JP2786883B2 - Hair dryer - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a hair dryer that optically and linearly displays the amount of cold air or the amount of hot air to be changed according to the purpose of hair treatment and the adjustment level of the temperature. It is about.

2. Description of the Related Art A hair dryer described in Japanese Utility Model Publication No. Sho 58-20163 is known as a hair dryer that optically and linearly displays the amount of cooling air or the amount of warm air and the temperature adjustment level. As shown in FIGS. 16 and 17, the heater 51 and the fan motor 52 are mounted in the dryer main body 50, and the power control phase control for continuously controlling the amount of current supplied to the heater 51 and the motor 52 is performed. A circuit 53 is provided.
The variable resistor VR ₁ of the power adjustment phase control circuit 53,
Variable resistor VR ₂ is provided in conjunction for level signal output, also cool air amount and Yutakakazeryou a plurality of light emitting device for displaying an adjustment level of the temperature 54 (54 ₁ to 54 ₅₎ are dryer body 50 It is arranged side by side outside of. Also,
Variable resistor VR drive control circuit 55 to be turned in response to operation by the respective light emitting elements 54 ₁ ... the signal level by the level signal extracted from the ₂ is provided.

[Problems to be Solved by the Invention] However, in the above hair dryer,
It has the following problems. When an abnormality such as the suction port or the outlet of the dryer is blocked, the display does not change even though the actual wind temperature is rising. This is because it is displayed by the signal level from the variable resistor VR _2, due to the fact that not detected actual wind temperature.

Second, the variable resistor VR ₁ for power adjustment of the heater 51 and the motor 52, the variable resistor VR ₂ for display without the duplicate structure,
Further, since the sliders S ₁ and S ₂ are operated in the same phase by the common shaft 56, the space occupied by the entire variable resistor is increased, the precision is required structurally, and the cost is high. Problem.

Third, since there are a large number of light-emitting elements 54 ₁ for display, the space occupied by the light-emitting elements 54 ₁ increases, and the cost also increases. Further, since the large number of light emitting elements 54 ₁ are connected in parallel to the power supply, each of the light emitting elements 54 ₁ .
Brightness tends to vary, and the resistance on the power supply side
There is a problem that a large allowable loss is required for R ₃ and the Zener diode ZD.

The present invention has been provided in view of the above points,
A hair dryer that can display the actual wind temperature even when an abnormality such as the suction port or discharge port is blocked, so that the power adjustment of the heater etc. and the wind temperature display can be performed with one variable resistor. The purpose is to provide.

Means for Solving the Problems According to the present invention, a variable resistor is composed of three terminals, a fixed terminal at both ends of a resistor and a sliding contact terminal that slides on the resistor. The resistance between one of the fixed terminals and the sliding contact terminal is used for the variable air temperature setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for displaying the air temperature level.

Further, a temperature sensor is arranged near the discharge port instead of the variable resistor used for displaying the wind temperature level.

The resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for air flow variable setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for air flow level display.

[Operation] By the above-mentioned means, the resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for the variable wind temperature setting, and the resistance between the other fixed terminal and the sliding contact terminal is displayed as the wind temperature level. For this purpose, one variable resistor is used for power adjustment of a heater or the like and for air temperature display.

In addition, a temperature sensor disposed near the discharge port displays a wind temperature level using a resistance value that changes according to the wind temperature of the discharge port.

Further, the resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for variable airflow setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for displaying the airflow level, and for adjusting the power of a motor or the like. And the display of wind temperature are performed by one variable resistor.

Embodiment 1 Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIGS. 1 to 8 show a first embodiment, and the structure of the hair dryer is such that a suction port 2 is formed at a rear portion of a main body 1 and a discharge port 3 is formed at a front end thereof, as shown in FIG. As shown in FIG. 3, a motor 5 provided with a fan 4 and a heater 7 are sequentially arranged inside from the suction port 2 side. Further, inside the main body 1, a rectifier 17, a wind temperature control device 6, and a drive control circuit are provided.
18 is provided so as not to be affected by the heat of the motor 7. A thermostat for detecting overheating of the heater 7 is provided on the heater substrate 12 supporting the heater 7 from the discharge port 3 side.
13, temperature sensors 14, 15 composed of positive temperature characteristic thermistors having different temperature characteristics, a voltage dividing resistance wire 16 for the motor 5, and the like are provided.

The handle portion 20 has a main switch 8 for switching off, hot air, and cold air, an air volume changeover switch 9 for switching the air volume to three stages of high, medium, and low, and a dial 10 for press-fitting or screwing a shaft onto a shaft for temperature setting. A variable resistor 11 is provided. Furthermore, as shown in FIG. 4, the light emitting diode 19 on the side wall of the main body 1 to level display changes in wind temperature (19 ₁ to 19 ₅₎
There is disposed laterally clear distinction at regular intervals, by the respective light emitting diodes 19 ₁ to 19 ₅ are sequentially turned from the light emitting diode 19 ₁ at the right end, and displays the air temperature linearly. Further, the wind temperature control device 6 and the drive control circuit 1
8, the light emitting diodes 19 ₁ to 19 _5, as shown in FIG. 5,
By being mounted on one printed circuit board 21, electrical connection is made, and as shown in FIGS. 5 and 6,
The printed circuit board 21 is fixed to the main body 1 and the surrounding frame 22 formed in a cylindrical shape so that heat generated by the heater 7 is not transmitted to the main body 1. At this time, an insulating plate 23 for electrically insulating is provided between the surrounding frame 22 and the printed circuit board 21.

Here, the variable resistor 11, as shown in FIG. 8 is composed fixed terminals 11 ₁ at both ends of the resistor 11 ₂ and the resistor above the 3 terminal of the contact terminal 11 ₃ that slides Is fixed to the printed circuit board 24 with screws or hooks. Moreover, are electrically connected by the three-terminal 11 ₁ to 11 ₃ and also wind temperature control device 6 and the drive control circuit 18 on lead 25, as shown in FIG. 1, and one of the fixed terminals 11 _{and second} variable resistor 11 a capacitor 26 between the contact terminals 11 _3, are arranged on the printed circuit board 21 or a printed board 24 on.

Next, the wind temperature control device 6 and the drive control circuit 18 will be described with reference to the circuit diagram shown in FIG. First, the wind temperature controller 6
Is configured as follows. That is, a phase control element 27 composed of a triac is connected to the heater 7 in series,
One end of a bidirectional switch element 28 such as SBS for flowing a gate current to the gate of the phase control element 27 is connected, and the other end of the bidirectional switch element 28 is connected to the temperature sensor 14 comprising a positive temperature characteristic thermistor and the capacitor 29. Connected to a connection point. Further, the temperature sensor 14, 15 and capacitor 29 are connected in series, and both ends are connected in parallel to the phase control element 27, one of the fixed terminals 11 ₁ and the contact terminal of the variable resistor 11 in parallel with the temperature sensor 15 11 ₃ is connected. At this time, the temperature sensor 14
Is a sensor with a higher operating temperature, and the temperature sensor 15 is a sensor with a lower operating temperature.

Next, the drive control circuit 18 is configured as follows.
Resistor 30 and diode 31 between power supplies, Zener diode
32 and capacitor 33, and Zener diode 32
Creates a constant voltage. Comparator 34 (34 _{1 to} 3
The variable voltage set by the variable resistor 11 is input to each non-inverting input terminal of ₄ ), the reference voltage set by the resistors 72 to 76 is input to the inverting input terminal, and the output of the comparator 34 is It is connected between the light emitting diodes 19 ₁ to 19 ₅ which are connected in series. At this time, the capacitor 26 is to prevent voltage fluctuations due to the contact resistance of the sliding contact terminal 11 ₃ of the variable resistor 11 are connected in parallel with the variable resistor 11. Incidentally, P ₁ is a removable connector.

In the present embodiment constructed as described above, to reduce the resistance value between the fixed terminals 11 ₁ and the sliding contact terminal 11 ₃ of the variable resistor 11, the wind temperature is high, the light emitting diode 19,
From the light emitting diode 19 ₁ of lower level will sequentially emitting the light emitting diode 19 ₅ direction higher level, increasing the resistance in the opposite, air temperature is low, the light emitting diode 19 is low from the light emitting diode 19 ₅ higher level The light emitting diode 191 of the level is sequentially turned off in _one direction.

