JPS62194895A - Cloth quality detector of washing maichine - Google Patents
Cloth quality detector of washing maichineInfo
- Publication number
- JPS62194895A JPS62194895A JP61036859A JP3685986A JPS62194895A JP S62194895 A JPS62194895 A JP S62194895A JP 61036859 A JP61036859 A JP 61036859A JP 3685986 A JP3685986 A JP 3685986A JP S62194895 A JPS62194895 A JP S62194895A
- Authority
- JP
- Japan
- Prior art keywords
- value
- current
- motor
- washing
- laundry
- 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
- 239000004744 fabric Substances 0.000 title claims description 59
- 238000005406 washing Methods 0.000 title claims description 30
- 238000003756 stirring Methods 0.000 claims description 14
- 238000001514 detection method Methods 0.000 claims description 10
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 27
- 239000012209 synthetic fiber Substances 0.000 description 8
- 229920002994 synthetic fiber Polymers 0.000 description 8
- 238000010586 diagram Methods 0.000 description 7
- 229920000742 Cotton Polymers 0.000 description 2
- 238000013480 data collection Methods 0.000 description 2
- 238000002474 experimental method Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000003795 chemical substances by application Substances 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 230000018044 dehydration Effects 0.000 description 1
- 238000006297 dehydration reaction Methods 0.000 description 1
- 239000003599 detergent Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 238000002156 mixing Methods 0.000 description 1
- 238000005086 pumping Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】 (産業上の利用分野) 本発明は洗濯機の布質検知装置に関するものである。[Detailed description of the invention] (Industrial application field) The present invention relates to a cloth quality detection device for a washing machine.
(従来の技術)
一般に、洗濯機においては、洗濯物の量や布質に応じて
水流の強さを調節することが望ましく、例えば量が極端
に少なかった9化繊のような布質の時に強水流で洗濯す
れば布地を痛める虞れがあり、逆に洗濯物の量が多かっ
たり木綿のような布質の時に弱水流で洗濯すれば洗濯効
率が低下するという問題を招くものである。(Prior art) In general, in a washing machine, it is desirable to adjust the strength of the water flow depending on the amount of laundry and the fabric quality. If the laundry is washed with water, there is a risk of damaging the fabric, while if the amount of laundry is large or the fabric is made of cotton, washing with weak water will reduce the washing efficiency.
そこで、洗濯物の量や布質を知ることが必要になるが、
従来、洗濯物の量を自動的に検知できるようにした装置
は例えば特開昭58−195589号公報、特開昭59
−125598号公報等に見られるように種々提案され
ているものの、洗濯物の布質を自動的に検知する装置は
未だ提案されておらないO
従って、従来の洗濯機では、布質に応じた水流の選定を
複数個のスイッチにより行なえるように構成し、使用者
が経験によって布質を判断し、スイッチの選択操作によ
り水流を決定しているのが現状である。Therefore, it is necessary to know the amount of laundry and the quality of the fabric.
Conventionally, devices capable of automatically detecting the amount of laundry are disclosed in, for example, Japanese Patent Laid-Open Nos. 58-195589 and 1983.
Although various proposals have been made, as seen in Publication No. 125598, no device has yet been proposed that automatically detects the fabric quality of laundry. Therefore, in conventional washing machines, the At present, the water flow can be selected using a plurality of switches, and the user judges the fabric quality through experience and determines the water flow by operating the switches.
(発明が解決しようとする問題点)
上述のように従来にあっては、洗濯物の布質を自動的に
検知することができなかった為、布質に応じた水流の自
動調節も行なうことができず、洗濯機の自動制御化に際
し大きな障害となっていfC。(Problems to be Solved by the Invention) As mentioned above, in the past, it was not possible to automatically detect the fabric quality of the laundry, so it was necessary to automatically adjust the water flow according to the fabric quality. fC, which is a major obstacle to automatic control of washing machines.
