JPH0338880B2 - - 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]

Conventionally, steam irons enable steam injection when the temperature of the iron base falls within the appropriate temperature range near the temperature set by the temperature setting device, but immediately after steam injection, the iron base temporarily dissipates heat due to the heat of vaporization. temperature is temporarily lowered. In such cases, there was a problem in that if the temperature of the iron base fell below the appropriate temperature range, the steam injection would stop.

[Purpose of the invention]

This invention was made to solve this problem. Once the temperature of the iron base reaches the appropriate temperature and steam is ejected, steam will continue to be ejected even if the temperature of the iron base drops below the appropriate temperature. The purpose is to provide a steam iron that can hold.

[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 means that sets the temperature of the iron base, and controls the energization to the heater according to the set temperature. An electromagnetic valve is installed to control the opening and closing of the communication hole that communicates water from the water tank installed at the top of the base to the vaporization chamber, so that the temperature detection output of the temperature detection element falls within the appropriate temperature range determined based on the temperature setting output. When the temperature is on, an appropriate temperature signal is output from the appropriate temperature determination means, the appropriate temperature determination state is held until the set temperature is changed, and during the holding period, the electromagnetic valve is opened to perform steam injection.

[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 negative characteristic thermistor 5 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. A nozzle 9 serving as a communication hole communicating with the vaporization chamber 3 is provided at the bottom of the water tank 6 . The nozzle 9 is provided with a long needle valve 10 that opens and closes its hole by vertical movement. And this needle valve 1
0, a plunger 11 to which the upper end of the needle valve 10 is attached, a spring body 12 that constantly biases the plunger 11 downward, and a spring body 12 that biases the plunger 11 upward against the spring force of the spring body 12. The solenoid 13 forms an electromagnetic valve that controls opening and closing of the nozzle 9, which serves as a communication hole that communicates water from the water tank 6 to the vaporization chamber 3.

FIG. 2 shows a circuit configuration, in which a series circuit of a temperature setting device 15 as a temperature setting means and the thermistor 5, resistors 16, 17,
Series voltage dividing circuits 18 and 19 and a heater control circuit 20 as heater control means are connected to each other. Note that +Vc is created by rectifying and smoothing the AC power supply. The temperature setting device 15 has five series circuits of resistors and switches connected in parallel with different resistance values, and the resistance value of the resistor inserted in the circuit can be changed by selectively turning on the switch. setting the temperature. The heater control circuit 20 is a series circuit of resistors 21, 22, and 23.
A 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, and the connection point B between the resistors 17 and 18 is connected to the inverting input terminal (-). are doing.
The output terminal of the first comparator 26 is connected to the resistor 2.
It is connected to connection points 1 and 22. 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 connection point 29S. The output terminals of the second and third comparators 27 and 28 are connected to a diode 3, respectively.
0 and 31 are connected to each other through opposite directions, and the connection point thereof is connected to the +Vc terminal through a resistor 32, and is grounded through a Zener diode 33 and a resistor 34 in series. A series circuit consisting of a resistor 36 and a suitable temperature display light emitting diode 37 is connected to the collector side of the NPN type second transistor 35 between the +Vc terminal and the ground, and the base of the transistor 35 is connected to the Zener diode. It is connected to the connection point between 33 and resistor 34. The circuit consisting of the second and third comparators 27, 28, diodes 30, 31, Zener diode 33, resistors 32, 34, 36, second transistor 35, and light emitting diode 37 serves as an appropriate temperature determining circuit. It consists of Also +
Resistor 38 between Vc terminal and ground, steam switch 39 and light emitting diode 40 for steam operation display
A series circuit of a resistor 41, a dry switch 42 which operates in conjunction with the steam switch 39 and performs reverse ON/OFF operations, and a light emitting diode 43 for displaying dry operation are also connected. Furthermore, the switch of the temperature setting device 15 and the steam switch 3 are connected between the +Vc terminal and the ground.
The second relay 29 is connected in series through a reset switch 44 and a thyristor 45, which are turned off for a short time in response to the off operation of the solenoid 13. are connected. The connection point between the resistor 36 and the light emitting diode 37 is connected to the inverting input terminal (-) of the fourth comparator 47 via the diode 46 in the forward direction, and the connection point between the resistor 38 and the steam switch 39 is connected to the diode. 48 in the forward direction to the inverting input terminal (-) of the fourth comparator 47. the fourth comparator 47
further connects its inverting input terminal (-) to ground via a resistor 49, connects its non-inverting input terminal (+) to the reference voltage terminal Vref, and connects its output terminal to the resistor 50.
It is connected to the gate of the thyristor 45 via. A circuit comprising the second relay 29, reset switch 44, thyristor 45 and fourth comparator 47 constitutes a hold circuit as a hold means.

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, +Vc 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. Therefore, the Zener diode 33 and the second transistor 3
5 does not turn 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 increases.
V _P gradually decreases. Then, when V _P ≦V _A , the output of the second comparator 27 is inverted to high level.
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. Therefore, the Zener diode 33 and the second transistor 35 are turned on, and the light emitting diode 37 is turned on.
The appropriate temperature is displayed. When the steam switch 39 is turned on in this state, the fourth comparator 4
The input level to the inverting input terminal (-) of the comparator 47 becomes a low level, and the output of the comparator 47 rises to a high level, turning on the thyristor 45. Therefore, the second relay 29 operates, and its normally open contact 29m
is turned on and energization to the solenoid 13 starts,
The needle valve 10 is raised and the nozzle 9 is opened, water in the tank 6 drips into the vaporization chamber 3 to generate steam, and the steam is injected to the outside from the steam discharge ports 2a and 2b. Further, when the second relay 29 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. Also, thyristor 45
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 44 is turned off for a short time and the thyristor 45 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 determine the appropriate temperature until the temperature of the iron base 1 falls within the appropriate temperature range at the new set temperature, and steam is generated. will not be carried out.

In this way, once the temperature of the iron base 1 falls within the appropriate temperature range at the set temperature, steam generation will be maintained unless the set temperature is changed, so the temperature of the iron base 1 will drop below the appropriate temperature by steam injection. However, this does not stop the steam injection.

〔Effect of the invention〕

As detailed above, according to the present invention, once the temperature of the iron base reaches the appropriate temperature and steam is injected, that state can be maintained even if the temperature of the iron base falls below the appropriate temperature, and the steam is injected. It is possible to provide a steam iron that can prevent the problem of stopping halfway and improve its practicality.

[Brief explanation of the drawing]

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, 15,1
7, 18, 19... Resistor, 20... Heater control circuit, 26, 27, 28, 47... Comparator, 29...
...second relay, 45...thyristor.

Claims (1)

[Scope of 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. and a heater control means that compares the temperature detection output of the temperature detection element with the temperature setting output of the temperature setting means and controls the energization of the heater according to the set temperature; a water tank; an electromagnetic valve for controlling opening/closing of a communication hole that communicates water from the water tank to the vaporization chamber; and a temperature detection output of the temperature detection element determined based on the temperature setting output of the temperature setting means. An appropriate temperature determination means that determines whether or not the temperature is within the appropriate temperature range and outputs an appropriate temperature signal when the temperature is within the appropriate temperature range; A steam iron comprising: a holding means for holding the temperature until the temperature is changed; and a valve control means for controlling the electromagnetic valve to open in response to the holding output of the holding means for determining the appropriate temperature.