Here, the above operation principle will be described. First, reducing the resistance value R ₁ between the fixed terminals 11 ₁ and the sliding contact terminal 11 ₃ of the variable resistor 11, the wind temperature control is as follows. That is, the combined resistance of the temperature sensor 15 and R ₁ is reduced, smaller phase angle of the phase control element 27, the heater power is increased. As a result, the start up is wind temperature, the resistance value of the temperature sensor 15 is increased, because the resistance value of R ₁ is small, the combined resistance of the R ₁ is not increased, yet, the temperature sensor 14 operating temperature Since the resistance value does not increase unless the wind temperature rises considerably due to the high temperature, the control system becomes stable where the heater power is large. As a result, the wind temperature rises. FIG. 2 (a) illustrates this control system. In this figure, the curve A indicates the operating characteristics of the temperature sensor 14, and the curve B indicates the operating characteristics of the temperature sensor 15, respectively.

At the same time as above, the wind temperature display is as follows. That, reducing the R ₁ described above, the resistance value R-R ₁ (R between the other fixed terminal 11 ₂ and the sliding contact terminal 11 ₃ of the variable resistor 11 is the overall resistance of the variable resistor 11 ) And the fluctuating voltage V (FIG. 1) increase, so that the comparator 34
Output sequentially become H level from the comparator 34 ₁ to the comparator 34 _four directions, sequentially emit light 19 ₅ direction from the light emitting diode 19 _1. Increasing the resistance value R ₁ Conversely, air temperature control is as follows. That is, the combined resistance of the temperature sensor 15 and R ₁ is increased, the greater the phase angle of the phase control element 27, the heater power is reduced. As a result, begins to fall is wind temperature, but decreases the resistance of the temperature sensor 15, to the resistance value of R ₁ is increased, the combined resistance of the R ₁ is not small, and the temperature sensor 14 operating temperature Since the resistance is not changed when the wind temperature is low because the temperature is high, the control system becomes stable where the heater power is low. As a result, the wind temperature decreases. FIG. 2 (b) illustrates this control system.

At the same time, the wind temperature display is as follows. That is, by increasing the R _1, R-R ₁ and the variable voltage V is reduced,
As a result, the comparator 34 outputs sequentially become L level from the comparator 34 ₁ to the comparator 34 _four directions, sequentially turned off in 19 _one direction from the light emitting diode 19 _5.

Also, with respect to a change in wind temperature due to an external factor such as the suction port 2 and the discharge port 3 of the body 1 of the hair dryer being blocked,
The operation of the temperature sensors 14 and 15 keeps the wind temperature constant, and there is no difference from the display of the wind temperature.

Furthermore, since a large number of light emitting diodes 19 are connected in series to a power supply, and since the drive control circuit 18 is connected to another power supply, variations in luminance among the elements of the light emitting diodes 19 are small, and It can be controlled by a zener diode 32 having a small allowable loss.

Further, by varying the capacitance of the capacitor 26, the time from when the resistance value of the variable resistor 11 is changed to when the fluctuation voltage becomes constant can be varied. As a result, a light emitting diode for displaying the wind temperature can be obtained. The display speed of 19 can be variably set.

Second Embodiment Next, a second embodiment is shown in FIGS. In this embodiment, a light emitting diode 35 for displaying a level change of wind temperature is used.
Is one. That is, in the hair dryer, the brightness of the light emitting diode 35 is constant, and the adjustment level of the wind temperature is displayed by a linear change in color.
Here, the drive control circuit including the light emitting diode 35
Except for 18 and its operating principle, it is the same as the previous embodiment, so that the description is omitted.

FIG. 9 shows the structure of a hair dryer in which one light emitting diode 35 is attached to the main body 1. As shown in FIG. 10, the light emitting diode 35 is a device in which light emitting elements of two colors, such as yellow and red, or green and red, are housed in one package, and the terminal is connected to the anode of the light emitting element of two colors. There are a total of three terminals, the common terminal and the respective cathode terminals.

FIG. 11 shows a wind temperature display circuit using the two-color light emitting diode 35. Connect the phase control element 37 to one of the light emitting element 35 ₁ and the resistor 36 for current limiting of the light emitting element 35 ₁ of the light emitting diode 35 made of a thyristor in series, the power source and both ends of which are half-wave rectified by the diode 41 It is connected.
One end of a bidirectional switch element 38 such as SBS for flowing a gate current is connected to the gate of the phase control element 37, and the other end of the bidirectional switch element 38 is connected to a connection point between a resistor 39 and a capacitor 40. I have. Also, the resistor 39 and the RR ₁ of the variable resistor 11
Are connected in series, and both ends are connected to a power supply that has been half-wave rectified by a diode 41. Furthermore, as an inverting circuit described above, another color of the light emitting element 35 ₂ and the light emitting element 35 _{and second} current-limiting resistor for the 42, the transistors 43 are connected in series, are connected in parallel of the phase control element 37 . At this time, the base of the transistor 43 is connected to the connection point and the emitter of the thyristor 37 and the resistor 36 via the resistors 44 and 45, respectively.

