JPH0418880B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to an iron that automatically notifies that the base temperature of the iron has reached an appropriate temperature.

[Conventional technology]

Conventionally, in this type of iron, the appropriate temperature was indicated by a lamp linked to a thermostat.

[Problem to be solved by the invention]

However, the above configuration has the disadvantage that in order to determine when the lamp is turned on and when it is turned off, the iron must be seen, and it cannot be confirmed at all outside the field of vision.

To solve this problem, a buzzer circuit etc. is connected in parallel to the thermostat, for example, so that the buzzer sounds when the base temperature rises to a predetermined temperature and the thermostat turns off. It is possible to do so.

However, even after the base temperature reaches a predetermined temperature, the thermostat continues to turn on and off in order to adjust the temperature, and as a result, the buzzer circuit also operates intermittently, making it difficult for the person ironing. This is not desirable as a means to notify that the base temperature has reached the appropriate temperature, as it may cause discomfort and cause misunderstandings, such as when the buzzer sound stops, making people think that the base temperature has dropped. Nakatsuta.

Therefore, an object of the present invention is to provide a thermostat for controlling the temperature of the base, which is easy to check even from a remote location that the temperature of the base has reached an appropriate temperature, is easy to use, and does not require much effort. It is an object of the present invention to provide an iron that can notify that the base temperature has reached an appropriate temperature without being affected by the on/off of a heater energization/intermittent means such as the above.

[Means to solve the problem]

The iron of the present invention includes a base heated by a heater, a base temperature setting means for changing a set temperature in conjunction with a temperature setting operator for adjusting the temperature of the base, and a base part temperature setting means for changing the set temperature in conjunction with a temperature setting operator for adjusting the temperature of the base, and a base part temperature setting means for changing the set temperature, and an intermittent supply of electricity to the heater. temperature control means for controlling the temperature of the base part to the set temperature by the base part temperature setting means; temperature detection means disposed close to the base part to detect the base part temperature; and the temperature setting operator. alarm temperature setting means that performs the same temperature setting as the base temperature setting means in conjunction with the temperature setting means; and switching means that operates when the base temperature detected by the temperature detection means reaches the temperature set by the alarm temperature setting means. and a notification means that operates in response to the operation of the switching means, and a timer means that stops the operation of the notification means after a predetermined period of time has elapsed after the start of the operation.

[Effect]

According to the configuration of the present invention, when the base temperature detected by the temperature detection means reaches the temperature set by the alarm temperature setting means, the switching means is activated, the notification means is activated, and the base temperature reaches the appropriate temperature. inform about something. As a result, the user from a remote location can easily know when the base temperature of the iron has reached the appropriate temperature, and the iron can be used efficiently and safely.

Further, when the base temperature detected by the temperature detection means exceeds the set temperature to be notified by the notification temperature setting means, the notification means is actuated by a switching means provided separately from the temperature control means, and the notification means is actuated by a timer means. Since the operation is stopped after a predetermined period of time has elapsed, the base temperature reaches the appropriate temperature that should be reported without being affected by the on/off of heater energization/intermittent means such as a thermostat for controlling the temperature of the base. Therefore, inconveniences such as intermittent operation of the notification means or continuous ringing due to the control operation of the base temperature do not occur. Furthermore, even if the heater energization/intermittent means such as a thermostat for temperature control malfunctions and cannot cut off the energization to the heater, causing the base temperature to rise excessively, it is possible to issue a notification without any problems. .

Moreover, since the alarm temperature setting means changes the set temperature to be notified in conjunction with the temperature setting operator for adjusting the base temperature, the temperature setting operator can be operated to adjust the base temperature, that is, change the setting. The temperature to be notified can be automatically changed in conjunction with the temperature setting when the temperature setting controller is used to change the notification temperature manually. It is.

Therefore, this iron is extremely easy to use.

