temperature measuring part 52 for measuring a temperature of hair H, and the hair temperature measuring part 52 is provided outside the discharge port 22b. The hair temperature measuring part 52 is provided so that the direction of a detection axis A is a direction along a blowing direction W of warm air discharged from the discharge port 22b.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a hair dryer.

  Conventionally, as a hair dryer, there has been known a hair dryer having a dryer main body formed with a ventilation channel having an inlet and an outlet, which is dried by applying warm air discharged from the outlet to a user's hair. (For example, refer to Patent Document 1).

  In this patent document 1, while arrange | positioning a ventilation part on the suction inlet side of a ventilation flow path, arrange | positioning a heating part on the discharge outlet side rather than the ventilation part in a ventilation flow path, operate | moving a ventilation part and a heating part, and inhaling Hot air is discharged from the discharge port by introducing air from the port and heating by the heating unit.

  Furthermore, in this patent document 1, the infrared sensor which measures the temperature of hair is arrange | positioned in the ventilation flow path in the state which made the detection axis face the discharge direction of warm air. That is, in this patent document 1, the infrared sensor is arrange | positioned on the warm air axis | shaft. By doing this, when drying the hair, it is possible to measure the temperature of the hair without handling the hair dryer in an excessively accurate manner, and to more reliably suppress overheating of the hair. Yes.

Japanese Patent Application Laid-Open No. 07-255524

  By the way, when hair is dried using a hair dryer, it is common to apply hot air to a plurality of portions of the hair while changing the posture of the hair dryer in various ways. Therefore, when hair is dried using a hair dryer, the hair may be dried using the center of the hot air area, that is, by mainly applying hot air discharged from the center of the discharge port. . Further, the hair may be dried by using the end of the hot air area, that is, by mainly applying the hot air discharged from the peripheral portion of the discharge port.

  At this time, if the infrared sensor is arranged on the hot air axis as in the prior art, the hair may be dried using the center of the hot air area. When drying the hair, the sensitivity of detecting the hair temperature may decrease.

  Then, an object of this invention is to obtain the hair dryer which can make the detection sensitivity of the hair temperature at the time of use more uniform.

  In order to solve the above-described conventional problems, a hair dryer according to the present invention includes a dryer body in which a blower channel having an inlet and a discharge port is formed, a blower unit disposed in the blower channel, and the blower channel. And a heating unit disposed closer to the discharge port than the air blowing unit.

  Moreover, the hair dryer is provided with the hair temperature measurement part which measures the temperature of hair, and the said hair temperature measurement part is provided in the outer side of the said discharge outlet.

  And the said hair temperature measurement part is provided so that the direction of a detection axis may turn into the direction along the ventilation direction of the warm air discharged from the said discharge outlet.

  ADVANTAGE OF THE INVENTION According to this invention, the hair dryer which can make the detection sensitivity of the hair temperature at the time of use more uniform can be obtained.

It is a side view which shows typically the hair dryer concerning Embodiment 1 of this invention. It is a block diagram which shows a part of electric system | strain of the hair dryer concerning Embodiment 1 of this invention. It is a figure explaining the reach | attainment range of the warm air at the time of using the hair dryer concerning a comparative example, the detectable range of a hair temperature measurement part, and the position of hair. It is a figure explaining the reach | attainment range of the warm air at the time of using the hair dryer concerning Embodiment 1 of this invention, the detectable range of a hair temperature measurement part, and the position of hair. It is a figure explaining an example of the conditions for making hair suitable for hairdressing. It is a figure explaining the drying process of the hair in the predetermined | prescribed site | part at the time of drying hair using the control method concerning a comparative example. It is a figure explaining the drying process of the hair in the predetermined | prescribed site | part at the time of drying hair using the control method concerning Embodiment 1 of this invention. It is a flowchart which shows an example of operation | movement of the hair dryer concerning Embodiment 1 of this invention. It is a figure which shows the control method concerning the modification of Embodiment 1 of this invention. It is a side view which shows typically the hair dryer concerning Embodiment 2 of this invention. It is a flowchart which shows an example of operation | movement of the hair dryer concerning Embodiment 2 of this invention. It is a figure explaining an example of the positional relationship between the detectable range of each sensor of the hair temperature measurement part concerning Embodiment 2 of this invention, and hair, and the positional relationship of the detectable range of each sensor, and a finger.

  A hair dryer according to an embodiment of the present invention includes a dryer body in which a blower channel having an inlet and a discharge port is formed, a blower unit disposed in the blower channel, and the blower unit in the blower channel. And a heating unit disposed closer to the discharge port.

  Moreover, the hair dryer is provided with the hair temperature measurement part which measures the temperature of hair, and the said hair temperature measurement part is provided in the outer side of the said discharge outlet.

  And the said hair temperature measurement part is provided so that the direction of a detection axis may turn into the direction along the ventilation direction of the warm air discharged from the said discharge outlet.

  In this way, the hair temperature measuring part should be opposed to the hair, whether the hair is dried using the center of the hot air area or the hair is dried using the edge of the hot air area. Therefore, the sensitivity of detecting the hair temperature during use can be made more uniform.

  In addition, the hair dryer further includes a gripping portion that is connected to the dryer body. And the said hair temperature measurement part is provided in the said holding | grip part side in the outer side of the said discharge outlet.

  In this way, when the hair is dried using the edge of the warm air area, the hair temperature measuring unit is provided on the grip side, which is often located on the hair side, so the hair temperature measuring unit can be detected. The hair will be located in the area. As a result, the hair temperature can be more reliably detected by the hair temperature measuring unit.

  In addition, the hair dryer further includes a calculation unit to which the output result output from the hair temperature measurement unit is input, and the hair temperature measurement unit includes a plurality of sensors each having a different field of view.

  And the said calculating part selects the temperature which becomes the maximum among the temperatures output from the some sensor.

  In this way, it becomes possible to select only the temperature measured by a sensor having a field of view that is least affected by things other than the hair, even when the hair is fluttering or when performing hair styling by hand, The hair temperature can be measured with almost constant sensitivity.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

  Moreover, the same component is contained in the following several embodiment. Therefore, in the following, common reference numerals are given to those similar components, and redundant description is omitted.

(Embodiment 1)
As shown in FIG. 1, the hair dryer 10 according to the present embodiment includes a dryer body 20 in which an air flow path 22 is formed, and an elongated grip portion 30 that is a portion that a user U grips with a hand. Yes. Although not shown, a power cord connected to an external power source or the like is drawn out from the distal end portion of the grip portion 30.

  In the present embodiment, the grip portion 30 is formed integrally with the dryer body 20, and the dryer body 20 and the grip portion 30 are configured to exhibit a substantially T-shaped appearance. At this time, the grip part 30 is connected to the dryer body 20 so that the extending direction of the air flow path 22 (the flow direction of the air flow) is a direction intersecting the longitudinal direction of the grip part 30.

  The gripper 30 may be connected to the dryer main body 20 so that the dryer main body 20 and the gripper 30 have a substantially L-shaped appearance.

  Further, the gripper 30 may be connected to the dryer body 20 so as to be rotatable, and the dryer body 20 and the gripper 30 may have a substantially T-shaped or substantially L-shaped appearance when used.

  The dryer main body 20 includes a main body housing 21 formed so as to have a hollow inside, and the main body housing 21 constitutes an outline of the dryer main body 20.

  On the other hand, the grip portion 30 includes a grip portion side housing 31 formed so as to have a hollow inside. The grip portion side housing 31 constitutes an outline of the grip portion 30.

  Thus, in the present embodiment, the main body housing 21 and the grip part side housing 31 constitute at least a part of the housing 40 that forms the outline of the hair dryer 10.

  For example, the housing 40 can be formed by joining a plurality of divided bodies. A cavity is formed inside the housing 40, and various electrical components are accommodated in the cavity.

  In the present embodiment, an air flow path 22 extending from the suction port 22a on one side (right side) in the longitudinal direction (left-right direction in FIG. 1) to the discharge port 22b is formed in the body housing 21 of the dryer body 20. Yes. That is, the air flow path 22 provided with the suction inlet 22a and the discharge outlet 22b in the both sides is provided in the main body housing 21 of the dryer main body 20. As shown in FIG.

  A blower unit 23 is disposed on the upstream side (the side close to the suction port 22a) in the air flow path 22, and air introduced from the suction port 22a is discharged from the discharge port 22b. . For example, the air blower 23 may include a fan disposed on the upstream side in the air flow path 22 and a motor disposed on the downstream side of the fan to drive the fan. With this configuration, when the motor is driven by energizing the motor and the fan is rotated, the air flows into the air flow path 22 from the outside via the suction port 22a and passes through the air flow path 22 An air flow (air blowing) discharged from the discharge port 22b to the outside is formed.

  A heating unit 24 that heats the air (air) is disposed on the downstream side of the air blowing unit 23 (the side closer to the discharge port 22b than the air blowing unit 23). When the heating unit 24 is operated, the air flow (air blowing) formed by the air blowing unit 23 is heated and hot air is blown out from the discharge port 22b. As the heating unit 24, for example, a heater formed by winding and arranging a strip-like and corrugated plate-like electric resistor along the inner periphery of the main body housing 21 of the dryer main body 20 can be used.

  On the other hand, a switch part 32 for switching the power ON and OFF and the like is accommodated in a cavity in the grip part side housing 31 of the grip part 30.

  The switch portion 32 is configured to be able to switch the open / close state of the internal contact by operating the operation element 33 exposed on the surface of the grip portion side housing 31.

  Furthermore, in the present embodiment, a charged particle generation unit that generates charged particles such as mist and metal particles is accommodated in the air flow path 22. In addition, it is also possible not to provide the charged fine particle production | generation part in the ventilation flow path 22. FIG.

  Using the hair dryer 10 having such a configuration, if the user U applies hot air discharged from the discharge port 22b to the hair H (the user's own hair or the hair of the other person other than the user) H, It is possible to dry the hair H of the subject who has been wet by shampooing or the like.

  At this time, while the user U changes the posture of the hair dryer 10 in various ways, the user U is heated by applying hot air to a plurality of portions of the subject's hair H, thereby drying the entire subject's hair H. Is common.

  Furthermore, in this Embodiment, the hair dryer 20 is provided with the hair temperature measurement part 52 which measures the temperature of the hair H, and the alerting | reporting part 51 which alert | reports the state of the hair H. Further, the hair dryer 20 includes a timer 54 that counts the drying time of the hair H, and a calculation unit 53 that calculates the output to the notification unit 51 based on the output result output from the hair temperature measurement unit 52. .

  Then, an output result (measured value of hair temperature) measured by the hair temperature measuring unit 52 is input to the calculating unit 53, and a count value (time measured value) counted by the timer 54 is input to the calculating unit 53. (See FIG. 2).

  Moreover, the calculating part 53 controls the alerting | reporting part 51 based on the measured value and the time measurement value of the temperature of the input hair (refer FIG. 2).

  In the present embodiment, hair temperature measurement unit 52 is provided outside discharge port 22b. Specifically, the hair temperature measuring unit 52 is provided on the lower side (the gripping unit 30 side) outside the discharge port 22b. As this hair temperature measurement part 52, an infrared sensor can be used, for example.

  Furthermore, in the present embodiment, as shown in FIG. 1, the hair temperature measurement unit 52 is provided so that the direction of the detection axis A is in the direction along the blowing direction W of the warm air discharged from the discharge port 22b. It has been.

  In other words, in the present embodiment, the hair temperature measurement unit 52 is a hot air whose direction of the detection axis A is discharged from the discharge port 22b to a portion outside the region of the air flow path 22 (a portion where the hot air does not directly hit). It is provided to be in a direction along the air blowing direction W.

  By the way, when the hair H is dried using the hair dryer 10, as described above, it is common to apply hot air to a plurality of parts of the hair H while changing the posture of the hair dryer 10 in various ways. .

  At this time, the hair H may be dried by using the center of the warm air area, that is, by mainly applying the warm air discharged from the central portion of the discharge port 22b. Further, the hair H may be dried by using the end of the hot air area, that is, by mainly applying the hot air discharged from the peripheral portion of the discharge port 22b.

  Here, for example, when the hair temperature measuring unit 52 is arranged on the hot air axis, that is, in the air flow path 22 (part where the hot air directly hits), the hair H is made using the center of the hot air area. In the case of drying, the hair temperature can be detected with high sensitivity by the hair temperature measuring unit 52. However, when the hair H is dried using the end of the hot air area, the hair H present in the detectable range (field of view) 52a of the hair temperature measuring unit 52 is reduced, and the detection sensitivity of the hair temperature is lowered. (See FIG. 3). In addition, the area | region shown with a continuous line in FIG. 3 is the discharge range of warm air.

  On the other hand, in the present embodiment, the hair temperature measuring unit 52 is discharged from the discharge port 22b in the direction of the detection axis A to a part outside the region of the air flow path 22 (part where hot air does not directly hit). It is provided so as to be in a direction along the blowing direction W of warm air.

  In this way, even when the hair H is dried using the center of the hot air area, or when the hair H is dried using the end of the hot air area, the hair temperature measuring unit is applied to the hair H. It becomes possible to oppose (refer FIG. 4). In addition, the area | region shown with a continuous line in FIG. 4 is also a discharge range of warm air.

  As described above, the hair temperature measuring unit 52 is provided outside the area of the air flow path 22 so that the direction of the detection axis A is in the direction along the air blowing direction W of the hot air discharged from the discharge port 22b. For example, the hair temperature detection sensitivity when using the hair dryer 10 can be made more uniform.

  As a result, even if the hair H is dried by various drying methods, the hair temperature can be measured with a substantially constant sensitivity, and it is possible to prevent the hair H from being unevenly finished. Can do.

  Moreover, since the hair temperature measurement part 52 is provided outside the area of the air flow path 22 (part where hot air does not directly hit), noise due to the influence of warm air is generated when measuring the hair temperature. Can be suppressed.

  Furthermore, in this Embodiment, the hair temperature measurement part 52 is provided in the holding part 30 side in the outer side of the discharge outlet 22b.

  In this way, when the user U dries the user's own hair H using the end of the warm air area, the hair temperature measuring unit 52 is provided on the grip 30 side that is often located on the hair H side. It will be. As a result, since more hair H can be present in the detectable range (field of view) 52a of the hair temperature measurement unit 52, the hair temperature measurement unit 52 more reliably detects the temperature of the hair H. Will be able to.

  Moreover, in this Embodiment, the alerting | reporting part 51 is formed by providing LED as a light-emitting body in the outer surface of the main body housing 21. As shown in FIG.

  At this time, for example, when the notification unit 51 is provided in the center of the dryer body 20, in order to recognize the state of the hair H, the user U is provided in the heating part of the hair H and the center of the dryer body 20. It is necessary to see both of the notification units 51. Therefore, when the notification part 51 is provided in the center of the dryer main body 20, the state of the hair H may not be easily recognized.

  However, in the present embodiment, the notification unit 51 is provided over substantially the entire circumference around the discharge port 22 b on the outer surface of the main body housing 21. Thus, if the notification part 51 is provided around the discharge port 22b on the outer surface of the main body housing 21, the notification part 51 enters the range of the visual field of the user U who is looking at the heated part of the hair H. can do. Therefore, the user U can check the state of the hair H without moving the line of sight.

  As described above, in the present embodiment, the notification unit 51 is provided around the discharge port 22b on the outer surface of the main body housing 21, so that the user U is in the state of the notification unit 51 (the hair H to which hot air is applied). Status) can be recognized more easily.

  Furthermore, in this Embodiment, LED (light-emitting body) is provided so that the alerting | reporting part 51 may light-emit in any one color of blue and red. In such a configuration, for example, a blue LED and a red LED are disposed at one or more locations near the discharge port 22 b on each of the front side surface and the back side surface of the main body housing 21, and the discharge port 22 b on the side opposite to the grip portion 30 is further disposed. Can be obtained by arranging a blue LED and a red LED at one or more locations around (the upper portion around the discharge port 22b).

  At this time, it is preferable that a plurality of blue LEDs and a plurality of red LEDs are alternately provided along the periphery of the discharge port 22b so that the LED of any color is lit. In this way, when only the blue LED is turned on, the notification unit 51 emits light in a blue ring shape, and when only the red LED is turned on, the notification unit 51 emits light in a red ring shape. It becomes.

  And the alerting | reporting part 51 is controlled so that it may light-emit blue or red based on the state of the hair H. FIG. In the present embodiment, based on the temperature of the hair H, the notification unit 51 emits light in blue or red. Specifically, when the temperature of the hair H is lower than a predetermined temperature (a target temperature described later), the notification unit 51 emits blue light, and the temperature of the hair H is equal to or higher than the predetermined temperature (a target temperature described later). In this case, the notification unit 51 emits red light.

  Thus, in this Embodiment, while providing the alerting | reporting part 51 in the circumference | surroundings of the discharge outlet 22b, the said alerting | reporting part 51 is based on the state of the hair H (hair temperature measured by the hair temperature measuring part 52) or blue or The red light is emitted. In this way, when the hair dryer 10 is used, the emitted light from the illuminant is reflected on the hair H, and the heated part of the hair H appears to be colored in the luminescent color of the notification unit 51. U can recognize the state of the hair H more intuitively.

  The light emitter is not limited to the LED, and any light emitter may be used as long as it emits light. Further, the color to be emitted is not limited to blue and red, and the color to be emitted can be appropriately selected.

  In addition, the notification method by the notification unit 51 is not limited to causing the light emitter to emit light. For example, the notification unit 51 can be notified by sound, or can be notified by the light emitter and sound. Is also possible.

  The timer 54 counts the drying time of the hair H as described above.

  Further, as described above, the calculation unit 53 receives the output result (measured value of hair temperature) measured by the hair temperature measuring unit 52 and the count value (time measured value) counted by the timer 54, The output to the notification unit 51 is calculated. As such a calculation part 53, the microcomputer etc. which were provided on the control board can be used, for example.

  By the way, when the user U uses the hair dryer 10 to dry the hair H, not only the hair H is dried, but also the hair H is dried and the hair H is corrected, or the hair H is collected. It is common to perform hair styling, such as haircutting.

  In order to further improve the hair styling effect, it is necessary to perform hair styling with the temperature of the hair H set to the glass transition point G or higher. Note that the glass transition point G is calculated based on the results (black points in FIG. 5) that are assumed using a plurality of hair samples having different moisture contents. The transition point G increases.

  Furthermore, in order to further improve the hair styling effect of hair H, hair wet by shampooing or the like (hair having a high water content and a temperature lower than glass transition point G) H is more quickly and ideally used. It is preferable to be within the range of the region R. This is because if the time taken for the wet hair H to fall within the range of the ideal region R becomes long, the hair styling effect may be reduced without correcting the habit of the hair H. The ideal region is a range in which the moisture content of the hair H is 11% to 13% and the hair temperature is 55 ° C. to 75 ° C. as shown in FIG.

  In addition, when the user U dries the hair H using the hair dryer 10, when the hair H of a certain part is heated, the operation of moving to another part and heating the moved part is repeated, and the entire hair is It is common to dry it little by little.

  Therefore, when attention is paid to the hair H in a certain part of the entire hair, heating → heat radiation → heating ... is repeated in this part, and the hair temperature changes up and down (see FIGS. 6 and 7). And the hair H of a specific part will reach | attain the ideal area | region R while reducing hair amount while changing hair temperature up and down by repeating heating-> heat radiation-> heating ....

  At this time, in order to make the hair H wet by shampooing or the like reach the ideal region R more quickly, the total amount of heat given to the hair H needs to be a predetermined amount of heat in a shorter period of time. .

  However, the amount of heat that damages hair H, such as applying 80 ° C wind (hot air) to the same part for 1 second or more, or applying 75 ° C wind (hot air) to the same part for 3 seconds or more ( If the amount of heat exceeding the damage limit temperature) is applied in a short time, the hair styling effect is reduced due to hair damage.

  Therefore, it is necessary to give the hair H a predetermined amount of heat in a shorter period while suppressing damage to the hair H.

  Below, the control method of the alerting | reporting part 51 which can give predetermined | prescribed calorie | heat amount to the hair H in a shorter period, suppressing damaging the hair H is illustrated. In addition, the control method of the alerting | reporting part 51 is not restricted to the method demonstrated below, Control of the alerting | reporting part 51 can be performed by various methods.

  First, as shown in FIG. 6, the temperature close to 75 ° C., which is the upper limit of the temperature of the ideal region R, is set as the target temperature, and when the hair temperature becomes higher than the target temperature by heating, it is moved to another part. A method of drying the hair H little by little can be used. If the method shown in FIG. 6 is used, the hair H wet by shampooing or the like can reach the ideal region R relatively quickly, so that it is possible to improve the hair styling effect.