然るに、本発明は布質を自動的に検知できる装置全提供
し、布質に応じた水流等の自動調節を行なえるようにし
て上記問題点を解消するものである。However, the present invention solves the above-mentioned problems by providing a device that can automatically detect the fabric quality and automatically adjusting the water flow etc. according to the fabric quality.
(問題点を解決するための手段)
本発明の内容を、以下その実施例に対応する第1図を用
いて説明する。(Means for Solving the Problems) The content of the present invention will be explained below using FIG. 1 corresponding to an embodiment thereof.
攪拌体3を駆動するモータ6に流れる電流値を検知する
電流検知部7を設ける。モータ6に流れる電流値は攪拌
体3に加わる負荷量によって変化するものであり、その
モータ6の所定駆動時間内における電流の最大値と最小
値全求める電流判定部8を設ける。そして、その電流判
定部8により求めた最大値と最小値との差を演算しその
差の値と予め設定した値との比較によシ洗濯物の布質を
判定する布質判定部9を設ける。A current detection section 7 is provided to detect the value of the current flowing through the motor 6 that drives the stirring body 3. The value of the current flowing through the motor 6 changes depending on the amount of load applied to the stirring body 3, and a current determining section 8 is provided to determine the maximum and minimum values of the current within a predetermined driving time of the motor 6. Then, the cloth quality determination section 9 calculates the difference between the maximum value and the minimum value determined by the current determination section 8, and determines the cloth quality of the laundry by comparing the value of the difference with a preset value. establish.
(作用)
モータ6の駆動時即ち攪拌体3の回転による洗濯動作時
、電流判定部8は電流検知部7に°より検知した電流値
の判定を繰り返し行ない、モータ6の所定駆動時間内に
おける最大値と最小値を求める。そして、所定駆動時間
が経過すると、布質判定部9は上記最大値と最小値との
差を演算することになり、その差の値と実験データ等を
基に予め設定しである値との比較によって洗濯物の布質
を判定する。このように洗濯物の布質を自動的に検知す
る。(Function) When the motor 6 is driven, that is, during the washing operation due to the rotation of the agitator 3, the current determining section 8 repeatedly determines the current value detected by the current detecting section 7, and determines the maximum current value within a predetermined driving time of the motor 6. Find the value and minimum value. Then, after a predetermined driving time has elapsed, the cloth quality determining section 9 calculates the difference between the maximum value and the minimum value, and compares the value of the difference with a preset value based on experimental data, etc. The fabric quality of the laundry is determined by comparison. In this way, the fabric quality of the laundry is automatically detected.
(実施例)
以下図面に示した本発明の実施例について詳細に説明す
る。(Example) Examples of the present invention shown in the drawings will be described in detail below.
第1図は本発明の実施例における全自動洗濯機の制御系
を示すブロック図である。第1図において、lは洗濯機
本体、2は脱水槽を兼ねる洗濯槽、3は洗濯槽2の内底
部に配置した攪拌体、4は攪拌体3の裏面のポンプ作用
により洗濯槽2内の水を底部より上方に汲み上げ循環さ
せる循環水路、5は循環水路4の上端出口に設けた糸屑
フィルターである。FIG. 1 is a block diagram showing a control system of a fully automatic washing machine according to an embodiment of the present invention. In Fig. 1, l is the main body of the washing machine, 2 is a washing tub that also serves as a dehydration tank, 3 is an agitator placed at the inner bottom of the washing tub 2, and 4 is a pump action on the back of the agitator 3 that causes the inside of the washing tub 2 to flow. A circulation channel 5 draws and circulates water upward from the bottom, and 5 is a thread waste filter provided at the upper end outlet of the circulation channel 4.
