JP2620617B2 - Electric iron - Google Patents

Description

The present invention relates to an electric iron provided with a safety device.

B) Prior art If the iron is left energized for a long time while in use or if the power is forgotten to be turned off, it often causes a fire. For example, as disclosed in Japanese Patent Publication No. An iron has been invented in which the heater heating circuit is closed by lifting the heater, and then the timer is started by releasing the hand from the iron, and the heater heating circuit is shut off after a predetermined time. However, this iron is configured such that when the heater heating circuit is shut off after the timer measures the predetermined time, the heater heating circuit is closed by lifting the iron regardless of the lapse of time thereafter. For example, when the user is not on the side of the iron that has been left for a long time, the heater heating circuit will be closed before the child or the like lifts this iron with the intention of a play tool,
It was a cause of burns.

C) Problems to be solved by the invention The present invention provides an electric iron with improved safety in consideration of the above-mentioned drawbacks.

D) Means for Solving the Problems The present invention is an electric iron provided with attitude monitoring means, first and second timing means, control means, and reset means,
When the non-use state continues for a predetermined time, the energization of the heating means is cut off, and when the use is started again within a predetermined time (when the posture of the iron is changed), the setting temperature of the setting means is automatically set. Even if the temperature control is started, and after the lapse of a predetermined time, the use is restarted, the power supply to the heating means is cut off.

E) Operation Since the present invention is configured as described above, it is possible to reuse the device within a predetermined time after the power supply to the heating unit is cut off, and to disable the reuse after a predetermined time.

F) Example An example of the present invention will be described with reference to the drawings. FIG. 1 is a partial sectional view of an electric iron according to the present invention, in which (1) is a base, (2) is a heater (heating means) embedded in the base, and (3) is a vaporizer formed on the base (1). Room, (4)
Is a negative temperature coefficient thermistor in the vicinity of the vaporization chamber and closely adhered to the base (1); (5) a steam hole provided on the bottom surface of the base (1) and communicating with the vaporization chamber (3);
Is an iron cover provided above the base (1),
A tubular communication member (7) made of a heat-resistant rubber and communicating with the vaporization chamber (3) is provided. (8) is a handle fixed on the upper surface of the iron cover (6), having a rod-shaped and hollow grip (8A) at the top, a guide (8B) at the bottom, and a grip at the rear. (8A) and a support portion (8C) formed by connecting a guide portion (8B). (9) is a mercury switch disposed in the grip portion (8A), which is fixed with the contact side inclined slightly upward with respect to the hooking surface of the base (1), and when the iron is kept stationary in a horizontal state. Opens the contacts and closes the contacts when the iron is accelerated (ironed). (10) is a tank that is detachably housed between the iron cover (6) and the guide part (8B) and stores water, and has a steam nozzle (11) provided on the bottom surface for communicating with the communication member (7). .

FIG. 2 is a schematic electric circuit diagram, in which (12) is an AC power supply, (13) is a DC power supply circuit, (14) is an initial circuit, and outputs a positive pulse when the AC power supply (12) is turned on. Is what you do. (15) is a setting means for setting a desired temperature of the base (1). The UP switch (15A) and the DOWN switch (15B) operated by operating means (not shown);
Connect the switch to the UP input terminal, and connect the DOWN switch (15B) to D
It comprises an UP / DOWN counter (15C) connected to the OWN input terminal and a decoder (15D) for decoding the output of the counter. The relationship between the output of the UP / DOWN counter (15C) and the output of the decoder (15D) is set as shown in the table below. The UP / DOWN counter (15C) closes the UP switch (15A) When changing the output, change the output toward No. 1-4 in the table,
When the DOWN switch (15B) is closed, the output is changed toward No. 4 to 1 in the table, and when a positive pulse is given to the R input terminal, the output is reset to No. 1 in the table. Is set. (16) attitude monitoring means for monitoring the attitude of the base (1); a first bridge circuit (16A) having the mercury switch (9) as one side; and connection points (a) and (b) of the bridge circuit. ) And a first comparison circuit (16B) for comparing outputs. The comparison circuit outputs an “L” level signal when the contact of the mercury switch (9) is closed,
When it is open, it outputs an "H" level signal. (17) is a first AND circuit for inputting the output of the first comparison circuit (16B) and the output of the Q output terminal of a flip-flop (25E) to be described later, and (18) is first time counting means. The output of the circuit (17) is input from the S input terminal, the output of the first AND circuit (17) is input from the R input terminal via the inverter (19), and the first AND circuit (17) receives the "H" level signal. Is output, an "H" level signal is output from the O output terminal after a lapse of a predetermined time (for example, 3 minutes), and the first AND circuit (17) outputs an "L" level signal. Time is reset. (20) is a second timing means, which outputs the output of the O output terminal of the first timing means (18) from the S input terminal and the output of the O output terminal of the first timing means (18) to the inverter (21). Input from the R input terminal via
When the first clocking means (18) outputs the "H" level signal, the timer starts operation and outputs a "H" level signal from the O output terminal after a lapse of a predetermined time (for example, 10 minutes). When the means (18) outputs an "L" level signal, it is reset. (22) is a first OR circuit to which the outputs of the initial circuit (14) and the second timing means (20) are input, (2)
3) is a first one-shot circuit (reset means) for giving a positive pulse to the R input terminal of the UP / DOWN counter (15C) in synchronization with the rise of the output signal of the OR circuit, and (24) is control means. decoder O _1, O _2, O ₃ switching resistor connected husband output s (R1) of (15D), and one side of the (R2), a parallel circuit of (R3) and one edge, and the thermistor (4) A second bridge circuit (24A), a second comparison circuit (24B) for comparing the outputs of the connection points (c) and (d) of the bridge circuit, and the output of the comparison circuit and the inverter via an inverter (24C). A second AND circuit (24D) for inputting the output of the first timing means (18), and ON / OFF by the output of the AND circuit
Transistor (24E) and ON / OFF of the transistor
And a relay coil (24G) that opens and closes a normally open relay contact (24F) connected in series to the heater (2). The relationship between the resistance values of the switching resistances (R1), (R2) and (R3) is as follows: switching resistance (R1) <switching resistance (R2) <switching resistance (R3), and the correspondence with the set temperature is from the left. They are “High (180 ° C)”, “Medium (140 ° C)”, and “Low (100 ° C)”. And Thus, for example, when the O ₁ output of the decoder (15D) is outputting "H" level signal, the connection point (C)
And the output voltage at the connection point (d) become the same when the thermistor (4) detects 180 ° C.
The output of the comparison circuit (24B) changes from the "H" level signal to the "L" level signal. (25) is a temperature assurance means, a second one-shot circuit (25A) for outputting a positive pulse in synchronization with the rise and fall of the output signal of the second comparison circuit (24B), and the UP / DOWN switch (15A). )
A second OR circuit (25B) for inputting the output of (15B), a third one-shot circuit (25C) for outputting a positive pulse in synchronization with the rising edge of the output signal of the OR circuit, and a small output of the one-shot circuit. A delay circuit (25D) for delaying the output and the output of the second one-shot circuit (25A) from the S input terminal.
The output of the delay circuit (25D) is input from the R input terminal,
And a flip-flop (25E) for providing the output of the output terminal to one input terminal of the first AND circuit (17).

Next, the operation will be described. First, when the AC power supply (12) is turned on for use, the initial circuit (14)
Is output to a first one-shot circuit (23) via a first OR circuit (22), and the positive pulse output from the one-shot circuit (23) is
This signal is supplied to the R input terminal of the WN counter (15C).
The P / DOWN counter (15C) is reset, and the decoder (15C) is reset.
D) will output a "H" level signal from the O ₄ output. At this time, the voltage at the connection point (c) maintains zero volt regardless of the change in the resistance value of the thermistor (4).
In this state, the comparator circuit (24B) outputs an "L" level signal to the second AND circuit (24D), so that the transistor (24E) is turned off and the relay contact (24F)
Is opened, and power supply to the heater (2) is not started. Therefore, the above state corresponds to "OFF". Next, when the UP switch (15A) is closed and the set temperature is set to “high (180 ° C)”, the temperature of the base (1) becomes 180 ° C.
The second comparison circuit (24B) outputs "H" to the second AND circuit (24D) and the second one-shot circuit (25A).
Give a level signal. At this time, since the second one-shot circuit (25A) gives a positive pulse to the S input terminal of the flip-flop (25E), the Q output terminal of the flip-flop (25E) outputs an "H" level signal, but the UP switch (15A) As a result, the third one-shot circuit (25C) and the delay circuit (25D) operate, and a positive pulse is given to the R input terminal with a short delay, so that the Q output terminal immediately outputs the "L" level signal. Become. Therefore, the first AND circuit (17)
Since the "L" level signal is output irrespective of the change in the output of the comparison circuit (16B), the first and second timing means (18), (2)
0) is reset until the thermistor (4) detects 180 ° C., and the respective time counting means (18), (20)
Stops the timing operation and outputs an "L" level signal during that time. Accordingly, the second AND circuit (24D) outputs an "H" level signal, the transistor (24E) is turned on, the relay contact (24F) is closed, and the power supply to the heater (2) is started. When the base temperature rises and the thermistor (4) detects 180 ° C., the output of the second comparison circuit (24B) changes from an “H” level signal to an “L” level signal. And the second one-shot circuit (25A) flips the positive pulse in synchronization with the falling edge of the signal (25E).
The flip-flop (25E) supplies an "H" level signal from the Q output terminal to the first AND circuit (17). Thereafter, the second comparison circuit (24
B) alternately outputs “H” and “L” level signals at 180 ° C and controls the temperature of the base (1) to approximately 180 ° C by starting or stopping energization of the heater (2). However, the Q output terminal of the flip-flop (25E) keeps outputting the "H" level signal unless the UP, DOWN switches (15A) and (15B) are operated. Therefore, after the desired temperature is set, the first and second timing means (18) and (20) perform the timing operation by the fluctuation output of the attitude monitoring means (16) after the thermistor (4) detects the set temperature for the first time. Will start. In this state, if the iron is left in a horizontal state, the contact of the mercury switch (9) is opened, and the first comparison circuit (16B) outputs the "H" level signal to the first AND circuit (1).
7) to the first timing means (18),
The first clocking means (18) starts a clocking operation. Thereafter, when the iron is accelerated for use and the contact of the mercury switch (9) is closed, an "L" level signal is output from the first comparison circuit (16B), so that the first timing means (18)
The timer is reset, and the timer starts again with the opening of the contact of the mercury switch (9), but after 3 minutes without the acceleration of the iron as described above,
The first clock means outputs "H" level signal to the inverter (24C)
To the second AND circuit (24D) and to the second timing means (20), the heater (2) is de-energized irrespective of the output signal of the second comparison circuit (24B), and The timing means (20) starts the timing operation. Thereafter, when the iron is accelerated for use again and the contact of the mercury switch (9) is closed, an "L" level signal is output from the first comparison circuit (16B). )
Is reset and the output changes from an "H" level signal to an "L" level signal.
In the case of 0), the time count is reset, and the control means (24) restarts the control of the heater (2) by the output of the setting means (15). However, after the elapse of 10 minutes without the acceleration of the iron as described above, the second timing means (20) outputs the "H" level signal via the first OR circuit (22) to the first one-shot circuit (23). And the first one-shot circuit (23) outputs a positive pulse in synchronization with the rise of the signal.
Will be given to the R input of UP · DOWN counter (15C), O ₄ inputs of the decoder (15D) is to output a "H" level signal. Therefore, the output state of the setting means (15) becomes "OFF", and thereafter, the iron is accelerated to close the mercury switch (9), and the first and second timing means (18),
Even if (20) is reset, the power supply to the heater (2) is not started unless the desired temperature is set again by the UP switch (15A) or the DOWN switch (15B).

G) Effect of the Invention Since the present invention is configured as described above, after the energization of the heating means is cut off by leaving it for a predetermined time, the posture is changed within the predetermined time, thereby automatically setting by the setting means. Electricity to the heating means can be cut off even when the temperature is adjusted and the posture is changed after a predetermined time, and an electric iron which can improve safety and can be used very easily can be provided. Things.

[Brief description of the drawings]

FIG. 1 is a partial sectional view of an electric iron according to the present invention, and FIG. 2 is a schematic electric circuit diagram thereof. (1) Base, (2) Heating means, (15) Setting means, (16) Posture monitoring means, (18) First time measuring means, (20) Second time measuring Means, (23) Reset means, (24) Control means

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Munemin Okano 3-201 Minami-yoshi, Tottori-shi Tottori Sanyo Electric Co., Ltd. (72) Inventor Kazuyoshi Aoto 3-201 Minami-yoshi, Tottori-shi Tottori Sanyo Electric Co., Ltd.

Claims (1)

(57) [Claims] 1. A base, a heating means for heating the base, a setting means for setting a desired temperature of the base, an attitude monitoring means for monitoring the attitude of the base, and time keeping by a fluctuation output of the attitude monitoring means. First timer means for starting operation, control means for interrupting energization of the heating means by the output of the first time means after a predetermined time has elapsed, and second means for starting the time operation by the output of the first time means. An electric iron comprising: timer means; and reset means for resetting the setting means according to an output of the second timer means after a lapse of a predetermined time.