JP2012239535A - Hair dryer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hair dryer which can prevent hair from being damaged by an excessive heating, and in addition, can improve safety.SOLUTION: The hair dryer includes: a body 1 having a blow-out port for blowing out hot air, and at the same time, having a heater 4 for forming the hot air and an air blowing unit 3; and an infrared temperature sensor 9 provided on the body 1, and measuring the temperature of hair; and an infrared proximity sensor 10 provided on the body 1, and measuring a distance to hair. At least one of the air blowing unit 3 and the heater 4 is controlled by a control device 5 conforming to the temperature of hair which has been measured by the infrared temperature sensor 9 and the distance which has been measured by the infrared proximity sensor 10. Thus, the possibility that the temperature of the hot air applied to hair reaches a thermal damage temperature is extremely reduced.

Description

  The present invention relates to a hair dryer.

  Conventionally, as a hair dryer, there exists a hair dryer 100 as shown in FIG. 6 (for example, refer to Unexamined-Japanese-Patent No. 6-38827 (patent document 1)). This hair dryer 100 includes a blower outlet 101 that blows out hot air HW and a temperature sensor 102 that measures the temperature of the hair in a non-contact manner, and the temperature / air volume of the hot air HW is determined based on the temperature of the hair measured by the temperature sensor 102. To adjust.

  The temperature sensor 102 is installed below the outlet 101. Therefore, radiant energy radiated obliquely downward from the hair at the temperature measurement point P enters the temperature sensor 102 through the lens 103. As a result, the direction in which the radiant energy is directed toward the lens 103 does not coincide with the direction in which the air outlet 101 blows out the hot air HW.

  According to the conventional hair dryer, if the distance from the outlet 101 to the user 104 is the predetermined distance in FIG. 6, the temperature measurement point P is located in the flow path of the hot air HW. Thereby, the temperature and the air volume of the hot air HW are adjusted based on the temperature of the temperature measurement point P, and the hair can be prevented from being excessively heated by the hot air HW.

JP-A-6-38827

  However, as shown in FIG. 7, when the distance from the outlet 101 to the user 104 is closer than the predetermined distance, the temperature measurement point P comes out of the flow path of the hot air HW. As a result, since the temperature of the hair hit by the hot air HW cannot be measured, even if the hair is heated excessively by the hot air HW, the temperature / air volume of the hot air HW does not decrease.

  Therefore, the conventional dryer 100 has a problem that hair may be excessively heated and damaged.

  Further, in the state of FIG. 7, if the hot air HW hits the skin, the user 104 may be burned. Therefore, the conventional hair dryer has room for improvement in terms of safety.

  Accordingly, an object of the present invention is to provide a hair dryer that can prevent hair from being excessively heated and damaged, and that can improve safety.

  7 and 8 are schematic diagrams created based on the drawings of Patent Document 1 in order to facilitate understanding of the problem of Patent Document 1.

In order to solve the above problems, the hair dryer of the present invention is
A main body having a blower outlet for blowing hot air and a heater and a blower for generating the hot air;
A temperature sensor that is provided in the main body and measures the temperature of the hair;
In a hair dryer that controls at least one of the blower and the heater according to the hair temperature measured by the temperature sensor,
A distance sensor provided on the main body for measuring the distance to the hair;
And a controller that controls at least one of the blower and the heater based on the temperature of the hair measured by the temperature sensor and the distance measured by the distance sensor.

  According to the said structure, a hot air is produced | generated with the heater and air blower of the said main body, and this hot air blows off toward the hair from the blower outlet of a main body. At this time, the distance sensor provided in the main body measures the distance to the hair. And since the said control apparatus controls at least one of an air blower and a heater based on the said temperature and the said distance, the temperature (henceforth "thermal damage temperature") where the temperature of the hot air which hits hair damages hair .) Can be significantly reduced. Therefore, the effect of preventing the hair from being excessively heated and damaged can be remarkably enhanced.

  Moreover, it can prevent that a user is burned with a hot air by making the temperature of the hot air which hits the said hair not become a heat damage temperature. Therefore, the safety of the hair dryer can be improved.

In one embodiment of the hair dryer,
The control device
First distance determination means for determining whether the distance measured by the distance sensor is less than a preset first distance threshold;
When the first distance determining means determines that the distance is less than the first distance threshold, at least one of the blower and the heater is set so that the temperature of the hot air blown out from the outlet is lowered. First hot air control means for controlling.

  According to the embodiment, the first distance determining means determines whether or not the distance measured by the distance sensor is less than a preset first distance threshold. Here, when it is determined that the distance measured by the distance sensor is less than a preset first distance threshold, the first hot air control means causes the temperature of the hot air blown out from the outlet to decrease. Since at least one of the heater and the heater is controlled, the possibility of hair damage and user burns can be reliably reduced.

In one embodiment of the hair dryer,
The first hot air control means fixes the temperature of the hot air blown out from the outlet when the first distance determination means determines that the distance is less than the first distance threshold. .

  According to the above embodiment, when the first distance determining means determines that the distance is less than the first distance threshold, the first hot air control means sets the temperature of the hot air blown out from the outlet in a preset low temperature. Therefore, it is possible to maintain a state in which the hair is prevented from being damaged by overheating or being burned by the user.

In one embodiment of the hair dryer,
The control device
Temperature determining means for determining whether the temperature measured by the temperature sensor is equal to or higher than a preset temperature threshold;
A second control unit that controls at least one of the blower and the heater so that the temperature of the hot air blown out from the outlet is lowered when the temperature determining unit determines that the temperature is equal to or higher than the temperature threshold. And hot air control means.

  According to the embodiment, the temperature determination unit determines whether or not the temperature measured by the temperature sensor is equal to or higher than a preset temperature threshold value. Here, when it is determined that the temperature measured by the temperature sensor is equal to or higher than a preset temperature threshold, the second hot air control means causes the temperature of the hot air blown out from the air outlet to be lowered. Since at least one of these is controlled, the possibility of hair damage and user burns can be further reduced.

In one embodiment of the hair dryer,
The control device
When the first distance determining means determines that the distance is less than the first distance threshold, the first distance determining means changes the temperature threshold to a value lower than the temperature threshold.

  According to the embodiment, when the first distance determination unit determines that the distance measured by the distance sensor is less than the preset first distance threshold, the first temperature threshold change unit changes the temperature. By changing the threshold value to a value lower than the temperature threshold value, the temperature of the hot air blown out from the outlet becomes easy to decrease. Therefore, the possibility of hair damage and user burns is very low.

In one embodiment of the hair dryer,
The second hot air control means fixes the temperature of the hot air blown out from the outlet when the temperature determination means determines that the temperature is equal to or higher than the temperature threshold.

  According to the above embodiment, when the temperature determination means determines that the temperature is equal to or higher than the temperature threshold, the second hot air control means fixes the temperature of the hot air blown out from the outlet at a preset low temperature. The hair can be kept from being damaged by overheating and the user can be burned.

In one embodiment of the hair dryer,
The control device
Second distance determination means for determining whether the distance measured by the distance sensor is equal to or greater than a preset second distance threshold;
When the second distance determination means determines that the distance is equal to or greater than the second distance threshold, at least one of the blower and the heater is set so that the temperature of the hot air blown out from the air outlet increases. And third hot air control means for controlling.

  According to the embodiment, the second distance determination unit determines whether or not the distance measured by the distance sensor is equal to or greater than a preset second distance threshold. Here, when it is determined that the distance measured by the distance sensor is equal to or greater than a preset second distance threshold, the third hot air control means causes the temperature of the hot air blown out from the outlet to increase. Since at least one of the heater and the heater is controlled, it is possible to shorten the time during which the hair dries while ensuring the safety of the user.

In one embodiment of the hair dryer,
The control device
When the second distance determination means determines that the distance is equal to or greater than the second distance threshold, the second distance threshold change means changes the temperature threshold to a value higher than the temperature threshold.

  According to the embodiment, when the second distance determining unit determines that the distance is equal to or greater than the second distance threshold, the second temperature threshold changing unit changes the temperature threshold to a value higher than the temperature threshold. As a result, the temperature of the hot air blown out by the air outlet becomes difficult to rise. Therefore, the possibility of hair damage and user burns is very low.