6は攪拌体3を駆動するためのモータ、7はモータ6の
電流を検知する電流検知部、8は電流検知部7からの信
号を得てモータ6の所定駆動時間内における電流の最大
値と最小値を求める電流判定部、9は電流判定部8によ
り求めた最大値と最小値との差を演算しその差の値と予
め設定した値との比較により洗濯物の布質を判定する布
質判定部、10は布質判定部9による判定結果を洗濯制
御信号として入力されるシーケンス制御部、11はモー
タ6をON、OFF制御するモータ制御部である。6 is a motor for driving the stirring body 3; 7 is a current detection unit that detects the current of the motor 6; 8 is a unit that obtains a signal from the current detection unit 7 and determines the maximum value of the current within a predetermined drive time of the motor 6; A current determining section 9 calculates the minimum value, and a cloth 9 calculates the difference between the maximum value and the minimum value determined by the current determining section 8, and determines the fabric quality of the laundry by comparing the value of the difference with a preset value. A quality determining section 10 is a sequence control section into which the determination result by the fabric quality determining section 9 is input as a washing control signal, and 11 is a motor control section that controls ON/OFF of the motor 6.
第3図はモータの電流波形をモデル的に示した図であり
、T1はモータ6の駆動時間、T2はモータ6の停止時
間を示す。モータ6の電流値は駆動開始当初起動電流が
流れる為に非常に大きく、その後は低下して、攪拌体3
と洗濯物との接触具合に応じ上下変動するものであるO
即ち、攪拌体3に加わる負荷が大きい時にはモータ6の
電流値が大きくなり、攪拌体3に加わる負荷が小さい時
にはモータ6の電流値も小さくなる0そして、電流の最
大値1max−,最小値fmin1及びその差の値ΔI
は、第4図に示す実験データから分るように洗濯物の布
質により変化するものである。FIG. 3 is a model diagram showing the current waveform of the motor, where T1 indicates the drive time of the motor 6, and T2 indicates the stop time of the motor 6. The current value of the motor 6 is very large at the beginning of driving due to the starting current flowing, but after that it decreases and the current value of the stirring body 3 is very large.
O varies up and down depending on the degree of contact with the laundry.
That is, when the load applied to the stirring body 3 is large, the current value of the motor 6 becomes large, and when the load applied to the stirring body 3 is small, the current value of the motor 6 is also small. and the value of the difference ΔI
As can be seen from the experimental data shown in FIG. 4, this varies depending on the fabric quality of the laundry.
第4図は化繊、試験布(綿)、ジーンズ(大物、厚物)
を同重量同水量で洗濯した場合の電流波形を示しており
、第4図(a)は化繊、同(b)は試験布、同(c)は
ジーンズの場合である。この図から明らかなように、化
繊の時における最大値、最小値、その差ΔI、は他の布
質に比べて最も小さく、ジーンズの時に°おける最大値
、最小値、その差ΔI3は他の布質に比べて最も大きく
なって°いる0従って、電流の最大値、最小値、その差
ΔIを求めることにより洗濯物の布質を検知することが
できるが、モータ6の電流値(最大、最小値)は電源電
圧の変動、モータ特性のバラツキ、経時変化により影響
され、一定しない為、本発明では最大値と最小値との差
を求め、その差の値ΔIに基づいて布質を正確に判定で
きるようにしている0而して、第1図における電流判定
部7は、電流の最大値を記憶する第1の記憶手段、電流
の最小値を記憶する第2の記憶手段、電流検知部6によ
9検知した電流値が第1の記憶手段の記憶値より大きい
か否かを判一定して大きい時には第1の記憶手段の記憶
値を新しい値に書きかえる第!の判定手段、電流検知部
6により検知した電流値が第2の記憶手段の記憶値より
小さいか否゛かを判定して小さい時には第2の記憶手段
の記憶値を新しい値に書きかえる第2の判定手段、起動
電流を判定してその電流値を無視させる手段等を具備し
ている。Figure 4 shows synthetic fibers, test cloth (cotton), and jeans (large and thick).
The current waveforms are shown when washing the same weight and amount of water, and FIG. 4(a) shows the case of synthetic fiber, FIG. 4(b) shows the test cloth, and FIG. 4(c) shows the case of jeans. As is clear from this figure, the maximum value, minimum value, and difference ΔI for synthetic fibers are the smallest compared to other fabrics, and the maximum value, minimum value, and difference ΔI3 for jeans are the smallest when compared to other fabrics. Therefore, the fabric quality of the laundry can be detected by determining the maximum value, minimum value, and difference ΔI of the current, but the current value of the motor 6 (maximum, The minimum value) is affected by fluctuations in power supply voltage, variations in motor characteristics, and changes over time, and is not constant. Therefore, in the present invention, the difference between the maximum value and minimum value is determined, and the fabric quality is accurately determined based on the value of the difference ΔI. Therefore, the current determining section 7 in FIG. 1 includes a first storage means for storing the maximum value of current, a second storage means for storing the minimum value of current, It is determined whether the current value detected by the section 6 is larger than the value stored in the first storage means, and if it is larger, the stored value in the first storage means is rewritten to a new value. a second determining means for determining whether the current value detected by the current detection unit 6 is smaller than the value stored in the second storage means, and rewriting the stored value in the second storage means to a new value if the current value is smaller than the value stored in the second storage means; and means for determining the starting current and ignoring the current value.
又、布質判定部8は、電流判定部7における第11第2
の記憶手段に一記憶されている最大値、最小値の差ΔI
を演算する演算手段、該手段により求めた値ΔIと予め
設定した値とを比較してその差を求める比較手段、該比
較手段による比較結果に基づいて布質を判定して水流制
御情報として出力する第1の判定手段、所定回数のΔI
を記憶して−これらの平均値を求め平均値に基づいて布
質を判定して洗濯時間制御情報として出力する第2の判
定手段等を具備している。In addition, the fabric quality determination unit 8
The difference ΔI between the maximum value and minimum value stored in the storage means of
a calculation means for calculating the value ΔI, a comparison means for comparing the value ΔI obtained by the means with a preset value and calculating the difference, and determining the fabric quality based on the comparison result by the comparison means and outputting it as water flow control information. A first determining means for determining ΔI a predetermined number of times.
The apparatus is equipped with a second determination means, etc., which stores the values, calculates the average value thereof, determines the fabric quality based on the average value, and outputs the result as washing time control information.
又、本実施例では攪拌体3に第2図に゛示す構造を採用
することによシ検知精度を高めて゛いる。第1図及び第
2図において、12は攪拌体3の裏面にあってポンプ作
用を発揮させるリプ、T3は攪拌体3に設けた通水孔で
、リプ12によるポンプ作用により攪拌体3の裏面方向
への水流を生じらせ、化繊等の比重の軽い洗濯物を攪拌
体3に対し接触し易くするものである。14は攪拌体3
の上面外周部上に設けた突部であり、この突部14は洗
濯物に当たシ易くするもので、大物、厚物等のΔIの値
が大きくなるようになし、布質の判定を行ない易くする
ものである。Further, in this embodiment, the detection accuracy is improved by adopting the structure shown in FIG. 2 for the stirring body 3. In FIGS. 1 and 2, reference numeral 12 denotes a lip on the back surface of the stirring body 3 that exerts a pumping action, and T3 denotes a water hole provided in the stirring body 3. This generates a water flow in the direction, and makes it easier for laundry with a light specific gravity, such as synthetic fibers, to come into contact with the agitator 3. 14 is stirring body 3
This is a protrusion provided on the outer periphery of the upper surface, and this protrusion 14 makes it easier for the laundry to hit.It is designed to increase the value of ΔI for large or thick items, so that it can be used to judge the fabric quality. It makes it easier to do.
次に、第5図は化繊、試験布、ジーンズについて水位を
低・中・高に設定しがっ布量を変えて実験した場合の夫
々ΔIの値とデータのばらつきを示した図である。この
図から明らかなように、今仮に布質判定部8に−おいて
ΔIと比較する値をLに設定しておけば、水位、布量に
関係なく化繊とジーンズ等の大物・厚物とについては判
断することができる。尚、本明細書においては詳細な説
明を省略するが、ΔIの値に水量データ或いは布量デー
タを組合せて布質を検知するようKすれば、布質をより
細かく判断して、布質検知精度の向上を計れることも明
らかである。Next, FIG. 5 is a diagram showing the value of ΔI and the variation in data when experiments were conducted with the water level set to low, medium, and high and the amount of cloth changed for synthetic fibers, test cloth, and jeans. As is clear from this figure, if the value to be compared with ΔI is set to L in the cloth quality determining section 8, it will be possible to distinguish between synthetic fibers and large/thick materials such as jeans, regardless of the water level or amount of cloth. can be determined. Although a detailed explanation will be omitted in this specification, if the cloth quality is detected by combining the ΔI value with water amount data or cloth amount data, the cloth quality can be judged more precisely and the cloth quality can be detected. It is also clear that accuracy can be improved.
上記の構成において、その作用を第°3図及び第6図示
のフローチャートに従い説明する。The operation of the above configuration will be explained according to the flowcharts shown in FIGS. 3 and 6.
今、洗濯を開始すると、シーケンス制御部10はモータ
制御部11に指示してモータ6を例えば右方向に”回転
駆動させ、攪拌体30回転により洗濯物及び水の攪拌を
始めることになり、このモータ6の駆動を予め設定され
てbる時間即ち19時間継続する。而して、このT1時
間内において布質判定データを採取するものであり、電
流判定部8はモータ6の電流値の判定を繰り返し、上記
T1時間内における電流の最大値Imax−,最小値l
m1nを求め記憶する。When washing starts now, the sequence control unit 10 instructs the motor control unit 11 to rotate the motor 6, for example, in the right direction, and starts stirring the laundry and water by rotating the agitator 30. The drive of the motor 6 continues for a preset time, that is, 19 hours.Thus, cloth quality determination data is collected within this time T1, and the current determination unit 8 determines the current value of the motor 6. Repeat this to determine the maximum value Imax- and minimum value l of the current within the above T1 time.
Find and store m1n.
T1時間が経過すると、シーケンス制御部10はモータ
制御部11に指示してモータ6を停止する一方、布質判
定部9は電流判定部8に記憶されている最大値1 m
a X %最小値lm1nを読み出してその差を求め、
その値ΔIと予め設定しである値りとを比較する。比較
の結果、ΔIが値しより犬きければ、ジーンズのような
大物・厚物と判定し、逆に小さければ化繊と判定する。When the time T1 has elapsed, the sequence control unit 10 instructs the motor control unit 11 to stop the motor 6, while the fabric quality determination unit 9 determines the maximum value 1 m stored in the current determination unit 8.
a X % Read out the minimum value lm1n and find the difference,
The value ΔI is compared with a preset value. As a result of the comparison, if ΔI is higher than the value, it is determined that the material is large or thick like jeans, and conversely, if it is smaller, it is determined to be synthetic fiber.
而して、シーケンス制御部10は布質判定部9の判定内
容を水流制御情報として得ることにより、次のモータ駆
動時間T1、今の場合にはモータ6の左回転駆動時間T
、 と、その後のモータ6の停止時間T2を夫々設定
する。ジーンズ等の大物・厚物と判定した場合には駆動
時間T1を長く、停止時間T2を短く設定し、逆に化繊
と判定した場合には駆動時間T、を短く、停止時間T2
を長く設定する。Then, the sequence control unit 10 obtains the determination content of the cloth quality determination unit 9 as water flow control information, and thereby determines the next motor drive time T1, in this case, the counterclockwise rotation drive time T of the motor 6.
, and the subsequent stop time T2 of the motor 6 are set, respectively. If it is determined that the item is large or thick, such as jeans, the driving time T1 is set long and the stopping time T2 is set short. Conversely, if it is determined that it is a synthetic fiber, the driving time T is set short and the stopping time T2 is set short.
Set for a long time.
従って、予め設定されている時間T2(■回目は固定時
間)が経過すると、シーケンス制御部l。Therefore, when the preset time T2 (the ■th time is a fixed time) has elapsed, the sequence control unit l.
はモータ制御部11に指示してモータ6を左方向ことに
なる。そして、この左回転駆動時間内において、再び上
述と同様に布質判定データを採取することになり、この
データに基づいて次回のモータ6の右回転駆動時間とそ
の後の停止時間を設定するものである。This instructs the motor control unit 11 to move the motor 6 to the left. Then, during this counterclockwise rotation drive time, fabric quality determination data is collected again in the same manner as described above, and based on this data, the next clockwise rotation drive time of the motor 6 and the subsequent stop time are set. be.
以上のような動作の繰り返しにより、洗濯物の布質に応
じた水流を作り出し、洗濯動作を行なうことになる。従
って、布地を痛めたシ洗濯効率を低下−させたりするこ
となく、洗濯を行なうことができる。By repeating the above-mentioned operations, a water flow corresponding to the fabric quality of the laundry is created, and the washing operation is performed. Therefore, washing can be carried out without damaging the fabric or reducing washing efficiency.
又、布質判定部9はモータ6の駆動、停止が所定回数例
えば5回繰り返えされると、過去5回のΔIの平均値を
求め、この平均値と値りとの比較によシ布質を判定する
ことになり、その判定結果を洗濯時間制御情報としてシ
ーケンス制御部IOに入力する。すると、シーケンス制
御部lOは予め設定されている洗濯時間を布質に基づい
て・修整する。Further, when the motor 6 is driven and stopped a predetermined number of times, for example, 5 times, the fabric quality determination unit 9 calculates the average value of ΔI of the past 5 times, and compares this average value with the value to determine the fabric quality. The quality is determined, and the determination result is input to the sequence control unit IO as washing time control information. Then, the sequence control unit IO adjusts the preset washing time based on the fabric quality.
而して、修整した洗濯時間が経過することにより、洗濯
動作は終了し、次段の排水動作に移行する。When the corrected washing time has elapsed, the washing operation is completed and the next stage drainage operation is started.
以上の如く、本実施例にあっては洗濯物の布質を自動的
に検知して、布質に応じた水流、洗濯時間に自動調節す
ることができる。As described above, in this embodiment, the fabric quality of laundry can be automatically detected, and the water flow and washing time can be automatically adjusted according to the fabric quality.
尚、上述実施例では洗濯動作時について説明したが、す
すぎ動作や洗剤なじませ動作時等の水流制御にも実施で
きること勿論である。、又、モータの反転毎にデータを
採取し、次の水流を制御するようにしているが、データ
の採取期間を長くしたシ水流制御期間を変えたシするこ
ともできる。さらに、Δ工の値が余り変動しない場合に
はデータの採取を中止し、先のデータに基づく水流によ
り洗濯を継続するようにしてもよい。Incidentally, in the above-mentioned embodiment, the description has been made regarding the washing operation, but it goes without saying that water flow control can also be implemented during the rinsing operation, the detergent blending operation, and the like. Also, although data is collected each time the motor is reversed to control the next water flow, it is also possible to lengthen the data collection period or change the water flow control period. Furthermore, if the value of Δfactor does not change much, data collection may be stopped and washing may be continued using a water flow based on the previous data.
(発明の効果)
以上の如く本発明にあっては、洗濯物の布質全自動的に
検知することができ、布質に対する水流の自動調節が可
能になる等、洗濯機の自動制御化に際し有効なものであ
る。(Effects of the Invention) As described above, the present invention can fully automatically detect the fabric quality of laundry and automatically adjust the water flow depending on the fabric quality, making it possible to automatically control washing machines. It is valid.
