JP2591178B2 - Cordless iron - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention provides an electric power supply from a stand to a heater built in an iron main body when the iron main body is set on a stand without a power cord. And a cordless iron for heating.

2. Description of the Related Art Conventionally, as a cordless iron of this type, a method of transmitting a signal from a heat-sensitive element incorporated in an iron main body to a temperature controller of a stand has been proposed. However, in such a configuration, since the current flowing through the thermosensitive element is weak and the voltage is also small, conduction between the electrodes transmitting the temperature signal becomes poor, and normal temperature control cannot be performed. Was something. On the other hand, as an improvement plan of this method,
A method of converting a temperature signal of the iron body into a pulse signal and transmitting the pulse signal to a stand has also been proposed. This method will be described with reference to FIGS. In the figure, reference numeral 26 denotes an iron body, and a heater 28 for heating an iron base 27.
A thermal element 29 for detecting a base temperature, a temperature detecting section 30 for forming a pulse signal based on a signal from the thermal element 29, and a main body connected to the stand section 32 and supplying power to the heater 28 and the temperature detecting section 30. And an electrode 31. Reference numeral 32 denotes a stand unit to which the iron body 26 is detachably connected and set. The stand electrode 33 is connected to the body electrode 31 of the iron body 26, and the signal detection unit 34 detects the output of the temperature detection unit 30.
And a temperature control unit 35 that receives the signal from the signal detection unit 34 and controls power supply to the heater 28. Reference numeral 36 denotes a power cord of the stand 32. Here, the thermal element 29 detects the temperature of the base 27 and inputs a temperature signal to the temperature detecting section 30. The temperature detecting section 30 exchanges this temperature signal with a pulse signal whose interval changes according to the temperature. This pulse signal is detected by the signal detection unit 34 of the stand unit 32 via the main body electrode 31 and the stand electrode 33. The signal from the signal detection unit 34 is input to the temperature control unit 35. Temperature controller 35
Determines whether the base temperature of the iron main body 26 is higher or lower than the set temperature based on this temperature information.If the base temperature is lower, the relay built in the temperature controller 35 is turned on. By turning it off, the power supply to the heater 28 is controlled. When the heating of the base 27 is completed, the iron body 26
Is removed from the stand 32 and ironing is performed, and when the temperature of the base 27 decreases, the iron main body 26 is placed on the stand 32 again and the base 27 is heated. Here, the correlation between the pulse interval and the base temperature becomes shorter as the base temperature increases, as shown in FIG.

Problems to be Solved by the Invention However, those having such a configuration must have a dedicated power supply and a pulse signal conversion circuit in the iron main body,
There has been a problem that the control circuit configuration becomes complicated and the manufacturing cost increases.

An object of the present invention is to provide a cordless iron that can simplify the iron main body and can perform highly reliable temperature control.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention comprises an iron main body and a stand for setting the iron main body. It has a thermosensitive element to detect, a main body electrode for supplying power to the heater and the thermosensitive element,
A stand electrode connected to the body electrode of the iron body,
A switching element and a resistor are connected in series, and one end thereof is connected to the thermosensitive element via the main body electrode and the stand electrode, and a pulse of a commercial power supply is applied to both ends of the series resistor and the thermosensitive element by the switching element. A voltage detecting unit for detecting the divided voltage, a voltage comparing unit for comparing a reference voltage set by dividing a commercial power supply voltage by resistance with a detected voltage of the voltage detecting unit, and a base based on an output of the voltage comparing unit. A cordless iron having a temperature control unit that determines the temperature and controls power supply to the heater.

Operation The present invention allows the commercial power supply voltage to be pulse-applied to the thermal element by the above-described configuration, and does not require a dedicated power supply to the iron main body. By applying the commercial power supply voltage, a good conduction state is always maintained between the electrodes. Therefore, the temperature control can be performed with a simple configuration and with high reliability. Further, since both the detection voltage and the reference voltage divide the commercial power supply voltage, accurate temperature control can be performed without the influence of voltage fluctuation.

Embodiment An embodiment of the present invention will be described below in detail with reference to FIGS. FIG. 1 is a structural block diagram of a cordless iron showing one embodiment of the present invention. In the figure, reference numeral 1 denotes an iron main body, a heater 3 for heating an iron base 2, and a thermosensitive element 4 for detecting the temperature of the base 2.
And a main body electrode 5 for supplying electric power to the heater 3 and the thermal element 4. Reference numeral 6 denotes a stand on which the iron body 1 is detachably connected and set.
A stand electrode 7 connected to the main body electrode 5 and a thermosensitive element 4
Voltage detecting unit 8 for detecting the temperature information of the power supply as a divided voltage of the commercial power supply voltage, a voltage comparing unit 9 for comparing the detected voltage of the voltage detecting unit 8 with a reference voltage, and a base 2 based on the output of the voltage comparing unit 9. And a power control cord 11 for judging the temperature of the heater 3 and controlling the power supply to the heater 3.