In one embodiment of the hair dryer,
The third hot air control means fixes the temperature of the hot air blown out from the air outlet to a preset high temperature when the second distance determination means determines that the distance is equal to or greater than the second distance threshold. .

  According to the embodiment, when the second distance determining unit determines that the distance is equal to or greater than the second distance threshold, the third hot air control unit sets the temperature of the hot air blown out from the air outlet at a preset high temperature. Therefore, it is possible to maintain a state in which the time for the hair to dry can be shortened while ensuring the safety of the user.

In one embodiment of the hair dryer,
The distance sensor is a proximity sensor.

  According to the embodiment, since the distance sensor is a proximity sensor, control is not complicated, and an increase in manufacturing cost can be suppressed.

The hair dryer of one embodiment is
The temperature sensor is an infrared temperature sensor that detects infrared rays emitted from hair,
The proximity sensor is an infrared proximity sensor that emits infrared rays toward the hair and detects infrared rays reflected by the hair,
A transmission member that transmits only infrared rays having an infrared wavelength to be detected by the infrared temperature sensor is provided.

  According to the embodiment, since the transmission member that transmits only the infrared ray having the infrared wavelength to be detected by the infrared temperature sensor is provided, erroneous measurement of the infrared temperature sensor can be reduced.

  According to the hair dryer of the present invention, the temperature sensor provided in the main body and measuring the temperature of the hair, the distance sensor provided in the main body and measuring the distance to the hair, and the temperature and distance sensor of the hair measured by the temperature sensor Is provided with a control device that controls at least one of the blower and the heater based on the measured distance, so that the distance from the temperature sensor to the hair is relatively reliable in the temperature of the hair measured by the temperature sensor. Even when the distance is low, the possibility that the temperature of hot air hitting the hair becomes the heat damage temperature is very low, and the effect of preventing the hair from being excessively heated and damaged can be remarkably enhanced.

  Moreover, it can prevent that a user is burned with a hot air by making the temperature of the hot air which hits the said hair not become a heat damage temperature. Therefore, the safety of the hair dryer can be improved.

FIG. 1 is a configuration diagram of a hair dryer according to a first embodiment of the present invention. FIG. 2 is a control block diagram of the hair dryer according to the first embodiment. FIG. 3 is a flowchart of the hot air control method for the hair dryer according to the first embodiment. FIG. 4A is a flowchart of a hot air control method for a hair dryer according to a second embodiment of the present invention. FIG. 4B is a flowchart of the hot air control method for the hair dryer according to the second embodiment of the present invention. FIG. 5 is a configuration diagram of a hair dryer according to a third embodiment of the present invention. FIG. 6 is a schematic diagram for explaining a problem of a conventional hair dryer. FIG. 7 is a schematic diagram for explaining a problem of a conventional hair dryer.

  Hereinafter, the hair dryer of the present invention will be described in detail with reference to the illustrated embodiments.

[First Embodiment]
In FIG. 1, the block diagram of the hair dryer of 1st Embodiment of this invention is shown typically.

  The hair dryer includes a main body 1 and a grip 2 having one end rotatably attached to the main body 1.

  The main body 1 includes a blower unit 3 as an example of a blower device, a heater 4 that heats the wind generated by the blower unit 3 to generate hot air, a microcomputer 6, and an SSR (solid state relay) 7. A device 5 is installed. Further, a tapered outlet 8 is provided at the front end of the main body 1 toward the front side. The air outlet 8 has an outer surface that is inclined with respect to the hot air blowing direction, and an infrared temperature sensor 9 as an example of a temperature sensor is attached to the outer surface. An infrared proximity sensor 10 as an example of a distance sensor is installed in the air outlet 8.

  Although not shown, the blower unit 3 includes a fan and a motor that rotationally drives the fan. By the rotational drive of the fan, the air outside the main body 1 is sucked into the main body 1 and sent to the heater 4.

  In the infrared temperature sensor 9, for example, infrared rays having a wavelength of 8 to 14 μm radiated from the user's hair or skin pass through the lens 11, thereby focusing on the thermopile 12. Based on the voltage generated in the thermopile 12, the temperature of the user's hair and skin is detected. A signal indicating this temperature is input to the microcomputer 6.

The infrared proximity sensor 10 is a heat-resistant type that can be used even in an environment of 100 ° C. or higher. More specifically, the infrared proximity sensor 10 receives the infrared light having a wavelength of about 0.8 μm toward the user's hair and skin, and receives the infrared light reflected by the user's hair and skin and converts it into electric power. And a light receiving element 14. Information on the distance between the infrared proximity sensor 10 and the user's hair and skin is detected based on the power converted by the light receiving element 14. At this time, if the distance between the infrared proximity sensor 10 and the user's hair and skin is less than a preset distance threshold D _TL (for example, 10 cm), a signal indicating 1 is sent from the infrared proximity sensor 10 to the microcomputer 6. Is output. On the other hand, if the distance between the infrared proximity sensor 10 and the user's hair and skin is equal to or greater than the distance threshold _DTL , a signal indicating 1 is not output from the infrared proximity sensor 10 to the microcomputer 6. The distance threshold D _TL is a preset value and is an example of a first distance threshold and a second distance threshold.

  FIG. 2 shows a control block diagram of the hair dryer.

  The control device 5 includes a blower fan drive circuit (not shown) in addition to the microcomputer 6 and the SSR 7. Connected to the control device 5 are a blower unit 3, a heater 4, an infrared temperature sensor 9, an operation unit 15, a display unit 16, an infrared proximity sensor 10, and the like. The microcomputer 6 controls the heater 4 via the SSR 7 based on the operation signal from the operation unit 15 and the signals from the infrared temperature sensor 9 and the infrared proximity sensor 10, or via the blower fan drive circuit. The blower unit 3 is controlled. The operation unit 15 includes a knob or button provided on the grip 2. The display unit 16 includes one or more LEDs (light emitting diodes) provided on the grip 2.

  Hereinafter, a hot air control method using the infrared temperature sensor 9 will be described with reference to the flowchart of FIG.

  First, when the user performs a driving operation on the operation unit 15, as shown in FIG. 3, processing by the control device 5 starts, and the heater 4 and the air blowing unit 3 are turned on in step S <b> 101. At this time, the output of the heater 4 is set to 1200 W, for example.

Next, in step S102, it is determined whether or not the hair temperature T measured by the infrared temperature sensor 9 is equal to or higher than a preset temperature threshold T _TL (for example, 60 ° C.). In this step S102, if the temperature T is determined to be a preset temperature threshold value _{T TL} or more, the process proceeds to step S102. On the other hand, in step S102, if the temperature T is determined to be not a preset temperature threshold value _{T TL} or more, the process proceeds to step S111.

In step S111, it is determined whether or not the distance D between the infrared proximity sensor 10 and the hair measured by the infrared proximity sensor 10 is less than a preset distance threshold D _TL (for example, 10 cm). In this step S111, if the distance D is determined to be less than the distance threshold _{D TL} that is set in advance, the process proceeds to step S103. On the other hand, in step S111, if the distance D is determined not to be less than the distance threshold _{D TL,} the flow returns to step S102.

  Next, in step S103, the temperature of the heater 4 is lowered. Specifically, the connection of the SSR 7 is switched so that the output of the heater 4 becomes 800 W, for example, and the temperature of the hot air blown out from the outlet 8 is fixed to a preset low temperature.

Next, in step S104, it is determined whether the distance D between the infrared proximity sensor 10 and the hair measured by the infrared proximity sensor 10 is _{equal to} or greater than the distance threshold value DTL. In this step S104, if the distance D is determined to be the distance threshold _{D TL} or more, the process proceeds to step S105, if the distance D is determined not to be the distance threshold _{D TL} or more, again, the steps S104 row Is called. That is, step S104 is repeated until it is determined that the distance D is greater than or _equal to the distance threshold value _DTL .

  Next, in step S105, the temperature of the heater 4 is raised. Specifically, the connection of the SSR 7 is switched so that the output of the heater 4 becomes 1200 W, for example, and the temperature of the hot air blown out from the air outlet 8 is fixed at a preset high temperature.

  Next, in step S <b> 106, it is determined whether or not the user has performed a stop operation on the operation unit 15. If it is determined in step S106 that the user has performed a stop operation on the operation unit 15, the process proceeds to step S107. On the other hand, if it is determined in step S106 that the user has not performed a stop operation on the operation unit 15, the process returns to step S102.

  Finally, in step S107, the heater 4 and the air blowing unit 3 are turned off, and the processing by the control device 5 is completed.

  That is, in the first embodiment, step S102 is an example of a temperature determination unit, step S103 is an example of a first hot air control unit and a second hot air control unit, and step S104 is an example of a second distance determination unit. Step S105 is an example of third hot air control means, and step S111 is an example of first distance control means.

Thus, in step S111, if the distance D between the infrared proximity sensor 10 and the hair is determined to be less than the distance threshold D _TL which is set in advance, at step S103, the temperature of the hot air outlet 8 is blown Is fixed at a preset low temperature, so that the hair can be prevented from being excessively heated and damaged.

  Moreover, since the temperature of the hot air blown out by the blowout port 8 is fixed at a preset low temperature, it is possible to maintain a state in which the hair can be prevented from being damaged by overheating or being burned by the user.

Further, regardless of whether or not the distance D between the infrared proximity sensor 10 and the hair is less than a preset distance threshold value _DTL , in step S102, the hair temperature T is set to a preset temperature threshold value T. If it determines with it being more than _TL , since the temperature of the hot air which the blower outlet 8 blows off is fixed to the preset low temperature by step S103, possibility of the damage of a hair and a user's burn can be reduced.

Further, even if the temperature of the hot air blown out from the air outlet 8 is fixed at a preset low temperature in step S103, the distance threshold between the infrared proximity sensor 10 and the hair is preset in step S104. if determined to be D _TL above, at step S105, since fixed to the high temperatures a preset temperature of the hot air outlet 8 is blown, while ensuring the safety of the user, by shortening the hair is dry time Can do.

  Moreover, since the infrared proximity sensor 10 is used for the measurement of the distance D between the infrared proximity sensor 10 and the hair, the control is not complicated and an increase in manufacturing cost can be suppressed.

  In the first embodiment, only the heater 4 is controlled in step S103 so that the temperature of the hot air blown out from the air outlet 8 is lowered. However, the heater 4 and the heater 4 are controlled so that the temperature of the hot air blown out from the air outlet 8 is lowered. You may control the ventilation unit 3, or you may control only the ventilation unit 3 so that the temperature of the hot air which the blower outlet 8 blows off may fall.

  In the first embodiment, only the heater 4 is controlled so that the temperature of the hot air blown out from the outlet 8 is increased in step S105. However, the heater 4 and the You may control the ventilation unit 3, or you may control only the ventilation unit 3 so that the temperature of the hot air which the blower outlet 8 blows out rises.

In the first embodiment, in step S104, it has been used the same distance threshold _{D TL} the distance threshold _{D TL} in step S111, may use different distance threshold and distance threshold _{D TL} in step S111.

[Second Embodiment]
The hair dryer according to the second embodiment of the present invention includes the blower unit 3, the heater 4, the control device 5, the infrared temperature sensor 9, the infrared proximity sensor 10, and the operation unit 15 as in the first embodiment. A hot air control method different from that of the first embodiment is performed.

  Hereinafter, the hot air control method performed by the hair dryer will be described with reference to the flowcharts of FIGS. 4A and 4B.

  First, when the user performs a driving operation on the operation unit 15, as shown in FIG. 4A, processing by the control device 5 starts, and the heater 4 and the air blowing unit 3 are turned on in step S <b> 201. At this time, the output of the heater 4 is set to 1200 W, for example.

Next, in step S202, it is determined whether or not the distance D between the infrared proximity sensor 10 and the hair measured by the infrared proximity sensor 10 is less than a preset distance threshold _DTL (for example, 10 cm). In this step S202, if the distance D is determined to be less than the distance threshold _{D TL,} the process proceeds to step S211 in FIG. 4B. On the other hand, in step S202, if the distance D is determined not to be less than the distance threshold _{D TL,} the process proceeds to step S203 of FIG. 4A.

  Hereinafter, a case where the process proceeds from step S202 to step S203 in FIG. 4A will be described.

In step S203, it is determined whether or not the hair temperature T measured by the infrared temperature sensor 9 is equal to or higher than a preset temperature threshold T _TL (eg, 60 ° C.). In this step S203, if the temperature T is determined to be above the temperature threshold value _{T TL,} the process proceeds to step S204. On the other hand, in step S203, if the temperature T is determined to be not the temperature threshold value _{T TL,} and the flow returns to step S202.

  Next, in step S204, the temperature of the heater 4 is lowered. Specifically, the connection of the SSR 7 is switched so that the output of the heater 4 becomes 800 W, for example, and the temperature of the hot air blown out from the outlet 8 is fixed to a preset low temperature.

Next, in step S205, the temperature T of hair infrared temperature sensor 9 to measure is equal to or less than the above temperature threshold value T _TL. If it is determined in step S205 that the temperature T is _lower than the temperature threshold TTL, the process proceeds to step S206. If it is determined that the temperature T is not _lower than the temperature threshold _TTL , step S205 is performed again. Is called. That is, step S205 is repeated until it is determined that the temperature T is _lower than the temperature threshold value _TTL .

  Next, in step S206, the temperature of the heater 4 is raised. Specifically, the connection of the SSR 7 is switched so that the output of the heater 4 becomes 1200 W, for example, and the temperature of the hot air blown out from the air outlet 8 is fixed at a preset high temperature.

  Next, in step S207, it is determined whether or not the user has performed a stop operation on the operation unit 15. If it is determined in step S207 that the user has performed a stop operation on the operation unit 15, the process proceeds to step S208. On the other hand, if it is determined in step S207 that the user has not performed a stop operation on the operation unit 15, the process returns to step S202.

  Finally, in step S208, the heater 4 and the air blowing unit 3 are turned off, and the processing by the control device 5 is completed.

  Hereinafter, a case where the process proceeds from step S202 to step S211 in FIG. 4B will be described.

In step S211, the temperature threshold value T _{TL is changed} to a low temperature threshold value T ′ _TL (for example, 50 ° C.).

Next, in step S212, it is determined whether or not the hair temperature T measured by the infrared temperature sensor 9 is _{equal to} or higher than the changed temperature threshold value T′TL. If it is determined in step S212 that the temperature T is equal to or higher than the changed temperature threshold T ′ _TL , the process proceeds to step S213. On the other hand, if it is determined in step S212 that the temperature T is not equal to or higher than the temperature threshold T ′ _TL after the change, step S213 is skipped and the process proceeds to step S214.

  Next, in step S213, the temperature of the heater 4 is lowered. Specifically, the connection of the SSR 7 is switched so that the output of the heater 4 becomes 800 W, for example, and the temperature of the hot air blown out from the outlet 8 is fixed to a preset low temperature.

Next, in step S214, it is determined whether or not the distance D between the infrared proximity sensor 10 and the hair measured by the infrared proximity sensor 10 is _{equal to} or greater than the distance threshold value DTL. In this step S214, the if the distance D is determined to be the distance threshold _{D TL} or more, the process proceeds to step S215. On the other hand, in the step S214, the if the distance D is determined not to be the distance threshold _{D TL,} and the flow returns to step S212.

Next, after the temperature threshold value T ′ _TL is changed to the original temperature threshold value T _TL in step S215, the process proceeds to step S205 in FIG. 4A.

  That is, in the second embodiment, step S202 is an example of the first distance determination unit, step S203 is an example of the temperature determination unit, step S204 is an example of the second hot air control unit, and step S206 is the third hot air control. Step S211 is an example of a first temperature threshold change unit, Step S213 is an example of a first hot air control unit and a second hot air control unit, Step S214 is an example of a second distance determination unit, and Step S215 Is an example of second temperature threshold value changing means.

Thus, in step S202, if the distance D between the infrared proximity sensor 10 and the hair is determined to be less than the distance threshold D _TL which is set in advance, at step S212, the temperature T of the hair temperature threshold value T If it is determined that it is _{equal to} or higher than _TL , in step S213, the temperature of the hot air blown from the air outlet 8 is fixed at a preset low temperature, so that the hair can be prevented from being excessively heated and damaged.

  Moreover, since the temperature of the hot air blown out by the blowout port 8 is fixed at a preset low temperature, it is possible to maintain a state in which the hair can be prevented from being damaged by overheating or being burned by the user.

Further, in step S211 between step S201 and step S212, the temperature threshold value T _TL is changed to the temperature threshold value T ′ _TL (<T _TL ), so that the temperature of the hot air blown out from the outlet 8 is likely to decrease. Therefore, it is possible to reduce the risk of the user being burned with hot air.

Further, even if the temperature of the hot air blown out from the air outlet 8 is fixed at a preset low temperature in step S213, the distance D between the infrared proximity sensor 10 and the hair is _{equal to} or greater than the distance threshold value DTL in step S214. If it is determined that the hair temperature T is less than the temperature threshold value T _TL in step S205, the temperature of the hot air blown out from the air outlet 8 is fixed at a preset high temperature in step S206. . Therefore, it is possible to shorten the time for the hair to dry while ensuring the safety of the user.

In step S215 between step S214 and step S205, the temperature threshold value T ′ _TL is changed to the original temperature threshold value T _TL (> T ′ _TL ), so that the temperature of the hot air blown out from the outlet 8 is difficult to increase. Become. Therefore, it is possible to reduce the risk of the user being burned with hot air.

Further, even if the distance D between the infrared proximity sensor 10 and the hair is not less than the preset distance threshold value _DTL , in step S203, the hair temperature is not less than the preset temperature threshold value _TTL. If it determines, since the temperature of the hot air which the blower outlet 8 blows off is fixed to the preset low temperature by step S204, possibility of the damage of a hair and a user's burn can be reduced.

Further, even if the temperature of the hot air blown out from the outlet 8 is fixed at a preset low temperature in step S204, if it is determined in step S205 that the hair temperature T is less than the temperature threshold value _TTL , step S206 is performed. Thus, the temperature of the hot air blown out from the air outlet 8 is fixed at a preset high temperature, so that the time for the hair to dry can be shortened while ensuring the safety of the user.

  In addition, since the infrared proximity sensor 10 is used to measure the distance from the front end of the main body 1 to the user's hair and skin, the control is not complicated and an increase in manufacturing cost can be suppressed.

  In the second embodiment, in steps S204 and S213, only the heater 4 is controlled so that the temperature of the hot air blown out from the blowout port 8 is lowered. However, the heater is used so that the temperature of the hot air blown out from the blowout port 8 is lowered. 4 and the blower unit 3 may be controlled, or only the blower unit 3 may be controlled so that the temperature of the hot air blown from the blowout port 8 is lowered.

  In the second embodiment, only the heater 4 is controlled so that the temperature of the hot air blown out from the air outlet 8 is increased in step S206. However, the heater 4 and the You may control the ventilation unit 3, or you may control only the ventilation unit 3 so that the temperature of the hot air which the blower outlet 8 blows out rises.

In the second embodiment, at step S214, the had with the same distance threshold _{D TL} and step S202, it may use different distance threshold from the step S202.

[Third Embodiment]
In FIG. 5, the block diagram of the hair dryer of 3rd Embodiment of this invention is shown typically.

  The hair dryer differs from the hair dryer of the first embodiment only in that it includes an optical filter 17 that is an example of a transmissive member. Therefore, in FIG. 5, the same components as the components of the hair dryer shown in FIG. 1 are denoted by the same reference numerals as those of the components in FIG.

  The optical filter 17 is disposed in front of the infrared temperature sensor 9. The optical filter 17 transmits only infrared rays having an infrared wavelength to be detected by the infrared temperature sensor 9 (for example, infrared rays having a wavelength of 8 to 14 μm).

  According to the above configuration, since only the infrared ray having the wavelength of the infrared ray to be detected by the infrared temperature sensor 9 passes through the optical filter 17 and enters the infrared temperature sensor 9, the erroneous measurement of the infrared temperature sensor 9 can be reduced. it can.

  In the said 1st-3rd embodiment, when the distance D between the infrared proximity sensor 10 and the hair which the infrared proximity sensor 10 measured becomes 30 cm or more, for example, the temperature of the hot air which the blower outlet 8 blows out is lowered. Control may not be performed.