  However, the hair H is hard to be warmed and easily cooled under the influence of heat of vaporization when the amount of water is large. Therefore, in the early stage of drying of hair H, the amount of heat given to hair H when it is dried within the temperature range of ideal region R (the portion where the hair temperature is 55 ° C. or more and the horizontal line of 55 ° C. are enclosed. Area) is relatively small. Therefore, in the method shown in FIG. 6 (a method of setting the target temperature to a constant temperature), the time until the hair H falls within the ideal region R may be long. If it takes a long time for the hair H to fit in the ideal region R, the hair H may not be stretched and the hair H may not be gathered.

  Therefore, it is preferable to use a method capable of causing the hair H to reach the ideal region R more quickly than the method shown in FIG.

  For example, as shown in FIG. 7, the temperature to be raised by heating the hair H is set as the target temperature, and the target temperature is calculated by the calculation unit 53 based on the drying time from the start of drying of the hair H. Is preferred.

  Specifically, in FIG. 7, when the hair H is wet (when the amount of water is large), even if the hair H is heated, paying attention to the fact that the hair temperature immediately decreases upon heat dissipation, the initial stage of drying The target temperature is set to be higher than the upper limit (75 ° C.) of the temperature in the ideal region R. The target temperature at the end of drying after the elapse of time from the start of drying is set to be lower than the target temperature at the initial stage of drying.

  That is, the calculation unit 53 calculates the target temperature so that the temperature at the end of drying is lower than that at the start of drying.

  Further, FIG. 7 illustrates an example in which the target temperature is gradually lowered as time elapses from the start of drying.

  That is, FIG. 7 illustrates an example in which the target temperature at the start of drying is the highest temperature at which the temperature is highest and the target temperature at the end of drying is the lowest at the lowest. The target temperature gradually decreases as time elapses until the temperature reaches the minimum temperature from the maximum temperature at the start of drying, but after reaching the minimum temperature, the target temperature remains constant even if time elapses. (Minimum temperature).

  The target temperature only needs to be the minimum temperature at the end of drying (when the average time required for drying the hair H has passed since the start of drying), and the target temperature becomes the minimum temperature during the drying. It may be made to become.

  Here, the maximum temperature of the target temperature may be about 80 ° C., for example. Moreover, the minimum temperature of target temperature can be made into about 75 degreeC (value close | similar to 75 degreeC which is the upper limit of the temperature of the ideal area | region R), for example.

  Moreover, the time required from the start of drying to the minimum temperature can be set in the range of 150 to 300 seconds, for example.

  At this time, the time required from the start of drying to the minimum temperature may be set to a certain time such as 200 seconds, for example. Further, based on the result of having the user select the hair length, the time required from the start of drying to the minimum temperature may be changed. For example, if the length of the hair selected by the user is long, a relatively long time is set. If the length of the hair selected by the user is short, a relatively short time is set. You may make it do.

  In this way, if the hair H is heated until the target temperature calculated by the calculation unit 53 is reached, the hair H can be quickly moved within the range of the ideal region R without giving heat to the hair H exceeding the damage limit temperature. Will be able to fit in.

  Note that the method shown in FIG. 6 (a method in which the target temperature is set to a substantially constant value regardless of the passage of time) and the transition of the target temperature shown in FIG. 7 are merely examples of the control method of the notification unit 51. It is also possible to control the notification unit 51 by this method. For example, as shown in FIG. 9, the target temperature can be gradually decreased (reduced so as to wave) while vibrating up and down. At this time, the target temperature at the start of drying need not be the maximum temperature.

  It is also possible to change the target temperature in a stepwise manner so that the predetermined temperature is maintained at a constant temperature.

  Next, an example of the control method of the alerting | reporting part 51 by the calculating part 53 is demonstrated based on FIG.

  First, the power supply is turned on by operating the operator 33 of the hair dryer 10 and switching the open / closed state of the internal contact of the switch unit 32.

  Thereafter, drying of the hair H is started by applying warm air to the hair H at a predetermined site (S11 in FIG. 8).

  When the drying of the hair H is started, the timer 54 operates to count the drying time (S12 in FIG. 8). The timing for operating the timer 54 can be set as appropriate. For example, the counting may be started at the same time as the power is turned on, or when a predetermined time has elapsed since the power was turned on, it may be determined that the drying has started and the counting may be started.