FIG. 2 is a circuit diagram showing an embodiment of the voltage detector 8, the voltage comparator 9, and the temperature controller 10. In the figure, 12
Is a power supply circuit for producing a power supply for the control circuit, and is composed of a commercial power supply 13, a zener diode 14, a resistor 15, and a diode 16. Reference numeral 17 denotes a microcomputer for judging and controlling temperature information, 8 a voltage detection unit, a transistor 18 for switching according to a set temperature, and a resistor 19 for forming a divided voltage with the thermistor 4 which is a thermal element. It consists of. Reference numeral 9 denotes a voltage comparison unit having a comparator 23 for comparing a reference voltage formed by the resistors 20 and 21 and the rectifying diode 22 for dividing the commercial power supply voltage with a detection voltage detected by the voltage detection unit. I have. Reference numeral 10 denotes a temperature control unit, which includes a relay 24 for controlling energization of the heater 3 in accordance with an output result of the comparator 23, and a transistor 25 for controlling the relay 24.

FIG. 3 is a characteristic diagram showing the correlation between the temperature of the iron base 2 in FIG. 2, the output voltage of the voltage detection unit 8, and the reference voltage of the voltage comparison unit 9.

The operation in the above configuration will be described in detail. When the iron body 1 is set on the stand 6 and the temperature is set, the relay 24 of the temperature controller 10 is driven and the heater 3 is energized. The thermistor 4 senses the base temperature of the iron, which rises in temperature when the heater 3 is energized, and its resistance decreases in accordance with the temperature change. This resistance value is sensed as a divided voltage of the commercial power supply 13 by a resistor 19 provided in series with the thermistor 4 and input to the comparator 23 of the voltage comparison unit 9. At this time, the energization of the thermistor 4 is performed by using a transistor 18 as a pulse energization in order to minimize a temperature detection error due to self-heating of the thermistor 4. Where resistor 19
The setting method of ~ 21 will be described. First, the resistors 20 and 21 determine such that the divided voltage (which becomes the reference voltage) falls within the circuit power supply voltage range for the microcomputer 17 at a specific phase of the commercial power supply 13. Next, based on the resistance value of the thermistor 4 at the temperature to be the temperature adjustment point, the resistance 19 is adjusted so that the detection voltage matches the above-described reference voltage.
May be determined.

Effects of the Invention As described above, according to the present invention, according to the above-described configuration, the iron main body does not require a dedicated power supply by applying a pulse of the commercial power supply voltage to the heat-sensitive element. Because a good conduction state can always be maintained between the electrodes, a simple configuration can be achieved, and
Reliable temperature control becomes possible, and since both the detection voltage and the reference voltage divide the commercial power supply voltage, accurate temperature control can be performed without the influence of voltage fluctuation.
Its industrial value is great.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a cordless iron according to an embodiment of the present invention, FIG. 2 is a circuit configuration diagram illustrating an embodiment of a voltage detection unit / voltage comparison unit and a temperature control unit, and FIG.
Characteristic diagram showing the correlation between the temperature of the iron base in the figure and the output voltage of the voltage detection unit and the reference voltage of the voltage comparison unit,
FIG. 4 is a block diagram showing a configuration of a cordless iron showing a conventional example, and FIG. 5 is a characteristic diagram showing a correlation between a base temperature and a pulse interval in the conventional example. DESCRIPTION OF SYMBOLS 1 ... Iron body part, 3 ... Heater, 4 ... Thermal element, 5 ...
Main body electrode, 6 stand unit, 7 stand electrode, 8 voltage detection unit, 9 voltage comparison unit, 10 temperature control unit.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-182300 (JP, A) JP-A-1-153193 (JP, A) JP-A-1-291900 (JP, A) JP-A-63-1988 311998 (JP, A) JP-A-63-150100 (JP, A)

Claims (1)

(57) [Claims] An iron body includes a heater for heating a base of the iron, a heat-sensitive element for detecting a temperature of the base, and an electric power supplied to the heater and the heat-sensitive element. A stand electrode connected to the body electrode of the iron body, a switching element and a resistor connected in series, and one end of which is connected to the thermosensitive element via the body electrode and the stand electrode. A voltage detection unit that applies a pulse of a commercial power supply voltage to both ends of the series resistor and the thermal element by a switching element to detect a divided voltage thereof, and a reference that sets the commercial power supply voltage by resistance division. A voltage comparison unit that compares a voltage with a detection voltage of the voltage detection unit, and determines a base temperature from an output of the voltage comparison unit to supply power to the heater. Gosuru cordless iron comprising a temperature control unit.