In the present embodiment constructed as described above, to reduce the resistance value R ₁ of the variable resistor 11, the higher the Atsushi Kaze, 2
And the luminance of the color light emitting diode 35 is becoming darker color of the light emitting element 35 ₂ at a constant, the color of the light emitting element 35 ₁ is reduced. Increasing the resistance value R ₁ Conversely, air temperature is low, the light emitting element 35
₁ color becoming darker, the color of the light emitting element 35 ₂ is reduced.

Here, the above operation principle will be described. First, reducing the resistance value R ₁ of the variable resistor 11, although the Atsushi Kaze increases have been described above, this time, the wind temperature display is as follows. Consequently, reducing R _1, the resistance value of R-R ₁ increases, i.e. the amount of current flowing through the light emitting element 35 ₁ phase angle increases the phase control element 37 is small, the luminance is low. However, while the phase control element 37 is off, the transistor
Since 43 is turned on, the amount of current flowing through the light emitting element 35 is large, the luminance is high, increasing the resistance value R ₁ Conversely, the but as the same air temperature is low, the wind temperature display as follows become. Increasing the R _1, the resistance value of R-R ₁ is reduced, as a result, smaller phase angle of the phase control element 37, the amount of current flowing through the light emitting element 35 ₁ is increased, a strong luminance, transistor 43 since the time that is on is shortened, the amount of current flowing through the light emitting element 35 ₂ is less brightness becomes weak.

As described above, since the total amount of current of the light emitting elements 35 ₁ and 35 ₂ of the light emitting diode 35 is the same, the brightness is constant, and the adjustment level of the wind temperature can be displayed by a linear change in color. is there.

Third Embodiment FIG. 12 shows a third embodiment in which the adjustment level of the wind temperature is displayed by a linear change in the luminance of the same color.
In other words, the change in wind temperature is indicated by a linear change in the luminance of one light emitting diode 46, except that the two color light emitting diodes 35 are replaced with one color light emitting diode 46 and attached to the inverting circuit side. The structure and the circuit are the same as those of the previous embodiment.

Consequently, reducing the resistance value R ₁ of the variable resistor 11, the wind temperature is increased, the luminance of the light emitting diode 46 is increased. Increasing the resistance value R ₁ Conversely, air temperature is low, the brightness of the light emitting diode 46 is weakened. The principle of this operation has been described in the second embodiment and will not be described here.

Fourth Embodiment In a fourth embodiment, a case will be described in which a temperature sensor is used in place of the variable resistor used for displaying the wind temperature level. As shown in FIG. 13, a temperature sensor 47 is arranged in the vicinity of the discharge port 3, and a circuit diagram for displaying a wind temperature level using the temperature sensor 47 is shown in FIG. The temperature sensor 47 uses a negative characteristic thermistor, and has a characteristic that the resistance value decreases as the temperature increases. In the circuit, the temperature sensor 47 is connected in place of the resistor 70 and the fixed terminal 11 of the variable resistor 11 is different from the case of FIG.
₂ is open, the capacitor 26 is deleted, and the resistor 71 is connected to the power supply line, and the rest is the same as in FIG. In the present embodiment configured as described above, the same operation as in the first embodiment can be performed.

Consequently, reducing the resistance value R ₁ of the variable resistor 11, the wind temperature is increased, as a result, the resistance value of the temperature sensor 47 is small, so high variable voltage V, the light emitting diode
19, will sequentially emitted from the light emitting diode 19 ₁ of low level light emitting diode 19 ₅ direction higher level, increasing the resistance value R ₁ Conversely, air temperature is low, the temperature sensor
Since the resistance value of 47 becomes large, the fluctuation voltage V becomes low, and the light emitting diode 19 becomes a high level light emitting diode 19.
Sequentially turned off in the light-emitting diodes 19 in _one direction lower level from _5.

Fifth Embodiment FIG. 15 shows a fifth embodiment, in which a phase control element 27 is connected to a rectifier 17.
Are connected in series with each other, and the bidirectional switch element 28 and the variable resistor 11 are connected to the gate of the phase control
Is adjusted to control the air volume steplessly. That is, in a hair dryer provided with a power control phase control circuit for controlling the air flow in a stepless manner, the air flow adjustment level is displayed in the same manner as in the previous embodiment.

[Effects of the Invention] As described above, the present invention provides a variable resistor including three terminals, a fixed terminal at both ends of a resistor and a sliding contact terminal that slides on the resistor. The resistance between one fixed terminal and the sliding contact terminal is used for the above-mentioned variable setting of the air temperature, and the resistance between the other fixed terminal and the sliding contact terminal is used for the display of the air temperature level. The resistance between one fixed terminal and the sliding contact terminal of the vessel is used for the variable air temperature setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for the air temperature level display. A single variable resistor can be used for power adjustment and wind temperature display. Even if an abnormality such as the suction port or discharge port is blocked, the actual wind temperature can be measured by the temperature sensor. This is an effect that can be displayed.

In addition, by arranging a temperature sensor near the discharge port instead of the variable resistor used for displaying the wind temperature level, the temperature sensor located near the discharge port responds to the wind temperature of the discharge port. The wind temperature level can be indicated by the resistance value changing.

Furthermore, the resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for airflow variable setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for airflow level display,
The resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used to set the airflow variable, and the resistance between the other fixed terminal and the sliding contact terminal is used to display the airflow level. Temperature display can be performed with one variable resistor.

[Brief description of the drawings]

FIG. 1 is a specific circuit diagram of the first embodiment of the present invention, FIG. 2 is a wind temperature control characteristic diagram of the above, FIG. 3 is a cross-sectional view of the same hair dryer, FIG. FIG. 6 is a sectional view of the same, FIG. 6 is a front view of the same, FIG. 7 is a plan view of a printed circuit board of the same, FIGS. 8 (a) to 8 (c) are front views of the same variable resistor, and FIG. FIG. 9 is a front view and a rear view of a case where the camera is mounted, FIG. 9 is a side view of the second embodiment, and FIG.
FIG. 11C is a plan view, a front view and a side view of the package of the two-color light emitting diode of the above, and FIG.
12 is a main part circuit diagram of Embodiment 3 of the above, FIG. 13 is a cross-sectional view of Embodiment 4 of the above, FIG. 14 is a concrete circuit diagram of the same, and FIG. 15 is a concrete circuit diagram of a fifth embodiment of the same. FIG. 16 is a concrete circuit diagram of a conventional example, and FIG. 17 is a side view of the same. 3 is a discharge port, 4 is a fan, 5 is a motor, 7 is a heater, 11
The variable resistor, 11 _1, 11 ₂ fixed terminal, 11 ₃ sliding contact terminal, temperature sensor 14, 15, 18 drive control circuit, 27 is a phase control element, 47 is a temperature sensor.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-144004 (JP, A) JP-A-61-220611 (JP, A) JP-A-62-249610 (JP, A) 78106 (JP, U) JP-A 1-1121501 (JP, U) Jiko 58-20163 (JP, Y2) (58) Fields investigated (Int. Cl. ⁶ , DB name) A45D 20/10 H05B 3 / 00-3/82 G05D 23/00-23/32 H02P 5/00-5/52 H02P 7/00-7/80

Claims (3)

(57) [Claims] 1. A motor for driving a fan, a heater for heating air blown by the fan, a phase control element for controlling the phase of the heater, and a temperature for detecting the wind temperature and controlling the phase control element. A sensor, a variable resistor for continuously changing a wind temperature by variably setting a detection temperature of the temperature sensor, a light emitting element for displaying an adjustment level of the wind temperature, and a level signal taken out from the variable resistor And a drive control circuit for turning on the light emitting element according to the following. The hair dryer comprises three terminals, a fixed terminal at both ends of a resistor and a sliding contact terminal sliding on the resistor. The resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for the variable air temperature setting, and the resistance between the other fixed terminal and the sliding contact terminal is used for the air temperature level display. age Hair dryer, characterized in that. 2. The hair dryer according to claim 1, wherein a temperature sensor is arranged near the discharge port instead of the variable resistor used for displaying the air temperature level. 3. The method according to claim 1, wherein the resistance between one fixed terminal and the sliding contact terminal of the variable resistor is used for setting the air flow, and the resistance between the other fixed terminal and the sliding contact terminal is used for displaying the air flow level. The hair dryer according to claim 1, characterized in that: