JPH027680B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a steam iron equipped with a temperature setting device.

[Technical background of the invention and its problems]

Some irons have a certain range of suitable temperature ranges centered around the temperature set on the temperature setting device according to the material of the cloth being ironed, and when the temperature of the iron base falls within the above suitable temperature range, the suitable temperature will be displayed. There is something I did. Furthermore, the steam iron enables steam injection when the temperature falls within the above-mentioned appropriate temperature range. However, immediately after the steam is injected, the iron base is temporarily deprived of heat due to the heat of vaporization, and its temperature drops temporarily. In such cases, if the temperature of the iron base falls below the appropriate temperature range,
There was a problem in that the steam injection stopped when the above-mentioned appropriate temperature display was resolved.

[Purpose of the invention]

This invention was made to solve this problem, and only during steam operation, once the temperature of the iron base reaches the appropriate temperature and steam is ejected, the temperature of the iron base will not drop below the appropriate temperature after that. To provide a steam iron that can maintain steam injection even when the iron is heated.

[Summary of the invention]

This invention compares the temperature detection output of a temperature detection element that detects the temperature of the iron base with the temperature setting output of a temperature setting device that sets the temperature of the iron base, and controls the power supply to the heater according to the set temperature. An electromagnetic valve is installed at the bottom of the water tank installed at the top of the base, and when the temperature detection output of the temperature detection element is within the appropriate temperature range determined based on the temperature setting output, an appropriate temperature signal is output from the appropriate temperature judgment circuit. The appropriate temperature judgment status is displayed on the appropriate temperature display. Furthermore, when the steam operation switch is turned on, the above-mentioned appropriate temperature judgment state is held until the set temperature is changed, and during that hold period, the above-mentioned solenoid valve is opened and steam is injected.On the other hand, when the dry operation switch is turned on, the above-mentioned hold operation is held. It was made to be prohibited.

[Embodiments of the invention]

Embodiments of the present invention will be described below with reference to the drawings.

As shown in Figure 1, 1 is an iron base, and this iron base 1 has two steam outlet ports at both ends.
A vaporization chamber 3 is formed in which gas chambers a and 2b are provided. Further, the iron base 1 houses a heater 4 and a thermistor 5 with negative characteristics as a temperature detection element. A circuit component storage section 8 having a water tank 6 at the front and a handle 7 at the rear is mounted on the upper part of the iron base 1. Said water tank 6
A nozzle 9 serving as a communication hole communicating with the vaporization chamber 3 is provided at the bottom of the vaporization chamber 3 . The nozzle 9 is provided with a long needle valve 10 that opens and closes its hole by vertical movement. This needle valve 10, a plunger 11 to which the upper end of this needle valve 10 is attached, a spring body 12 that always urges this plunger 11 downward, and a spring body 12 that forces the plunger 11 against the spring force of the spring body 12. The solenoid 13 that urges upward forms an electromagnetic valve.

_FIG . 2 shows the circuit configuration, in which a series circuit of the temperature setting device 15 and the thermistor 5, a series voltage dividing circuit of resistors 16, 17, 18, and 19, and a heater control circuit 20 are connected between the +V C terminal and the ground. They are connected to each other. Note that +V _C is created by rectifying and smoothing the AC power supply. The temperature setting device 15 is constructed by connecting five series circuits of resistors and switches in parallel with different resistance values, and by selectively turning on the switches, the resistance value of the resistor inserted in the circuit can be changed. setting the temperature. The heater control circuit 20 is a series circuit of resistors 21, 22, and 23.
The first relay 2 is connected to the collector side of the transistor 24 via the NPN type first transistor 24.
5 in parallel and its first relay 2
The heater 4 is connected to the heater 4 through a normally open contact 25m. The base of the first transistor 24 is connected to the connection point between the resistors 22 and 23. The connection point P between the temperature setting device 15 and thermistor 5 is connected to the non-inverting input terminal (+) of the first comparator 26.
The connection point B between the resistors 17 and 18 is connected to the inverting input terminal (-). The output terminal of the first comparator 26 is connected to the resistors 21 and 22.
connected to the connection point. Note that the resistance value of the resistor 16 and the resistance value of the resistor 19 are made equal, and the resistance value of the resistor 17 and the resistance value of the resistor 18 are made equal.

The connection point A between the resistors 16 and 17 is connected to the non-inverting input terminal (+) of the second comparator 27, and the connection point D between the resistors 18 and 19 is connected to the third comparator 2.
It is connected to the inverting input terminal (-) of 8. The inverting input terminal (-) of the second comparator 27 and the non-inverting input terminal (+) of the third comparator 28 are connected, and the connection point is the switching contact 29S of the second relay 29, which will be described later. It is connected to the connection point P via the normally closed side and to the connection point B via the normally open side of the switching contact 29S. Said second comparator 27
The output terminal of is connected to the +V _C terminal via the low temperature display light emitting diode 30 and the resistor 31, and
The output terminal of the third comparator 28 is connected to +V _C via a high temperature display light emitting diode 32 and a resistor 33.
connected to the terminal. Furthermore, the output terminals of the second and third comparators 27 and 28 are connected to each other through diodes 34 and 35 in opposite directions, and the connection point is connected to the +V _C terminal through a resistor 36, and a Zener Diode 37 and resistor 38
are connected in series to ground. A resistor 4 is connected to the collector side of the transistor 39 via a second NPN transistor 39 between the +V _C terminal and the ground.
The base of the second transistor 39 is connected to the connection point between the Zener diode 37 and the resistor 38. The second and third comparators 2
7, 28, diodes 34, 35, Zener diode 37, resistors 36, 38, and second transistor 39 constitute an appropriate temperature determination circuit. In addition, a series circuit consisting of a resistor 42, a steam operation switch 43, and a light emitting diode 44 for indicating steam operation is connected between the +V _C terminal and the ground, and a low resistor 45 is linked to the steam operation switch 43, so that they turn on and off in opposite directions. A series circuit of a dry operation switch 46 and a light emitting diode 47 for displaying dry operation is connected. Further +
A reset switch 4 is connected between the V _C terminal and the ground and turns off for a short time in response to switching of the temperature setting device 15 and turning off the steam operation switch 43.
8 and the thyristor 49 in series, and the second relay 29 is connected to the solenoid 1 through the normally open contact 29m of the second relay 29.
3 is connected. The connection point between the resistor 40 and the appropriate temperature display light emitting diode 41 is connected to the inverting input terminal (-) of the fourth comparator 51 via the diode 50 in the forward direction, and the connection point between the resistor 42 and the steam operation switch 43 is connected to the inverting input terminal (-) of the fourth comparator 51. Connect the connection point to diode 52
is connected in the forward direction to the inverting input terminal (-) of the fourth comparator 51. The fourth comparator 51 further connects its inverting input terminal (-) to a resistor 53.
The non-inverting input terminal (+) is connected to the reference voltage terminal Vref, and the output terminal is connected to the gate of the thyristor 49 via a resistor 54. The second relay 29, reset switch 48, thyristor 49 and fourth comparator 51
The circuit consisting of the following constitutes a hold circuit.

Next, the operation of the embodiment of the present invention constructed as described above will be described.

First, the desired temperature is set by selectively operating the switch on the temperature setting device 15. When a power switch (not shown) is turned on in this state, +V _C is input to the circuit shown in FIG. Now, the temperature of the iron base 1 is low and the resistance value of the thermistor 5 is sufficiently larger than the resistance value of the temperature setting device 15. On the other hand, connection point B
The voltage V _B is now V _C /2. Therefore, the voltage V _P at the connection point P is greater than V _B and the first comparator 26
The output becomes high level. In this way, the first transistor 24 is turned on, the first relay 25 is operated, the normally open contact 25m of the relay 25 is turned on, and energization to the heater 4 is started. Further, when the temperature of the iron base 1 is lower than the lower limit of the appropriate temperature range, the voltage V _P is higher than the voltage V _A at the connection point A, and the output of the second comparator 27 becomes a low level. the result,
A current flows from the +V _C terminal to the output terminal of the second comparator 27 via the resistor 31 and the low temperature display light emitting diode 30, and the low temperature display light emitting diode 30 lights up. However, the Zener diode 37 and the second
The transistor 39 is not turned on and does not determine the appropriate temperature. When the iron base 1 is heated by the heater 4 and its temperature gradually increases, the resistance value of the thermistor 5 decreases, and the voltage V _P gradually decreases. and
When V _P ≦V _A , the output of the second comparator 27 is inverted to high level. As a result, the low temperature display light emitting diode 30 is turned off. On the other hand, since the voltage V _P is higher than the voltage V _D at the connection point D, the output of the third comparator 28 is also at a high level. Thus, the Zener diode 37 and the second transistor 39 are turned on, and the appropriate temperature display is performed by the light emitting diode 41 for displaying the appropriate temperature. When the steam operation switch 43 is turned on in this state, the input level to the inverting input terminal (-) of the fourth comparator 51 becomes low level, and the output of the comparator 51 rises to high level, turning on the thyristor 49. Further, the steam operation display light emitting diode 44 lights up. Then, the second relay 29 is activated, its normally open contact 29m is turned on, and energization to the solenoid 13 is started. Water drips to generate steam, and the steam is injected to the outside from the steam discharge ports 2a, 2b. Also, the second relay 2
9 operates, its switching contact 29S is switched and the normally open side is turned on. Thereafter, the outputs of the second and third comparators 27 and 28 both maintain a high level, regardless of the temperature of the iron base 1, that is, the resistance value of the thermistor 5. As a result, the appropriate temperature display light emitting diode 41 also remains lit. Further, the thyristor 49 also continues to be turned on, and the second relay 29 continues to operate. However, even if the temperature of the iron base 1 becomes the lower limit of the appropriate temperature range at the set temperature, that is, V _P > V _A due to the heat of vaporization at the point where steam is generated, the appropriate temperature judgment circuit will maintain the appropriate temperature judgment, and the hold circuit will maintain the appropriate temperature judgment. also maintains the operating state of the second relay 29.

Thereafter, when a switch is operated to vary the set temperature of the temperature setting device 15, the reset switch 48 is turned off for a short time and the thyristor 49 is turned off. As a result, the operation of the second relay 29 is stopped, the solenoid 13 is turned off, and the needle valve 10 closes the nozzle 9, thereby stopping steam generation. At this time, the normally closed side of the switching contact 29S of the second relay 29 returns to the on state, so the appropriate temperature determination circuit does not output the appropriate temperature signal until the temperature of the iron base 1 falls within the appropriate temperature range at the new set temperature. As a result, the appropriate temperature display light emitting diode 41 is turned off and no steam is generated. In addition, if the temperature of the iron base 1 falls below the new suitable temperature range, the second comparative example 2
The output of the third comparator 28 becomes a low level and the light emitting diode 30 for indicating a low temperature lights up, and when the temperature exceeds the above-mentioned appropriate temperature range, the output of the third comparator 28 becomes a low level and the light emitting diode 32 for indicating a high temperature lights up.

Next, when using this steam iron in a dry state without using steam, the iron base 1 is heated by the heater 4, and the temperature of the iron base 1 falls within the appropriate temperature range, and the light emitting diode 41 for indicating the appropriate temperature is activated. The dry operation switch 46 is turned on at or before the light is lit.
Then, the dry operation display light emitting diode 47 lights up, and the steam operation switch 43, which is reversely linked to this switch 46, is turned off. Thus, the input level to the inverting input terminal (-) of the fourth comparator 51 is fixed at high level. Therefore, even if, for example, the voltage at the end of the appropriate temperature display light emitting diode 41 on the resistor 40 side decreases, the input level does not change to a low level. However,
Since the output of the fourth comparator 51 maintains a low level, the thyristor 49 and the second relay 29 do not operate, and no steam is generated.

Since the second relay 29 does not operate, the switching contact 29S is always connected to the normally closed side as shown. Therefore, the outputs of the second and third comparators 27 and 28 also change in response to changes in the voltage V _P indicating the temperature of the iron base 1. Therefore, the output signal of the appropriate temperature determination circuit is not held at a constant value, and the temperature state at that time is accurately displayed on the appropriate temperature display light emitting diode 41.

In this way, when the steam operation switch is turned on, once the temperature of the iron base 1 falls within the appropriate range of the set temperature, steam generation will be maintained unless the set temperature is changed. Even if the temperature of 1 falls below the appropriate temperature, the injection of steam will not be stopped. Further, when the dry operation switch is turned on, the temperature state at that time is accurately displayed on the appropriate temperature display light emitting diode 41 as the appropriate temperature indicator.

〔Effect of the invention〕

As detailed above, according to the present invention, only during steam operation, once the temperature of the iron base reaches the appropriate temperature and steam is injected, that state is maintained even if the temperature of the iron base drops below the appropriate temperature. Therefore, it is possible to provide a steam iron that can improve practicality.

[Brief explanation of drawings]

FIG. 1 is a partial sectional view showing an embodiment of the present invention;
FIG. 2 is a circuit diagram of the same embodiment. 1... Iron base, 3... Vaporization chamber, 4...
Heater, 5... Negative characteristic thermistor, 6... Water tank, 9... Nozzle, 10... Needle valve, 13...
... Solenoid, 15 ... Temperature setting device, 16,1
7, 18, 19... Resistor, 20... Heater control circuit, 26, 27, 28, 51... Comparator, 29...
...Second relay, 41...Light-emitting diode for displaying appropriate temperature, 43...Steam operation switch, 46...
Dry operation switch, 49...thyristor.

Claims (1)

[Claims] 1. A vaporization chamber formed in the iron base, a heater that heats the iron base, a temperature setting device that sets the temperature of the iron base, and a temperature detection element that detects the temperature of the iron base.
a heater control circuit that compares the temperature detection output of the temperature detection element with the temperature setting output of the temperature setting device and controls energization of the heater according to the set temperature;
a water tank provided at the top of the iron base; an electromagnetic valve provided at the bottom of the water tank for controlling opening and closing of the communication hole to the vaporization chamber; a steam operation switch and a dry operation switch that operate in opposite directions; an appropriate temperature determination circuit that determines whether the temperature detection output of the temperature detection element is within a predetermined appropriate temperature range based on the temperature setting output of the temperature setting device, and outputs an appropriate temperature signal when the temperature detection output is within a predetermined appropriate temperature range;
In response to the appropriate temperature display that displays the appropriate temperature signal output from the appropriate temperature determination circuit and the appropriate temperature signal from the appropriate temperature determination circuit, the set temperature of the temperature setting device is changed to change the appropriate temperature determination state when the steam operation switch is turned on. a hold circuit that holds the temperature until the dry operation switch is turned on and prohibits the maintenance of the appropriate temperature judgment state when the dry operation switch is turned on; and a valve control circuit that controls the opening of the electromagnetic valve in response to the hold output of the hold circuit that indicates the optimum temperature judgment state. A steam iron characterized by: