JPH04319397A - Iron device - Google Patents
Iron deviceInfo
- Publication number
- JPH04319397A JPH04319397A JP8678791A JP8678791A JPH04319397A JP H04319397 A JPH04319397 A JP H04319397A JP 8678791 A JP8678791 A JP 8678791A JP 8678791 A JP8678791 A JP 8678791A JP H04319397 A JPH04319397 A JP H04319397A
- Authority
- JP
- Japan
- Prior art keywords
- temperature
- base
- heating
- detected
- soleplate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 title 2
- 229910052742 iron Inorganic materials 0.000 title 1
- 238000010438 heat treatment Methods 0.000 claims abstract description 56
- 238000001514 detection method Methods 0.000 claims abstract description 27
- 238000010409 ironing Methods 0.000 claims description 4
- 239000004744 fabric Substances 0.000 abstract 1
- 230000001105 regulatory effect Effects 0.000 abstract 1
- 101150071403 INP1 gene Proteins 0.000 description 6
- 238000010586 diagram Methods 0.000 description 5
- 101150016601 INP2 gene Proteins 0.000 description 4
- 230000004397 blinking Effects 0.000 description 1
- 230000003111 delayed effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000014509 gene expression Effects 0.000 description 1
- 235000000396 iron Nutrition 0.000 description 1
Landscapes
- Irons (AREA)
Abstract
Description
【0001】0001
【産業上の利用分野】本発明は、実際のベ−ス掛け面の
温度に応じたベースの加熱と適温報知を行うアイロン装
置に関すものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ironing device that heats a base in accordance with the actual temperature of the surface on which the base is hung and notifies the appropriate temperature.
【0002】0002
【従来の技術】従来のアイロン(例えば、特開昭58−
112588号公報)においては、サーミスタなどの温
度検出素子によってベース温度を検出し、図6のように
検出温度Tkが設定温度Tsに達するとヒータへの通電
を停止する構成である。ところが、初期加熱時のように
ヒータへの通電時間が長くベースの温度上昇率が大きい
場合は、熱遅延によってベース温度Tbと検出温度Tk
との温度差がだんだんと大きくなり、検出温度Tkより
も実際のベース温度Tbのほうがかなり高くなる(オー
バーシュート)という問題があった。[Prior Art] Conventional irons (for example, Japanese Patent Application Laid-open No.
112588), the base temperature is detected by a temperature detection element such as a thermistor, and as shown in FIG. 6, when the detected temperature Tk reaches the set temperature Ts, the power supply to the heater is stopped. However, when the heater is energized for a long time and the temperature rise rate of the base is large, such as during initial heating, the base temperature Tb and the detected temperature Tk are
There is a problem in that the temperature difference between the base temperature and the base temperature gradually increases, and the actual base temperature Tb becomes considerably higher than the detected temperature Tk (overshoot).
【0003】また、適温を報知する場合においても、検
出温度Tkが実際のベース温度Tbより低いので、ベー
ス温度は適温範囲に達しているにもかかわらず、適温の
報知が遅れるという問題があった。[0003] Also, when notifying the appropriate temperature, since the detected temperature Tk is lower than the actual base temperature Tb, there is a problem in that the notification of the appropriate temperature is delayed even though the base temperature has reached the appropriate temperature range. .
【0004】0004
【発明が解決しようとする課題】本発明は、検出したベ
−ス温度と実際のベース温度との間に差があってもそれ
を補正して、実際のベース温度に応じて適切な温度制御
、及び適温報知を行うアイロン装置を提供するものであ
る。[Problems to be Solved by the Invention] According to the present invention, even if there is a difference between the detected base temperature and the actual base temperature, the difference is corrected and temperature control is performed appropriately according to the actual base temperature. , and an ironing device that notifies the appropriate temperature.
【0005】[0005]
【課題を解決するための手段】第1の発明は、ベースを
加熱する加熱手段と、前記ベースの温度を検出する温度
検出手段と、該温度検出手段の出力の変化に応じて該温
度検出手段の出力する検出温度の補正温度を決定する補
正温度決定手段と、前記ベースの温度を設定する温度設
定手段と、該温度設定手段の出力する制御温度と前記ベ
ースの検出温度及び前記補正温度に基づいて前記加熱手
段を制御する制御手段を具備する構成とする。[Means for Solving the Problems] A first invention provides a heating means for heating a base, a temperature detecting means for detecting the temperature of the base, and a temperature detecting means according to a change in the output of the temperature detecting means. a corrected temperature determining means for determining a corrected temperature for the detected temperature outputted by the temperature setting means; a temperature setting means for setting the temperature of the base; and a control temperature outputted by the temperature setting means, based on the detected temperature of the base and the corrected temperature. and a control means for controlling the heating means.