〔Example〕

An embodiment of the present invention will be described based on FIGS. 1 and 2. As shown in Figure 1, this iron is equipped with a function to automatically notify when the base temperature of the iron has reached an appropriate temperature, and the base part is heated by a heater (not shown). A heat-sensitive element (temperature detection means) 1 which is placed close to the base and detects the base temperature, that is, generates a voltage between terminals corresponding to the base temperature, and a temperature setting dial (second temperature setting dial) which is a temperature setting operator for adjusting the base temperature.
(See figure) Corresponds to the difference between the voltage between the terminals of the thermosensitive element 1 and the voltage between the terminals of the variable resistor VR. a temperature detection bridge circuit 2 that outputs a voltage of It is equipped with a buzzer circuit (notification means) 4 that is activated when the base temperature detected by the controller reaches the temperature set by the variable resistor VR.

In FIG. 1, 5 is a commercial power source, and 6 is a transformer that steps down the voltage. A rectifying bridge circuit 7 rectifies alternating current into direct current, and is used to supply direct current power to the temperature detection circuit 2 and the buzzer circuit 4. In addition, the rotating shaft of the temperature setting dial D shown in Fig. 2 is equipped with a base temperature control dial.
In other words, a thermostat (not shown) for setting and controlling the temperature of the base is connected, and the iron heater is configured to control the temperature of the base almost constant by turning on and off the electricity to the iron heater according to the temperature of the base. By operating the temperature setting dial D, the amount of heat generated by the iron heater can be selected and set, that is, the base temperature can be adjusted. In addition, the temperature control circuit including the iron heater and thermostat, etc.
Although not shown in FIG. 1, it is naturally housed inside the iron shown in FIG. and,
The rotating shaft of the variable resistor VR is connected to the rotating shaft of the temperature setting dial D, together with the rotating shaft of the temperature adjusting means such as the thermostat mentioned above, and the rotating shaft of the variable resistor VR is connected to the rotating shaft of the temperature setting dial D. Temperature setting/control means and variable resistor VR
The rotation axes of the two rotate in conjunction with each other.

A thermistor is used as the heat-sensitive element 1, and the temperature detection bridge circuit 2 is composed of the heat-sensitive element 1 made of the thermistor, a variable resistor VR, and other first and second resistance elements _R1 and _R2 . There is.

The switching circuit 3 includes an NPN transistor Q ₁ whose base and collector are connected between the terminals of the thermal element 1 of the temperature detection bridge circuit 2;
It is composed of a thyristor SOR that receives the output of the NPN transistor Q ₁ as a gate trigger signal to its gate terminal and turns on.As the temperature of the base increases, the resistance of the thermal element 1 consisting of a thermistor decreases and the temperature detection bridge circuit 2 is activated. When the output voltage of increases and exceeds a certain level, the NPN transistor _Q1 changes from the off state to the on state,
The thyristor SCR becomes conductive and the buzzer circuit 4 is driven.

The buzzer circuit 4 includes transistors Q ₂ and Q ₃ , capacitors C ₁ to C ₄ , resistors R ₄ to R ₉ , a diode D ₅ , and a buzzer BZ.

Here, the operation of the buzzer circuit 4 will be explained.

This buzzer circuit 4 is a PNP type transistor.
Q ₂ and an NPN transistor Q ₃ constitute a complementary oscillation circuit, and a resistor R ₇ and a capacitor C ₃ are connected in the feedback path from the collector of the PNP transistor Q ₂ to the base of the NPN transistor Q ₃ . The oscillation circuit consisting of the transistors Q ₂ and Q ₃ is repeatedly turned on and off at a frequency determined by the time constant of the resistor R ₇ and the capacitor C ₃ due to the feedback operation, thereby sustaining the oscillation operation.
And the buzzer BZ as a load of transistor Q ₂
is connected, a current will intermittently flow through the buzzer BZ at the above frequency as the transistor _Q2 turns on and off, thereby generating a buzzer sound.

When the transistor _Q1 of the switching circuit 3 turns on and the thyristor SCR becomes conductive, the buzzer circuit 4 starts to receive power from the commercial power supply 5 through the transformer 6 and the rectifier bridge circuit 7, and the above-mentioned oscillation operation starts and the buzzer starts. The sound will begin to play.

Furthermore, even if the temperature between the terminals of the heat-sensitive element 1 is the same, that is, the resistance value of the heat-sensitive element 1 is the same, the voltage between the terminals of the heat-sensitive element 1 can be changed by changing the resistance value of the variable resistor VR, that is, the temperature setting dial of the iron. The level of the output voltage of the temperature detection bridge circuit 2 can be changed in accordance with the adjustment of the base temperature by D, that is, the setting change of the base temperature.
Due to this change in resistance of the variable resistor VR, the NPN transistor Q ₁ is turned on in conjunction with the temperature adjustment by the temperature setting dial D, that is, in response to the output corresponding to the temperature set by the temperature setting dial D. The temperature at which the buzzer circuit 4 operates is changed by changing the temperature at which the buzzer circuit 4 operates. In other words, by setting the temperature of the iron to a predetermined value with the temperature setting dial D, it is possible to automatically adjust the buzzer BZ to sound at that temperature.In other words, the set temperature of the iron can be changed with the temperature setting dial D. Then,
This allows automatic adjustment so that the buzzer BZ sounds according to the changed settings.

Although not shown, a timer circuit is added to the buzzer circuit 4, and after the buzzer BZ starts sounding,
It is configured to automatically stop driving the buzzer BZ after a predetermined period of time has elapsed. By configuring it this way, even if you are unable to iron for a while because you cannot use your hands due to other work, the buzzer BZ will not continue to ring forever, and the buzzer sound will become a noise. Moreover, since the worker does not have to stop the buzzer BZ, the worker can work efficiently.

Furthermore, it goes without saying that the heat-sensitive element 1 constituting the temperature detection circuit 2 is not limited to the thermistor, but may be composed of a thermocouple or other heat-sensitive body.

With this configuration, when the temperature setting dial D of the iron is operated to change the set temperature of the base part, the resistance value of the variable resistor VR is changed correspondingly to the set temperature of the base part of the iron. , the buzzer BZ will automatically notify you that the temperature of the base has risen to a certain level, that is, that it has reached the appropriate temperature, so you will know this even if you are away from the iron and doing other work. This makes ironing work more efficient, without the inconvenience of not being able to tell when the iron has reached the appropriate temperature without paying attention to the lighting of the lamp linked to the thermostat and looking at the iron, unlike in the case of conventional ironing. becomes possible. In addition, it is possible to prepare for ironing by making effective use of the waiting time, and it is possible to eliminate wasteful consumption of power due to leaving the iron unattended even though the set temperature has been reached. Furthermore, it is also possible to solve the problem of starting to use the iron before the set temperature is reached and not achieving the effect of smoothing out wrinkles, and the problem of steam irons causing water leakage and staining clothes.

Further, when the base temperature detected by the heat-sensitive element 1 exceeds the set temperature to be notified by the variable resistor VR, the switching circuit 3 is turned on and the buzzer circuit 4 is activated, and after the buzzer circuit 4 is activated by the timer means. Since the operation is stopped after a predetermined period of time has elapsed, the base temperature reaches the appropriate temperature that should be reported without being affected by the on/off of the heater energization/intermittent means such as the thermostat for setting and controlling the temperature of the base. Therefore, there will be no inconvenience such as the operation of the notifying means being cut off or the notifying means continuing to sound due to the operation of adjusting the temperature of the base portion. Furthermore, even if the heater energization/intermittent means such as a thermostat for temperature control fails and cannot cut off the energization to the heater, causing the base temperature to rise excessively, it is possible to issue a notification without any problems. can.

Moreover, the variable resistor VR adjusts the set temperature to be notified in conjunction with the temperature setting dial D for base temperature adjustment, so when the base temperature setting is changed by operating the temperature setting dial D. The set temperature to be notified can also be changed automatically in conjunction with the system, and there is no need to manually change the notification temperature when adjusting the base temperature by operating the temperature setting dial D.

Therefore, this iron is extremely easy to use.

In this example, the notification of the temperature of the base portion of an iron has been described, but it goes without saying that the present invention can also be applied to notification of the temperature of other heat generating devices.

Another embodiment of the invention will be described based on FIG. This iron uses a buzzer circuit 4' in place of the buzzer circuit 4 of the previous embodiment. In this buzzer circuit 4', a second heat-sensitive element 8 made of a thermistor or the like is connected to a feedback circuit part made of a series circuit of a capacitor _C3 and a resistive element _R7 that determines the oscillation frequency.

The heat-sensitive element 8, like the heat-sensitive element 1 constituting the temperature detection bridge circuit 2, is placed close to the temperature-sensed portion, that is, the base portion of the iron.

Note that the other configurations are the same as those in the previous embodiment.

With this configuration, the pitch of the buzzer BZ changes depending on the set temperature, and at the beginning of use,
The temperature at which the iron is set can be known from the notified sound, and it is possible to prevent damage to clothes that would otherwise occur if the operator incorrectly sets the temperature. In addition, as the temperature of the base increases, the pitch of the buzzer BZ changes, and even if you are far away, you can tell if the iron is overheating from the change in pitch, and you can prevent accidents caused by overheating. can.

Other effects are similar to those of the previous embodiment.

〔Effect of the invention〕

According to the iron of the present invention, when the base temperature detected by the setting detection means reaches the set temperature by the notification temperature setting means, the notification means operates to notify that the base temperature has reached the set temperature, that is, the appropriate temperature. inform. As a result, the user from a remote location can easily know when the base temperature of the iron has reached the appropriate temperature, and the iron can be used efficiently and safely.

Further, when the base temperature detected by the temperature detection means exceeds the set temperature to be notified by the notification temperature setting means, the notification means is actuated by a switching means provided separately from the temperature control means, and the notification means is actuated by a timer means. Since the operation is stopped after a predetermined period of time has elapsed, the base temperature reaches the appropriate temperature that should be reported without being affected by the on/off of heater energization/intermittent means such as a thermostat for controlling the temperature of the base. Therefore, inconveniences such as intermittent operation of the notifying means or continuous ringing due to the base part temperature adjustment operation do not occur. Furthermore, even if the heater energization/intermittent means such as a thermostat for temperature control malfunctions and cannot cut off the energization to the heater, causing the base temperature to rise excessively, it is possible to issue a notification without any problems. .

Moreover, since the alarm temperature setting means changes the set temperature to be notified in conjunction with the temperature setting operator for adjusting the base temperature, the temperature setting operator can be operated to adjust the base temperature, that is, change the setting. The temperature to be notified can be automatically changed in conjunction with the temperature setting when the temperature setting controller is used to change the notification temperature manually. It is.

Therefore, this iron is extremely easy to use.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing one embodiment of the present invention, FIG. 2 is an external perspective view thereof, and FIG. 3 is a partial circuit diagram showing another embodiment of the invention. 1... Heat sensitive element (temperature detection means), 2... Temperature detection bridge circuit, 3... Switching circuit,
4, 4'... Buzzer circuit (notification means), 5... Commercial power supply, 6... Transformer, 7... Rectifier bridge circuit, 8... Heat sensitive element (second), VR... Variable resistor (notification temperature setting means), R ₁ , R ₂ ...resistance element,
SCR...Thyristor, BZ...Buzzer, D...Temperature setting dial (temperature setting operator).

Claims (1)

[Claims] 1. A base heated by a heater, a base temperature setting means for changing a set temperature in conjunction with a temperature setting operator for adjusting the temperature of the base, and a base heated by intermittent energization of the heater. temperature control means for controlling the temperature of the base part to a set temperature by the part temperature setting means; temperature detection means disposed close to the base part to detect the base part temperature; an alarm temperature setting means that sets the same temperature as the temperature setting means; a switching means that operates when the base temperature detected by the temperature detection means reaches a temperature set by the alarm temperature setting means;
An iron comprising a notification means which operates in response to the operation of the switching means, and a timer means which causes the notification means to stop operating after a predetermined period of time has elapsed after the start of the operation.