WO2018153191A1 - 一种洗衣机控制方法 - Google Patents
一种洗衣机控制方法 Download PDFInfo
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- WO2018153191A1 WO2018153191A1 PCT/CN2018/073547 CN2018073547W WO2018153191A1 WO 2018153191 A1 WO2018153191 A1 WO 2018153191A1 CN 2018073547 W CN2018073547 W CN 2018073547W WO 2018153191 A1 WO2018153191 A1 WO 2018153191A1
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F33/00—Control of operations performed in washing machines or washer-dryers
- D06F33/30—Control of washing machines characterised by the purpose or target of the control
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- the invention belongs to the field of household appliances, and in particular to a washing machine control method.
- a washing machine is a cleaning appliance that uses electrical energy to produce a mechanical action to wash laundry.
- the function of washing machines has become more and more powerful, and it has become an indispensable household appliance in thousands of households.
- Some existing washing machines adopt a single washing mode. After the water is completed, the washing machine continuously rotates through the washing tub, and the clothes are continuously beaten and rubbed by the water flow, thereby completing the washing process of the laundry.
- washing machines in order to achieve better cleaning effect on clothes, some washing machines should be soaked before washing the clothes.
- the soaking time is generally up to half an hour.
- the soaking process generally uses a variety of soaking with different stopping ratios.
- the laundry is sufficiently immersed by the combination of the modes or the multiple immersion of the same turn-around ratio, and then the washing process of the laundry is performed.
- the turning time of the soaking process is relatively short, and the soaking process is before the washing process, the load on the upper layer of the washing tub of the washing machine is difficult or even impossible to be turned over, and the soaking effect is poor, thereby affecting the whole machine.
- the washing ratio can not play the maximum effect of the soaking process, and the load in the washing tub cannot be fused with the detergent and water in a limited time, so that it will undoubtedly increase the washing difficulty for the subsequent washing process, if the same washing is to be achieved.
- the net effect, the under-combined load requires a greater amount of power consumption than the fully fused load.
- the existing washing machine cannot simultaneously meet the dual requirements of the washing ratio and the power consumption, so that the washing machine cannot meet the user's demand.
- the present invention has been made in view of the above.
- the technical problem to be solved by the present invention is to overcome the deficiencies of the prior art, and provide a washing machine control method, which can make the washing machine reach the double requirement of taking both the washing ratio and the power consumption, and solves the problem that the existing washing machine can only satisfy the washing ratio. And one of the technical issues of power consumption.
- a washing machine control method the washing program of the washing machine comprising a washing process and a soaking process, characterized in that after the washing machine performs the washing process, the washing machine is controlled to perform at least one soaking process.
- the washing machine is controlled to rotate at least at a high washing speed to quickly dissolve the detergent and/or the washing powder and to fully contact the laundry; during the soaking process, first control the washing machine to a medium height The speed of the washing speed is rotated, and then the washing machine is stopped to rotate, or the washing machine is first controlled to stop for a certain period of time, and then the washing machine is controlled to rotate at a medium-high washing speed.
- control method includes the following steps,
- step S102 the control washing machine enters the washing process, after the washing process is completed, step S103 is performed;
- the soaking process is composed of a plurality of water flow intensity superpositions, the water flow intensity being adjusted according to the motor speed, and/or the pulsator turn-off ratio.
- the immersing process comprises one of immersing A unit, immersing B unit and immersing C unit or any combination thereof, immersing A unit, immersing B unit and immersing C unit in sequence or in any order; wherein, immersing unit A
- the soaking B unit and the soaking C unit respectively have different water flow intensities;
- the soaking process is composed of a soaking A unit, a soaking B unit, and a soaking C unit;
- the soaking process consists of a superposition of at least three soaked C units.
- the water flow intensity of the soaking A unit, the soaking B unit, and the soaking C unit is adjusted according to the motor speed, and/or the wave wheel turn-stop ratio, so that the water flow intensity of the soaking unit A> the water flow intensity of the soaked B unit> soaking C The water flow intensity of the unit.