  In place of the infrared proximity sensor 10 of the first to third embodiments, a proximity sensor other than the infrared proximity sensor 10 (for example, a proximity sensor using visible light) may be used. Further, even if it is not a proximity sensor, any distance sensor that can measure the distance to hair may be used instead of the infrared proximity sensor 10.

  Instead of the infrared temperature sensor 9 of the first to third embodiments, a non-contact type temperature sensor other than the infrared temperature sensor 9 may be used.

  Although specific embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Main body 2 ... Grip 3 ... Blower unit 4 ... Heater 5 ... Control apparatus 6 ... Microcomputer 7 ... SSR
DESCRIPTION OF SYMBOLS 8 ... Air outlet 9 ... Infrared temperature sensor 10 ... Infrared proximity sensor 11 ... Lens 12 ... Thermopile 13 ... Light emitting element 14 ... Light receiving element 15 ... Operation part 16 ... Display part 17 ... Optical filter

Claims (11)

A main body having a blower outlet for blowing hot air and a heater and a blower for generating the hot air;
A temperature sensor that is provided in the main body and measures the temperature of the hair;
In a hair dryer that controls at least one of the blower and the heater according to the hair temperature measured by the temperature sensor,
A distance sensor provided on the main body for measuring the distance to the hair;
A hair dryer comprising: a control device that controls at least one of the blower and the heater based on the temperature of the hair measured by the temperature sensor and the distance measured by the distance sensor. The hair dryer according to claim 1,
The control device
First distance determination means for determining whether the distance measured by the distance sensor is less than a preset first distance threshold;
When the first distance determining means determines that the distance is less than the first distance threshold, at least one of the blower and the heater is set so that the temperature of the hot air blown out from the outlet is lowered. The hair dryer characterized by having the 1st hot air control means to control. The hair dryer according to claim 2,
The first hot air control means fixes the temperature of the hot air blown out from the outlet when the first distance determination means determines that the distance is less than the first distance threshold. A hair dryer characterized by that. The hair dryer according to claim 2 or 3,
The control device
Temperature determining means for determining whether the temperature measured by the temperature sensor is equal to or higher than a preset temperature threshold;
A second control unit that controls at least one of the blower and the heater so that the temperature of the hot air blown out from the outlet is lowered when the temperature determining unit determines that the temperature is equal to or higher than the temperature threshold. A hair dryer comprising hot air control means. The hair dryer according to claim 4,
The control device
When the first distance determining means determines that the distance is less than the first distance threshold, the first distance threshold changing means changes the temperature threshold to a value lower than the temperature threshold. Hair dryer. The hair dryer according to claim 4 or 5,
The second hot air control means fixes the temperature of the hot air blown out from the outlet to a preset low temperature when the temperature determination means determines that the temperature is equal to or higher than the temperature threshold. Hair dryer to do. In the hair dryer as described in any one of Claim 4-6,
The control device
Second distance determination means for determining whether the distance measured by the distance sensor is equal to or greater than a preset second distance threshold;
When the second distance determination means determines that the distance is equal to or greater than the second distance threshold, at least one of the blower and the heater is set so that the temperature of the hot air blown out from the air outlet increases. A hair dryer comprising: third hot air control means for controlling. The hair dryer according to claim 7,
The control device
When the second distance determining means determines that the distance is equal to or greater than the second distance threshold, the temperature detecting means includes second temperature threshold changing means for changing the temperature threshold to a value higher than the temperature threshold. Hair dryer. The hair dryer according to claim 7 or 8,
The third hot air control means fixes the temperature of the hot air blown out from the air outlet to a preset high temperature when the second distance determination means determines that the distance is equal to or greater than the second distance threshold. A hair dryer characterized by that. In the hair dryer according to any one of claims 1 to 9,
A hair dryer, wherein the distance sensor is a proximity sensor. The hair dryer according to claim 10,
The temperature sensor is an infrared temperature sensor that detects infrared rays emitted from hair,
The proximity sensor is an infrared proximity sensor that emits infrared rays toward the hair and detects infrared rays reflected by the hair,
A hair dryer comprising a transmitting member that transmits only infrared rays having an infrared wavelength to be detected by the infrared temperature sensor.

Images