【0006】第2の発明は、ベースを加熱する加熱手段
と、前記ベースの温度を検出する温度検出手段と、該温
度検出手段の出力の変化に応じて該温度検出手段の出力
する検出温度の補正温度を決定する補正温度決定手段と
、報知手段と、前記ベースの温度を設定する温度設定手
段と、該温度設定手段の出力する適温判定温度と前記ベ
ースの検出温度及び前記補正温度に基づいて前記報知手
段を制御する制御手段を具備する構成とする。[0006] A second invention includes a heating means for heating the base, a temperature detecting means for detecting the temperature of the base, and a detection temperature output from the temperature detecting means according to a change in the output of the temperature detecting means. a correction temperature determining means for determining a correction temperature, a notification means, a temperature setting means for setting the temperature of the base, and an appropriate temperature determination temperature output from the temperature setting means, a detected temperature of the base, and the correction temperature. The apparatus is configured to include a control means for controlling the notification means.
【0007】[0007]
【作用】第1の発明によれば、検出したベース温度の変
化に応じ、検出したベース温度と実際のベース温度間の
差である補正温度を求め、温度設定手段の出力する制御
温度、若しくは検出されたベース温度に前記補正温度に
応じた補正を行い、実際のベース温度に即した加熱制御
を実行する。[Operation] According to the first invention, the correction temperature, which is the difference between the detected base temperature and the actual base temperature, is determined according to the change in the detected base temperature, and the control temperature output by the temperature setting means or the detected temperature is determined. The corrected base temperature is corrected according to the corrected temperature, and heating control is performed in accordance with the actual base temperature.
【0008】第2の発明によれば、検出したベース温度
の変化に応じ、検出したベース温度と実際のベース温度
間の差である補正温度を求め、温度設定手段の出力する
適温判定温度、若しくは検出されたベース温度に前記補
正温度に応じた補正を行い、実際のベース温度に即した
適温表示を実行する。According to the second aspect of the invention, a correction temperature, which is the difference between the detected base temperature and the actual base temperature, is determined in accordance with a change in the detected base temperature, and the corrected temperature is determined as the appropriate temperature judgment temperature outputted by the temperature setting means. The detected base temperature is corrected according to the corrected temperature, and an appropriate temperature display corresponding to the actual base temperature is executed.
【0009】[0009]
【実施例】以下、本発明の実施例を図面を参照して説明
する。図1、図2において、(1)はスイッチ(14)
の操作に応じてベース(10)の温度を設定する温度設
定手段で、ベース制御温度Tsと適温判定温度Ttを出
力する。(2)はベース(10)の上面に固着したサー
ミスタなどで構成される温度検出手段で、検出温度Tk
を出力する。(3)は温度検出手段(2)の検出温度T
kとベース(10)の掛け面(11)の実際の温度Tb
との温度差を補正するための補正温度△Tsを求める補
正温度決定手段で、前記温度検出手段(2)の所定時間
(3秒)毎の出力変化を求める温度変化率検出手段(4
)と前記ベース(10)の加熱時間を計時する加熱時間
計時手段(5)を備え、温度変化率検出手段(4)と加
熱時間計時手段(5)の両者あるいはいずれか一方の出
力に基づいて補正温度△Tsを決定する。(6)はベー
ス(10)を加熱するヒータなどの加熱手段、(7)は
LEDランプ(12)、ブザー(13)などで構成され
る報知手段である。Embodiments Hereinafter, embodiments of the present invention will be described with reference to the drawings. In Figures 1 and 2, (1) is a switch (14)
Temperature setting means for setting the temperature of the base (10) according to the operation outputs the base control temperature Ts and the appropriate temperature determination temperature Tt. (2) is a temperature detection means composed of a thermistor etc. fixed to the upper surface of the base (10), and the detected temperature Tk
Output. (3) is the detected temperature T of the temperature detection means (2)
k and the actual temperature Tb of the hanging surface (11) of the base (10)
temperature change rate detection means (4) for determining the output change every predetermined time (3 seconds) of the temperature detection means (2);
) and a heating time measuring means (5) for measuring the heating time of the base (10), based on the output of both or either of the temperature change rate detecting means (4) and the heating time measuring means (5). Determine the corrected temperature ΔTs. (6) is a heating means such as a heater for heating the base (10), and (7) is a notification means composed of an LED lamp (12), a buzzer (13), etc.
【0010】(8)は前記ベース制御温度Ts、前記検
出温度Tk及び前記補正温度△Tsに基づいて前記加熱
手段(6)を制御する加熱制御手段である。(9)は前
記適温判定温度Tt、前記検出温度Tk及び前記補正温
度△Tsに基づいて前記報知手段(7)を制御する適温
報知制御手段である。(8) is a heating control means for controlling the heating means (6) based on the base control temperature Ts, the detected temperature Tk and the corrected temperature ΔTs. (9) is an appropriate temperature notification control means that controls the notification means (7) based on the appropriate temperature determination temperature Tt, the detected temperature Tk, and the corrected temperature ΔTs.
【0011】上記の構成における動作について説明する
と、使用者が希望の温度に設定すると、温度設定手段(
1)は設定に応じて制御温度Tsと適温判定温度Ttを
出力し、報知手段(7)は設定と対応するLEDランプ
を点滅表示することによりまだ適温ではないことを示す
。そして、加熱手段(6)によりベ−ス(10)の加熱
が始まり、図3に示すようにベ−ス掛け面温度Tbと温
度検出手段(2)の検出温度Tkが上昇する。加熱開始
とともに加熱時間計時手段(5)は加熱時間の計時を開
始する。温度変化率検出手段(4)は3秒毎に温度の変
化量を検出する。図3に示すようにベース掛け面温度T
bと温度検出手段(2)の温度Tkとの差は大きくなり
、また、その差は温度の上昇率が大きい程、また、加熱
時間が長い程大きくなる。To explain the operation of the above configuration, when the user sets the desired temperature, the temperature setting means (
1) outputs the control temperature Ts and the appropriate temperature determination temperature Tt according to the settings, and the notification means (7) indicates that the temperature is not yet the appropriate temperature by blinking the LED lamp corresponding to the settings. Then, heating of the base (10) is started by the heating means (6), and as shown in FIG. 3, the base hanging surface temperature Tb and the detected temperature Tk of the temperature detecting means (2) rise. At the same time as the heating starts, the heating time measuring means (5) starts measuring the heating time. The temperature change rate detection means (4) detects the amount of change in temperature every 3 seconds. As shown in Figure 3, the base hanging surface temperature T
The difference between b and the temperature Tk of the temperature detection means (2) becomes larger, and the difference becomes larger as the rate of increase in temperature becomes larger and as the heating time becomes longer.
【0012】この特性を利用し、補正温度決定手段(3
)は温度変化率検出手段(4)の出力である温度勾配d
T/dt、加熱時間計時手段(5)の出力tから、温度
検出手段(2)の検出温度Tkとベ−ス掛け面(11)
の温度Tbとの差をファジィ推論により3秒毎に推定し
て補正温度△Tsを逐次求める。Utilizing this characteristic, the correction temperature determining means (3
) is the temperature gradient d which is the output of the temperature change rate detection means (4)
T/dt, the output t of the heating time measuring means (5), the detected temperature Tk of the temperature detecting means (2) and the base hanging surface (11).
The corrected temperature ΔTs is successively obtained by estimating the difference between the temperature Tb and the temperature Tb every 3 seconds using fuzzy inference.
【0013】ここで、ファジィ推論則を用いた補正温度
△Tsの決定について説明すると、本実施例においては
第1の入力として加熱時間計時手段(5)の出力t(以
下オン時間INP1という)、第2の入力として、温度
変化率検出手段(4)の出力dT/dt(以下温度勾配
INP2という)を設定し、出力(OUT)として温度
検出手段(2)の検出温度とベ−ス掛け面(11)の温
度差を示す補正温度△Tsを設定しており、図4に示す
9通りのルールをあらかじめ設定している。[0013] Here, to explain the determination of the corrected temperature ΔTs using fuzzy inference rules, in this embodiment, the first input is the output t of the heating time measuring means (5) (hereinafter referred to as on-time INP1); The output dT/dt (hereinafter referred to as temperature gradient INP2) of the temperature change rate detection means (4) is set as the second input, and the detected temperature of the temperature detection means (2) and the base hanging surface are set as the output (OUT). A corrected temperature ΔTs indicating the temperature difference in (11) is set, and nine rules shown in FIG. 4 are set in advance.
【0014】ルールを2例示すと、1つの例は加熱手段
(6)の加熱時間INP1が長く(L)、温度勾配IN
P2が大(L)であれば、補正温度△Tsを大きく(L
)するというもので、(if INP1=L an
dINP2=L then OUT=L)のように
示される。またもう1つの例は、加熱手段(6)の加熱
時間INP1が短く(S)、温度勾配INP2がほぼ0
(ZN)であれば、補正温度△Tsをほぼ0(ZN)と
するというもので、(if INP1=S and
INP2=ZN then OUT=ZN)のよう
に示される。
このようにあいまいな表現で示される制御ルールは図5
に示すようにメンバシップ関数によって定量的に表現さ
れ、例えばMAX−MIN合成重心法を用いて演算処理
可能となる。[0014] Two examples of rules are shown. One example is that the heating time INP1 of the heating means (6) is long (L) and the temperature gradient IN
If P2 is large (L), the correction temperature △Ts is increased (L).
), (if INP1=L an
dINP2=L then OUT=L). Another example is that the heating time INP1 of the heating means (6) is short (S) and the temperature gradient INP2 is almost 0.
(ZN), the corrected temperature △Ts is approximately 0 (ZN), and (if INP1=S and
INP2=ZN then OUT=ZN). The control rules expressed in such ambiguous expressions are shown in Figure 5.
It is expressed quantitatively by a membership function as shown in FIG.
【0015】そして、加熱制御手段(8)は温度検出手
段(2)の出力Tkに補正温度△Tsを加えてベース掛
け面(11)の推定温度Thを求めて推定温度Thと制
御温度Tsとを比較し、Thの方が高くなったら加熱手
段(6)による加熱を停止する(制御温度Tsから補正
温度△Tsを引いた温度(Th’)と温度検出手段(2
)の検出温度Tkとを比較し、検出温度Tkの方が高く
なったら加熱停止してもよい)。加熱停止時、加熱時間
計時手段(5)は計時を停止し、それまでの計時時間を
保持する。Then, the heating control means (8) adds the corrected temperature ΔTs to the output Tk of the temperature detection means (2) to obtain the estimated temperature Th of the base hanging surface (11), and calculates the estimated temperature Th and the control temperature Ts. is compared, and when Th becomes higher, the heating by the heating means (6) is stopped (temperature (Th') obtained by subtracting the correction temperature ΔTs from the control temperature Ts and the temperature detection means (2).
) and the detected temperature Tk, and if the detected temperature Tk becomes higher, the heating may be stopped). When heating is stopped, the heating time measuring means (5) stops measuring time and maintains the time measured up to that point.
【0016】従って、ベース(10)の加熱状態に応じ
、加熱手段(6)の加熱を停止する際のベース制御温度
Tsと検出温度Tkの温度差は逐次変化する。例えば、
初期加熱時はその温度差が大きくなり、検出温度Tkが
ベース制御温度Tsよりもかなり低い時に加熱が停止さ
れ、オーバーシュートを防止し、設定温度に達した後は
、その温度差が小さくなり、検出温度Tkがベース制御
温度Tsとほぼ同じ時に加熱が停止され、正確な温度制
御を可能とする。Therefore, depending on the heating state of the base (10), the temperature difference between the base control temperature Ts and the detected temperature Tk when heating of the heating means (6) is stopped changes successively. for example,
During initial heating, the temperature difference becomes large, and heating is stopped when the detected temperature Tk is considerably lower than the base control temperature Ts to prevent overshoot, and after reaching the set temperature, the temperature difference becomes smaller. Heating is stopped when the detected temperature Tk is approximately the same as the base control temperature Ts, allowing accurate temperature control.
【0017】また、適温報知制御手段(9)はベ−ス掛
け面推定温度Thと適温判定温度Ttとを比較し、Th
が適温判定温度Tt以上となったら報知手段(7)のL
EDランプを点滅から点灯に変え、適温範囲内に入った
事を使用者に知らせる。また同様に、ベ−ス掛け面推定
温度Thとベース制御温度Tsを比較しThの方が高く
なったら適温報知手段(7)のブザーにより適温になっ
たことを報知する。尚、ブザーによる報知は、前述のL
EDランプを点滅から点灯に変える時と同時でもよい。
この場合も、上述した加熱停止の場合と同様に適温判定
温度Ttあるいは制御温度Tsから補正温度△Tsを引
いた温度Tt’あるいはTh’と温度検出手段(2)の
検出温度Tkとの比較を行ってもよい。Further, the appropriate temperature notification control means (9) compares the estimated base hanging surface temperature Th with the appropriate temperature judgment temperature Tt, and
When the temperature becomes equal to or higher than the appropriate temperature judgment temperature Tt, the L of the notification means (7) is turned on.
The ED lamp changes from flashing to lit to notify the user that the temperature has fallen within the appropriate temperature range. Similarly, the estimated base hanging surface temperature Th and the base control temperature Ts are compared, and if Th becomes higher, the buzzer of the appropriate temperature notification means (7) notifies that the temperature has become appropriate. In addition, the notification by buzzer is the same as the above-mentioned L.
It may be done at the same time as changing the ED lamp from flashing to lighting. In this case as well, as in the case of stopping heating described above, the temperature Tt' or Th' obtained by subtracting the correction temperature ΔTs from the appropriate temperature determination temperature Tt or the control temperature Ts is compared with the detected temperature Tk of the temperature detection means (2). You may go.
【0018】ベースの温度が下がり始め、温度変化率検
出手段(4)により検出温度Tkの変化がマイナスにな
った事を検出すると、補正温度決定手段(3)は温度変
化がマイナスの間、補正温度△Tsを0とし同時に加熱
時間計時手段(5)の内容をリセットする。これにより
、ベ−ス掛け面推定温度Thは温度検出手段(2)の出
力Tkと同じになるが、もし推定温度Thが制御温度T
sより低ければ再び加熱手段(4)より加熱が開始され
ることになる。When the temperature of the base begins to drop and the temperature change rate detection means (4) detects that the change in the detected temperature Tk has become negative, the correction temperature determination means (3) performs correction while the temperature change is negative. The temperature ΔTs is set to 0, and at the same time, the contents of the heating time measuring means (5) are reset. As a result, the estimated temperature Th of the base hanging surface becomes the same as the output Tk of the temperature detection means (2), but if the estimated temperature Th is the control temperature T
If it is lower than s, the heating means (4) will start heating again.
【0019】本実施例では、検出温度の勾配、加熱時間
の両者に応じてファジィ推論則によってベース掛け面温
度と検出温度間の補正温度を求める構成としたが、検出
温度の勾配、加熱時間の一方を用いてもよいし、ファジ
ィ推論則以外の他の演算によって求めても同様の効果は
得られる。また補正温度△Tsを0とする時点を、温度
勾配dT/dtがマイナスになったときとしたが、ベー
スと温度検出手段の熱伝導の性能によっては、プラスの
所定値以下あるいは0になった時とした方が良い場合も
ある。In this embodiment, the correction temperature between the base hanging surface temperature and the detected temperature is calculated using fuzzy inference rules according to both the gradient of the detected temperature and the heating time. The same effect can be obtained by using either one or by other calculations than the fuzzy inference rule. In addition, the point at which the corrected temperature △Ts is set to 0 is when the temperature gradient dT/dt becomes negative, but depending on the thermal conductivity performance of the base and temperature detection means, it may be below a predetermined positive value or become 0. Sometimes it's better to wait.
【0020】[0020]
【発明の効果】以上のように、第1の発明によれば、検
出したベース温度の変化に応じ、検出したベース温度と
実際のベース温度間の差である補正温度を求め、温度設
定手段の出力する制御温度、若しくは検出されたベース
温度に前記補正温度に応じた補正を行い、実際のベース
温度に即した加熱制御を実行することができ、ベース温
度が設定温度よりも大幅に高くなって衣類を痛めたりす
るという事態を未然に防止できる。As described above, according to the first invention, the correction temperature, which is the difference between the detected base temperature and the actual base temperature, is determined in accordance with the detected change in the base temperature, and the temperature setting means is adjusted. The control temperature to be output or the detected base temperature can be corrected according to the correction temperature to perform heating control according to the actual base temperature, and the base temperature can be significantly higher than the set temperature. It is possible to prevent a situation in which clothes are damaged.
【0021】また、第2の発明によれば、検出したベー
ス温度の変化に応じ、検出したベース温度と実際のベー
ス温度間の差である補正温度を求め、温度設定手段の出
力する適温判定温度、若しくは検出されたベース温度に
前記補正温度に応じた補正を行い、実際のベース温度に
即した適温表示を実行することができ、使用可能な温度
となったことを使用者に素早く知らせて使い勝手を向上
できる。Further, according to the second invention, a correction temperature, which is the difference between the detected base temperature and the actual base temperature, is determined in accordance with a change in the detected base temperature, and the appropriate temperature judgment temperature output by the temperature setting means is determined. Alternatively, the detected base temperature can be corrected according to the correction temperature, and an appropriate temperature display can be performed according to the actual base temperature, and the user can be quickly informed that the temperature has reached a usable temperature, making it easier to use. can be improved.
【図1】本発明の実施例を示すブロック図である。FIG. 1 is a block diagram showing an embodiment of the present invention.
【図2】同実施例の断面図である。FIG. 2 is a sectional view of the same embodiment.
【図3】同実施例の動作を説明するための説明図である
。FIG. 3 is an explanatory diagram for explaining the operation of the embodiment.
【図4】ファジィ制御のルールを示す説明図である。FIG. 4 is an explanatory diagram showing fuzzy control rules.
【図5】ファジィ制御のメンバーシップ関数を示し、同
図(a)はINP1、同図(b)はINP2、同図(c
)はOUTのメンバーシップを示す関係図である。FIG. 5 shows the membership functions of fuzzy control; FIG. 5(a) shows INP1, FIG. 5(b) shows INP2, and FIG.
) is a relationship diagram showing the membership of OUT.
【図6】従来例の動作を説明するための説明図である。FIG. 6 is an explanatory diagram for explaining the operation of the conventional example.
1 温度設定手段 2 温度検出手段 3 補正温度決定手段 6 加熱手段 7 報知手段 8 加熱制御手段 9 適温報知制御手段 1 Temperature setting means 2 Temperature detection means 3 Correction temperature determining means 6 Heating means 7 Notification means 8 Heating control means 9. Appropriate temperature notification control means
Claims (2)
ースの温度を検出する温度検出手段と、該温度検出手段
の出力の変化に応じて該温度検出手段の出力する検出温
度の補正温度を決定する補正温度決定手段と、前記ベー
スの温度を設定する温度設定手段と、該温度設定手段の
出力する制御温度と前記ベースの検出温度及び前記補正
温度に基づいて前記加熱手段を制御する制御手段を具備
するアイロン装置。1. A heating device for heating a base, a temperature detection device for detecting the temperature of the base, and a correction temperature for the detected temperature output by the temperature detection device according to a change in the output of the temperature detection device. a temperature setting means for setting the temperature of the base; and a control means for controlling the heating means based on the control temperature output by the temperature setting means, the detected temperature of the base, and the correction temperature. Ironing equipment provided.
ースの温度を検出する温度検出手段と、該温度検出手段
の出力の変化に応じて該温度検出手段の出力する検出温
度の補正温度を決定する補正温度決定手段と、報知手段
と、前記ベースの温度を設定する温度設定手段と、該温
度設定手段の出力する適温判定温度と前記ベースの検出
温度及び前記補正温度に基づいて前記報知手段を制御す
る制御手段を具備するアイロン装置。2. A heating device for heating a base, a temperature detection device for detecting the temperature of the base, and a correction temperature for the detected temperature output by the temperature detection device according to a change in the output of the temperature detection device. a corrected temperature determining means for setting the temperature of the base; a temperature setting means for setting the temperature of the base; and a corrected temperature determining means for setting the temperature of the base; An ironing device comprising control means for controlling.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP08678791A JP3182162B2 (en) | 1991-04-18 | 1991-04-18 | Ironing equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP08678791A JP3182162B2 (en) | 1991-04-18 | 1991-04-18 | Ironing equipment |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH04319397A true JPH04319397A (en) | 1992-11-10 |
JP3182162B2 JP3182162B2 (en) | 2001-07-03 |
Family
ID=13896473
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP08678791A Expired - Lifetime JP3182162B2 (en) | 1991-04-18 | 1991-04-18 | Ironing equipment |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3182162B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5780812A (en) * | 1993-07-29 | 1998-07-14 | U.S. Philips Corporation | Lamp heated iron with temperature control means |
US6172335B1 (en) * | 1999-08-27 | 2001-01-09 | Orcon Corporation | Carpet seaming iron with electronic temperature control |
-
1991
- 1991-04-18 JP JP08678791A patent/JP3182162B2/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5780812A (en) * | 1993-07-29 | 1998-07-14 | U.S. Philips Corporation | Lamp heated iron with temperature control means |
US6172335B1 (en) * | 1999-08-27 | 2001-01-09 | Orcon Corporation | Carpet seaming iron with electronic temperature control |
Also Published As
Publication number | Publication date |
---|---|
JP3182162B2 (en) | 2001-07-03 |
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