- the turn-stop ratios of the immersed A unit, the immersed B unit, and the immersed C unit are respectively T1, T2, T3, and T1, T2, and T3 are different.
- the rotation time of the pulsator in the immersion A unit is greater than or equal to the rotation time of the pulsator in the immersion B unit, and the stop time of the pulsator in the immersion A unit is less than or equal to the stop time of the pulsator in the immersion B unit;
- the rotation time of the pulsator in the immersion B unit is greater than or equal to the rotation time of the pulsator in the immersion C unit, and the stop time of the pulsator in the immersion B unit is less than or equal to the stop time of the pulsator in the immersion C unit.
- the washing machine is controlled to perform a soaking process before the washing process.
- control method includes the following steps,
- the present invention has the following advantageous effects compared with the prior art.
- the invention adopts the soaking treatment after the washing process, so that the load is in the washing process, and the relatively high rotating washing time, the upper layer load of the inner barrel of the washing machine effectively exerts the soaking effect, and the load is alternately turned upside down and washed in a limited time.
- the agent and the water are fused together, so that the stain on the load reacts with the detergent and the water, thereby effectively dissolving the stain, effectively exerting the effect of the soaking process, improving the washing ratio, and enabling the washing machine to simultaneously take care of washing.
- the dual requirements of net ratio and power consumption solve the technical problem that the existing washing machine can only meet one of the washing ratio and the power consumption.
- Figure 1 is a block diagram showing the operation of a conventional washing machine
- FIG. 2 is a flow chart of a washing machine control method in an embodiment of the present invention.
- FIG. 3 is a block diagram showing the operation of the washing machine in the embodiment of the present invention.
- FIG. 4 is a flow chart of another washing machine control method in an embodiment of the present invention.
- connection In the description of the present invention, it should be noted that the terms “installation”, “connected”, and “connected” are to be understood broadly, and may be fixed or detachable, for example, unless otherwise explicitly defined and defined. Connected, or integrally connected; can be mechanical or electrical; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention can be understood in a specific case by those skilled in the art.
- FIG. 1 a block diagram of a prior art washing machine operation is shown.
- the existing washing machine performs the soaking process before the washing process, and the soaking process generally takes up to 30 minutes, and the soaking process is generally carried out in combination in various ways, or in the same manner multiple times.
- the soaking process is continued for 30 minutes before the washing process, and the soaking process is generally performed according to the soaking A unit + soaking B unit + soaking C unit + soaking C unit (the sum of the time of soaking the A unit + soaking the B unit + soaking the C unit + soaking the C unit) 30min), wherein the soaking A unit is rotated for 2min for 3min, the soaking B unit is rotated for 1min for 4min, the soaking C unit is rotated for 1min for 9min; or the soaking process can be followed by soaking C unit + soaking C unit + Soak the C unit to perform (the sum of the time of soaking C unit + soaking C unit + soaking C unit is 30 min).
- the upper layer of the inner drum of the washing machine Before the washing process, the upper layer of the inner drum of the washing machine is in a short soaking process. Because the washing machine rotates for a short time, the upper layer load is difficult or even impossible to turn down, and the soaking effect is poor, thereby affecting the washing ratio of the whole machine. The maximum effect of the soaking process is exerted; at the same time, the load cannot be fused with the detergent and water for a limited time, so that in order to achieve the same washing ratio, the washing ratio is generally increased by increasing the washing time or increasing the washing water flow, so that It also increases the power consumption of the washing machine.
- a washing machine control method includes a washing process and a soaking process, wherein the washing machine is controlled to perform at least one soaking process after the washing machine performs the washing process.
- the invention adopts the soaking treatment after the washing process, so that the load is in the washing process, and the relatively high rotating washing time, the upper layer load of the inner barrel of the washing machine effectively exerts the soaking effect, and the load is alternately turned upside down with the detergent in a limited time. It is fused with water to make the stain on the load react with the detergent and water, so as to effectively dissolve the stain, which effectively plays the role of the soaking process and improves the washing ratio.
- a washing machine control method is used for a pulsator washing machine.
- the washing program of the pulsator washing machine includes a washing process and a immersing process. After the pulsator washing machine performs a washing process for a predetermined time, the immersing process is automatically performed, and then the lowering process is performed. One step procedure.
- the washing process is defined as a process in which the washing machine continuously rotates and washes the laundry during the set time; the soaking process is defined as having a certain turn-stop ratio (the numerical ratio of the washing machine rotation time to the stop time, the different stop of the washing machine)
- the load can be understood as clothes, pants, towels, duvet covers, and the like that need to be washed.
- the washing process of the washing machine includes a washing process and a soaking process, and the soaking process is performed after the washing process.
- the controller of the washing machine controls the washing machine to rotate in a combination of different washing speeds (high washing speed, medium high washing speed, low washing speed), so that the laundry load in the inner tub of the washing machine is continuously rotated by the washing machine.
- the washing machine Fully contact with water and detergent in the inner tub and achieve the effect of preliminary purification; for example, the washing machine first rotates at a high washing speed, then rotates at a medium high washing speed, and finally rotates at a low washing speed; or the washing speed of the washing machine can also be The method of gradually moving from low speed to high speed, depending on the size of the washing machine, the nature of the pulsator and the load characteristics, so that the laundry load can be cleaned under appropriate power without excessive consumption. The electric energy, so that the washing machine achieves both the cleaning ratio and the power consumption.
- the soaking process of the washing machine is composed of a plurality of water flow intensities which are adjusted according to the motor speed, and/or the pulsator turn-off ratio.
- the washing machine can be first controlled to rotate at a medium to high washing speed, and then the washing machine is controlled to stop rotating, so that the load after the washing process in the washing process is further rotated through the soaking process, thereby making the laundry better.
- the washing process the next washing machine stops the rotation process, so that the load laundry is soaked in the inner tub, so that the residual stain on the laundry load is integrated into the water, which greatly improves the washing ratio of the laundry load.
- FIG. 2 it is a flowchart of a control method of the washing machine of the present invention.
- the control method of the washing machine includes the following steps.
- step S102 the control washing machine enters the washing process, after the washing process is completed, step S103 is performed;
- the washing machine is started and the washing program of the washing machine is started. After the water inlet process is completed, the washing machine first enters the washing process of the set time, so that the upper load of the inner barrel of the washing machine can be effectively obtained through a relatively long washing time. Inverting, the upper layer load and the lower layer load of the inner tub of the washing machine are alternately reversed and washed, so that the load in the inner tub of the washing machine can be sufficiently contacted with the detergent and the water to provide conditions for the next soaking process.
- the set time is generally up to 30 minutes
- the soaking process can be carried out multiple times for the same soaking method, or can be combined for different soaking methods.
- the load that has been in full contact with the detergent and water can be further fused with the detergent and water during the soaking process, effectively dissolving the stain on the load, effectively exerting the effect of the soaking process and improving the washing.
- the washing machine can achieve the dual requirements of both washing ratio and power consumption.
- the soaking process is one of the soaking A unit, the soaking B unit, and the soaking C unit, or any combination thereof, and the soaking A unit, the soaking B unit, and the soaking C unit are sequentially or in any order.
- the soaking process may simply soak the A unit or soak the B unit or soak the C unit.
- the soaking process may be a combination of the soaking unit A and the soaking unit B, or a combination of the soaking unit A and the soaking unit C.
- the soaking process may also be soaking.
- a combination of the A unit, the soaked B unit, and the soaked C unit. The specific soaking process can be determined according to actual needs.
- the immersion A unit, the immersion B unit, and the immersion C unit respectively have different turn-stop ratios; further, the immersion A unit's turn-stop ratio > immersion B unit turn-stop ratio > immersion C unit turn-stop ratio, The water flow intensity of the soaking A unit, the soaking B unit, and the soaking C unit gradually decreased.
- the ratios of the immersion A unit, the immersion B unit, and the immersion C unit are T1, T2, and T3, respectively, and T1, T2, and T3 are different.
- the rotation time of the pulsator in the immersion A unit is greater than or equal to the rotation time of the pulsator in the immersion B unit
- the stop time of the pulsator in the immersion A unit is less than or equal to the stop time of the pulsator in the immersion B unit.
- the immersion ratio of the immersion A is 2:3, the ratio of the cessation of the immersion B is 1:4, and the ratio of the cessation of the immersion C is 1:9.
- the soaking A unit is rotated for 2 minutes for the washing machine to stop for 3 minutes
- the soaking B unit is rotated for 1 minute for the washing machine to stop for 4 minutes
- the soaking C unit is rotated for 1 minute for the washing machine to stop for 9 minutes.
- the setting of each time is a preferred embodiment, and does not limit the time setting of the control method of the present invention.
- the specific time allocation is adjusted according to the specific size of the washing machine, the nature of the pulsator and the laundry property.
- this embodiment is further defined by the above-mentioned first embodiment.
- the soaking process is composed of the soaking A unit, the soaking B unit and the soaking C unit, or the soaking process is composed of three soaking C units. Superimposed composition.
- the washing program of the washing machine is turned on, the water inlet stage of the washing machine is started, and the required water intake amount is automatically determined according to the user selection or according to the load capacity of the laundry.
- the washing bucket enters a high water level suitable for the laundry load.
- the washing machine first enters the washing process of the preset time, so that the upper layer load of the inner drum of the washing machine can be effectively reversed by the relatively long washing time, and the upper layer load and the lower layer load of the inner drum of the washing machine are alternately reversed and washed.
- the load in the inner tub of the washing machine can be fully contacted with the detergent and the water to provide conditions for the next soaking process; then, the washing machine enters a 30 minute soaking process, in which the soaking A unit is first performed (the pulsator rotates 2 Stop for 3 minutes in minutes), then perform the soaking B unit (the pulsator rotates for 1 minute and stops for 4 minutes), and finally perform the soaking C unit (the pulsator rotates for 1 minute and stops for 9 minutes).
- the soaking process may be a combination of three soaking C units, and the appropriate soaking process is selected according to the different load of the laundry, which can effectively save power.
- the washing machine can achieve the dual requirements of both washing ratio and power consumption.
- the washing machine automatically enters the washing process of the first set time after the water inlet process of 1 minute.
- the first set time of the washing process is set to 15 minutes.
- the 15-minute continuous rotation process allows the load in the washing tub to fully contact and fuse with the detergent and water, and then enters the soaking process for the second predetermined time.
- the second set time of the soaking process is 30 minutes.
- the next rinsing procedure is entered.
- the rinsing procedure is a spray rinsing.
- the washing machine enters the dehydration process.
- the difference between this embodiment and the above-described first embodiment is that the washing machine is first controlled to perform the soaking process before the washing machine performs the washing process.
- control method includes the following steps,
- step S202 the control washing machine performs the first soaking process, after the first soaking process is completed, step S203 is performed;
- step S203 the control washing machine performs the first washing process, after the first washing process is completed, step S204 is performed;
- the first soaking process is a combination of a soaking A unit and a soaking B unit, the soaking A unit and the soaking B unit are performed in any order, and the second soaking process is a soaking C unit;
- the first soaking process and the second soaking process are both a soaking A unit, a soaking B unit, and a soaking C unit.
- the combinations listed herein are only preferred modes of the present embodiment, and are not intended to limit the scope of the present invention.
- the washing machine after the washing process is started, generally after the water inlet process of 1 minute, the washing machine first enters the first soaking process for a period of time, after which the washing machine automatically enters the washing process to allow the load in the washing tub to be filled with detergent and water. Fully contact and fuse, then enter the second soaking process, and finally proceed to the next step.