  When the drying time is counted, the count value (time measurement value) counted by the timer 54 is input to the calculation unit 53, and the calculation unit 53 sets the drying time (input count value: time measurement value). Based on this, the target temperature is calculated (S13 in FIG. 8).

  On the other hand, the hair temperature measuring unit 52 measures the temperature of the hair H (S14 in FIG. 8). Then, an output result (measured value of hair temperature) measured by the hair temperature measurement unit 52 is input to the calculation unit 53.

  Then, the calculation unit 53 reaches the target temperature calculated by the temperature of the hair H measured by the hair temperature measurement unit 52 based on the output result (measured value of the temperature of the hair) output from the hair temperature measurement unit 52. It is determined whether or not (S15 in FIG. 8). That is, the temperature of the hair H measured by the hair temperature measuring unit 52 is compared with the calculated target temperature.

  And based on determination of S15, the calculating part 53 controls the alerting | reporting part 51 (S16 of FIG. 8). Specifically, if the temperature of the hair H <the target temperature, the calculation unit 53 causes the notification unit 51 to emit blue light. Thereafter, the operations of S13 to S15 are repeated until the temperature of the hair H becomes equal to or higher than the target temperature. When the temperature of the hair H is equal to or higher than the target temperature, the calculation unit 53 causes the notification unit 51 to emit red light. And the user U confirms that the alerting | reporting part 51 light-emitted red, applies hot air to the hair H of another place, and makes it dry. At this time, the operations of S13 to S16 are repeated.

  Then, by repeating this operation, the entire hair is dried.

  As described above, the hair dryer 10 according to the present embodiment includes the dryer main body 20 in which the air flow path 22 having the suction port 22a and the discharge port 22b is formed, and the air blowing unit 23 disposed in the air flow path 22. And a heating unit 24 disposed on the discharge port 22b side with respect to the blowing unit 23 in the blowing channel 22.

  Moreover, the hair dryer 10 is provided with the hair temperature measurement part 52 which measures the temperature of the hair H, and the hair temperature measurement part 52 is provided in the outer side of the discharge port 22b.

  And the hair temperature measurement part 52 is provided so that the direction of the detection axis A may become the direction along the ventilation direction W of the warm air discharged from the discharge port 22b.

  In this way, even when the hair H is dried using the center of the hot air area or when the hair H is dried using the end of the hot air area, the hair temperature measuring unit 52 is connected to the hair H. Therefore, it is possible to make the hair temperature detection sensitivity more uniform when the hair dryer 10 is used.

  Moreover, the hair dryer 10 is further provided with the holding part 30 connected with the dryer main body 20, and the hair temperature measurement part 52 is provided in the lower side (the holding part 30 side) in the outer side of the discharge port 22b.

  In this way, when the hair H is dried using the end of the hot air area, the hair temperature measurement unit 52 is provided on the grip 30 side, which is often located on the hair H side. The hair is positioned in the detectable range (field of view) of the part 52. As a result, the hair temperature can be more reliably detected by the hair temperature measuring unit.

(Embodiment 2)
A hair dryer 10A according to the present embodiment basically has the same configuration as that of the first embodiment. That is, as shown in FIG. 10, the hair dryer 10A includes a dryer body 20 in which an air flow path 22 having a suction port 22a and a discharge port 22b is formed.

  Further, the hair dryer 10 </ b> A includes a blower 23 that is disposed in the blower flow path 22 and a heating unit 24 that is disposed on the discharge port 22 b side of the blower 23 in the blower flow path 22.

  Further, the hair dryer 10A is based on the output result output from the hair temperature measurement unit 52 that measures the temperature of the hair H, the notification unit 51 that reports the state of the hair H (hair temperature), and the hair temperature measurement unit 52, And a calculation unit 53 that calculates an output to the notification unit 51.

  And the hair temperature measurement part 52 is provided in the outer side of the discharge port 22b, specifically, the lower side (grip part 30 side) in the outer side of the discharge port 22b.

  Furthermore, the hair temperature measurement part 52 is provided so that the direction of the detection axis A may be a direction along the blowing direction W of the warm air discharged from the discharge port 22b.