第1図は本発明の実施例における全自動洗濯機の制御系
を示すブロック図、第2図は同上攪拌体の構造を示す図
、第3図は同上モータの電流波形をモデル的に示した図
、第4図(a)乃至(c)は同上具なる布質の洗濯物を
同重量、同水量で洗濯した場合の電流波形を示す図、第
5図は同上具なる布質の洗濯物について水位を低・中・
高に設定しかつ布量を変えて実験した場合の夫々のΔI
の値とデータのばらつきを示す図、第6図は同上制御フ
ローチャートである。
3:攪拌体、6:モータ、7:電流検知部、8:電流判
定部、9二布質判定部。
代理人 弁理士 杉 山 毅 至 (他1名)第1 ガ
第2図
第3図
84図
第5図Fig. 1 is a block diagram showing the control system of a fully automatic washing machine according to an embodiment of the present invention, Fig. 2 is a diagram showing the structure of the above-mentioned stirring body, and Fig. 3 is a model showing the current waveform of the above-mentioned motor. Figures 4(a) to 4(c) are diagrams showing current waveforms when laundry made of the same fabric is washed with the same weight and the same amount of water, and Figure 5 is a diagram showing the current waveform when laundry made of the same fabric is washed with the same weight and the same amount of water. The water level is low, medium and
ΔI of each experiment when setting it to high and changing the amount of cloth
FIG. 6 is a control flowchart showing the values and data variations. 3: stirring body, 6: motor, 7: current detection section, 8: current determination section, 92 fabric quality determination section. Agent Patent Attorney Takeshi Sugiyama (1 other person) Figure 1 Figure 2 Figure 3 Figure 84 Figure 5
Claims (1)
、該電流検知部からの信号を得て上記モータの所定駆動
時間内における電流の最大値と最小値を求める電流判定
部と、該電流判定部により求めた最大値と最小値との差
を演算しその差の値と予め設定した値との比較により洗
濯物の布質を判定する布質判定部とを具備してなる洗濯
機の布質検知装置。1. A current detection unit that detects the current of the stirring body driving motor; a current determination unit that obtains a signal from the current detection unit and determines the maximum and minimum values of the current within a predetermined driving time of the motor; A washing machine comprising a fabric quality determination unit that calculates the difference between the maximum value and the minimum value determined by the current determination unit and determines the fabric quality of the laundry by comparing the value of the difference with a preset value. cloth quality detection device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP61036859A JPS62194895A (en) | 1986-02-20 | 1986-02-20 | Cloth quality detector of washing maichine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP61036859A JPS62194895A (en) | 1986-02-20 | 1986-02-20 | Cloth quality detector of washing maichine |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS62194895A true JPS62194895A (en) | 1987-08-27 |
JPH0326999B2 JPH0326999B2 (en) | 1991-04-12 |
Family
ID=12481510
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP61036859A Granted JPS62194895A (en) | 1986-02-20 | 1986-02-20 | Cloth quality detector of washing maichine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS62194895A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH04200496A (en) * | 1990-11-30 | 1992-07-21 | Toshiba Corp | Washer |
US7155778B2 (en) | 2001-03-16 | 2007-01-02 | Amesbury Group, Inc. | Block and tackle window balance with bottom guide roller |
-
1986
- 1986-02-20 JP JP61036859A patent/JPS62194895A/en active Granted
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH04200496A (en) * | 1990-11-30 | 1992-07-21 | Toshiba Corp | Washer |
US7155778B2 (en) | 2001-03-16 | 2007-01-02 | Amesbury Group, Inc. | Block and tackle window balance with bottom guide roller |
US7353567B2 (en) | 2001-03-16 | 2008-04-08 | Amesbury Group, Inc. | Block and tackle window balance with bottom guide roller |
US7669284B2 (en) | 2001-03-16 | 2010-03-02 | Amesbury Group, Inc. | Block and tackle window balance with bottom guide roller |
US8042227B2 (en) | 2001-03-16 | 2011-10-25 | Amesbury Group, Inc. | Block and tackle window balance with bottom guide roller |
Also Published As
Publication number | Publication date |
---|---|
JPH0326999B2 (en) | 1991-04-12 |
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