- a turbidity sensor may be disposed on the washing machine, and the turbidity sensor detects the cleanliness of the laundry load in real time. If the cleanliness fails to reach the preset threshold, the cleaning is not in place, and the washing needs to be continued to meet the preset threshold. At this time, the control washing machine cyclically performs steps S202-S204 until the preset cleanliness is satisfied.
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Abstract
一种洗衣机控制方法,洗衣机的洗涤程序包括洗涤过程和浸泡过程,在洗衣机执行洗涤过程之后,控制洗衣机执行至少一次浸泡过程。通过在洗涤过程之后进行浸泡处理,使得负载在洗涤过程中,通过相对较长的转动洗涤时间,上下负载交替翻转与洗涤剂和水融合在一起,使得负载上的污渍与洗涤剂和水发生反应,从而有效的将污渍溶解,既有效的发挥了浸泡过程的作用,提升洗净比,又能够使洗衣机达到同时兼顾洗净比和耗电量的双重要求,解决了现有洗衣机只能满足洗净比和耗电量其中之一的技术问题。
Description
本发明属于家用电器领域,具体地说,涉及一种洗衣机控制方法。
洗衣机是利用电能产生机械作用来洗涤衣物的清洁电器。随着科技的发展和技术的进步,洗衣机的功能也越来越强大,它已经成为千千万万家庭中必不可少的家用电器。现有的一些洗衣机都是采用单一的洗涤方式,洗衣机在进水完成后,通过洗涤桶的持续不停地转动,利用水流不停地对衣物进行拍打和摩擦,从而完成对衣物的洗涤过程。
还有一些洗衣机为了达到对衣物清洁效果更好的目的,在洗涤衣物之前先对衣物进行浸泡处理,其浸泡时间一般最长为半个小时,浸泡过程一般采用多种具有不同转停比的浸泡方式的结合或同一转停比的多次浸泡的方式对衣物进行充分地浸泡,之后再执行衣物的洗涤过程。但是,这样的洗涤模式,由于浸泡过程的转动时间比较短,而浸泡过程又在洗涤过程之前,洗衣机洗涤桶中位于上层的负载很难甚至无法翻转下去,浸泡效果较差,从而影响整机的洗净比,无法发挥浸泡过程的最大作用,洗涤桶内的负载无法在有限的时间内与洗涤剂和水融合,这样,无疑会给后续的洗涤过程增加洗净难度,如果要达到相同的洗净效果,未充分融合的负载比充分融合了的负载需要更大程度的电能消耗量。
因此,现有的洗衣机无法同时兼顾洗净比和耗电量的双重要求,进而使得洗衣机无法达到用户的需求。
有鉴于此特提出本发明。
发明内容
本发明要解决的技术问题在于克服现有技术的不足,提供一种洗衣机控制方法,能够使洗衣机达到同时兼顾洗净比和耗电量的双重要求,解决了现有洗衣机只能满足洗净比和耗电量其中之一的技术问题。
为解决上述技术问题,本发明采用技术方案的基本构思是:
一种洗衣机控制方法,洗衣机的洗涤程序包括洗涤过程和浸泡过程,其特征在于,在洗衣机执行洗涤过程之后,控制洗衣机执行至少一次浸泡过程。
进一步地,在所述洗涤过程中,控制洗衣机至少以高洗涤转速的速度转动,以使洗涤剂和/或洗衣粉快速溶解并与衣物充分接触;在所述浸泡过程中,先控制洗衣机以中高洗涤转速的速度转动,再控制洗衣机停止转动,或者先控制洗衣机停止一定时间,再控制洗衣机以中高洗涤转速的速度转动。