  By the way, when the hair temperature is measured using the hair temperature measuring unit 52 (having only one sensor) shown in the first embodiment, the average temperature of the objects existing in the detectable region (field of view) 52a. Is measuring.

  Therefore, for example, when the hair H flutters or when the hair is shaped with the fingers F of the hand, etc., if the temperature of air, fingers F, etc. other than the hair H is detected, the influence of the hair H The temperature measurement error will increase.

  Therefore, in the present embodiment, the hair temperature measurement unit 52 includes four (plural) sensors each having a different detectable region (field of view) 52a, 52b, 52c, 52d.

  The temperature measured by each sensor is input to the calculation unit 53. In the present embodiment, each sensor is provided such that the direction of each detection axis is in the direction along the blowing direction W of the hot air discharged from the discharge port 22b.

  Further, in the present embodiment, the calculation unit 53 selects the maximum temperature among the temperatures output from the four (plural) sensors.

  Specifically, as shown in FIG. 11, when the drying of the hair H is started (S21 in FIG. 11), the plurality of sensors of the hair temperature measuring unit 52 each measure the hair temperature (S22 in FIG. 11). . Then, output results (measured values of hair temperature) measured by each sensor are input to the calculation unit 53. And the calculating part 53 selects what has the maximum temperature from the output result (measured value of hair temperature: hair temperature data) of each input sensor (S23 in FIG. 11), and selects the selected temperature. The measured hair temperature. During the drying of the hair H, the operations of S22 and S23 are repeated.

  Further, other control methods (such as a target temperature calculation method) of the notification unit 51 are the same as the method described in the first embodiment.

  Also according to the above-described embodiment, the same operations and effects as the hair dryer 10 shown in Embodiment 1 can be obtained.

  In the present embodiment, the hair temperature measurement unit 52 includes four (plural) sensors having different detectable regions (fields of view) 52a, 52b, 52c, and 52d, and the calculation unit 53 includes The maximum temperature is selected from the temperatures output from the four (plural) sensors.

  In this way, even if an object other than the hair H (finger F or the like) exists in the detectable region of the hair temperature measurement unit 52 as shown in FIG. Only the temperature measured by the sensor having the detection region (the detection region 52a in FIG. 12) can be selected as the hair temperature. As described above, according to the present embodiment, even when the hair H flutters or the hair is shaped by the finger F of the hand, the hair temperature can be measured with a substantially constant sensitivity.

  The preferred embodiments of the present invention have been described above, but the present invention is not limited to the above embodiments, and various modifications can be made.

  For example, the features described in the first and second embodiments can be combined as appropriate.

  Moreover, the control direction of the alerting | reporting part shown in the said Embodiment 1 is an example, and it is also possible to control an alerting | reporting part by another method.

  Also, the dryer main body, the gripper, and other detailed specifications (shape, size, layout, etc.) can be changed as appropriate.

  ADVANTAGE OF THE INVENTION According to this invention, the hair dryer which can make the detection sensitivity of the hair temperature at the time of use more uniform can be obtained.

DESCRIPTION OF SYMBOLS 10,10A Hair dryer 20 Dryer main body 22 Air flow path 22a Intake port 22b Discharge port 23 Air blower 24 Heating part 30 Gripping part 51 Notification part 52 Hair temperature measurement part 52a-52d Detectable area | region (view)
53 Calculation unit

Claims (3)

A dryer body in which a ventilation passage having an inlet and an outlet is formed;
An air blower disposed in the air flow path;
A heating unit disposed closer to the discharge port than the blowing unit in the blowing channel;
A hair temperature measurement unit for measuring the temperature of the hair;
With
The hair temperature measuring part is provided outside the discharge port;
The hair dryer, wherein the hair temperature measuring unit is provided such that the direction of the detection axis is in a direction along a blowing direction of warm air discharged from the discharge port. It further comprises a gripping part provided continuously to the dryer body,
The hair dryer according to claim 1, wherein the hair temperature measuring unit is provided on the gripping portion side outside the discharge port. A calculation unit for inputting an output result output from the hair temperature measurement unit;
The hair temperature measurement unit includes a plurality of sensors each having a different field of view,
The hair dryer according to claim 1, wherein the calculation unit selects a temperature that is maximum among temperatures output from a plurality of sensors.

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