进一步地,所述控制方法包括以下步骤,
S101、启动洗衣机并开启洗涤程序;
S102、控制洗衣机进入洗涤过程,洗涤过程完成后,执行步骤S103;
S103、控制洗衣机进入浸泡过程,然后进入下一个程序。
进一步地,所述浸泡过程由多种水流强度叠加构成,所述水流强度根据电机转速、和/或波轮转停比进行调整。
进一步地,所述浸泡过程包括浸泡A单元、浸泡B单元和浸泡C单元中的一种或其任意组合,浸泡A单元、浸泡B单元和浸泡C单元依次或任意顺序执行;其中,浸泡A单元、浸泡B单元和浸泡C单元分别具有不同的水流强度;
优选的,所述浸泡过程由浸泡A单元、浸泡B单元和浸泡C单元叠加构成;
或者,所述浸泡过程由至少三个浸泡C单元叠加构成。
进一步地,所述浸泡A单元、浸泡B单元、浸泡C单元的水流强度根据电机转速、和/或波轮转停比进行调整,使浸泡A单元的水流强度>浸泡B单元的水流强度>浸泡C单元的水流强度。
进一步地,所述浸泡A单元、浸泡B单元、浸泡C单元中波轮的转停比分别为T1、T2、T3,T1、T2、T3均不相同。
进一步地,浸泡A单元中波轮的转动时间大于等于浸泡B单元中波轮的转动时间,浸泡A单元中波轮的停止时间小于等于浸泡B单元中波轮的停止时间;
浸泡B单元中波轮的转动时间大于等于浸泡C单元中波轮的转动时间,浸泡B单元中波轮的停止时间小于等于浸泡C单元中波轮的停止时间。
进一步地,在所述洗涤过程之前,控制洗衣机执行浸泡过程。
进一步地,所述控制方法包括以下步骤,
S201、启动洗衣机并开启洗涤程序;
S202、控制洗衣机执行第一次浸泡过程;
S203、控制洗衣机执行第一次洗涤过程;
S203、控制洗衣机执行第二次浸泡过程,然后进入下一个程序。
采用上述技术方案后,本发明与现有技术相比具有以下有益效果。
本发明通过在洗涤过程之后进行进浸泡处理,使得负载在洗涤过程中,通过相对较长的转动洗涤时间,洗衣机内桶上层负载有效的发挥浸泡作用,负载在有限的时间内,上下交替翻转与洗涤剂和水融合在一起,使得负载上的污渍与洗涤剂和水发生反应,从而有效的将污渍溶解,既有效的发挥了浸泡过程的作用,提升洗净比,又能够使洗衣机达到同时兼顾洗净比和耗电量的双重要求,解决了现有洗衣机只能满足洗净比和耗电量其中之一的技术问题。
下面结合附图对本发明的具体实施方式作进一步详细的描述。
附图作为本发明的一部分,用来提供对本发明的进一步的理解,本发明的示意性实施例及其说明用于解释本发明,但不构成对本发明的不当限定。显然,下面描述中的附图仅仅是一些实施例,对于本领域普通技术人员来说,在不付出创造性劳动的前提下,还可以根据这些附图获得其他附图。在附图中:
图1是现有洗衣机运行的程序框图;
图2是本发明实施例中一种洗衣机控制方法的流程图;
图3是本发明实施例中洗衣机运行的程序框图;
图4是本发明实施例中另一种洗衣机控制方法的流程图。
需要说明的是,这些附图和文字描述并不旨在以任何方式限制本发明的构思范围,而是通过参考特定实施例为本领域技术人员说明本发明的概念。
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对实施例中的技术方案进行清楚、完整地描述,以下实施例用于说明本发明,但不用来限制本发明的范围。
在本发明的描述中,需要说明的是,术语“上”、“下”、“前”、“后”、“左”、“右”、“竖直”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置 关系,仅是为了便于描述本发明和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本发明的限制。
在本发明的描述中,需要说明的是,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连。对于本领域的普通技术人员而言,可以具体情况理解上述术语在本发明中的具体含义。
参照图1,示出了现有洗衣机运行的程序框图。
现有洗衣机在洗涤过程之前执行浸泡过程,该浸泡过程的时间一般最长为30min,浸泡过程一般按照多种方式结合进行,或者同一方式多次进行。例如,在洗涤过程之前持续浸泡30min,浸泡过程一般按照浸泡A单元+浸泡B单元+浸泡C单元+浸泡C单元执行(浸泡A单元+浸泡B单元+浸泡C单元+浸泡C单元的时间总和为30min),其中,浸泡A单元为洗衣机转动2min停止3min,浸泡B单元为洗衣机转动1min停止4min,浸泡C单元为洗衣机转动1min停止9min;或者,浸泡过程还可以按照浸泡C单元+浸泡C单元+浸泡C单元执行(浸泡C单元+浸泡C单元+浸泡C单元的时间总和为30min)。这种浸泡过程在洗涤过程之前,洗衣机内桶上层负载在短暂的浸泡过程中由于洗衣机转动时间比较短,上层负载很难甚至无法翻转下去,浸泡效果较差,从而影响整机的洗净比,无法发挥浸泡过程的最大作用;同时,负载无法在有限的时间内与洗涤剂和水融合,这样,为了达到同样的洗净比,一般通过增加洗涤时间或者增加洗涤水流来提升洗净比,于是就又增加了洗衣机的耗电量。
如图1至图4所示,一种洗衣机控制方法,洗衣机的洗涤程序包括洗涤过程和浸泡过程,其特征在于,在洗衣机执行洗涤过程之后,控制洗衣机执行至少一次浸泡过程。本发明通过在洗涤过程之后进行浸泡处理,使得负载在洗涤过程中,通过相对较长的转动洗涤时间,洗衣机内桶上层负载有效的发挥浸泡作用,负载在有限的时间内,上下交替翻转与洗涤剂和水融合在一起,使得负载上的污渍与洗涤剂和水发生反应,从而有效的将污渍溶解,既有效的发挥了浸泡过程的作用,提升洗净比。
实施例一
本实施例所述的一种洗衣机控制方法,用于波轮洗衣机,波轮洗衣机的洗涤程序包括洗涤过程和浸泡过程,波轮洗衣机执行预定时间的洗涤过程之后,自动执行浸泡过程,之后再执行下一步程序。
其中,洗涤过程定义为洗衣机在设定时间内持续不断转动并对衣物进行搓揉洗涤的过程;浸泡过程定义为具有一定转停比(洗衣机转动时间与停止时间的数值比,洗衣机的不同转停比形成不同的水流强度),为洗衣机转动与不转动相结合的过程;在浸泡过程中,一般设置洗衣机的转动时间小于停止时间,以充分利用浸泡过程对洗衣机内的负载进行浸泡处理,所述负载,可以理解为衣服、裤子、毛巾、被套等需要被洗涤处理的物品。
本实施例中,洗衣机的洗涤程序包括一次洗涤过程和一次浸泡过程,浸泡过程在洗涤过程之后执行。在洗涤过程中,洗衣机的控制器控制洗衣机以不同的洗涤转速(高洗涤转速、中高洗涤转速、低洗涤转速)相结合的方式进行转动,以使洗衣机内桶里的衣物负载通过洗衣机持续不断的转动与内桶中的水和洗涤剂充分接触,并达到初步净化的效果;例如,洗衣机先以高洗涤转速转动,然后以中高洗涤转速转动,最后以低洗涤转速转动;或者洗衣机的洗涤转速也可以是由低速运转逐渐向高速运转的方式,具体通过何种方式依据洗衣机容量大小、波轮性质及负载属性进行配置,以使衣物负载既能够在合适动力下被清洗干净,又不至于过多地消耗电能,从而使洗衣机达到同时兼顾洗净比和耗电量的双重要求。
洗衣机的浸泡过程由多种水流强度构成,所述水流强度根据电机转速、和/或波轮转停比进行调整。在浸泡过程中,可以先控制洗衣机以中高洗涤转速的速度转动,然后再控制洗衣机停止转动,以让在洗涤过程中经过洗涤处理后的负载进一步通过浸泡过程中的转动,从而使衣物得到更好的洗净处理,紧接着的洗衣机停止转动过程,让负载衣物浸泡停留在内桶中,使衣物负载上残留的污渍融入水中,大大地提升了衣物负载的洗净比。
如图2所示,为本发明洗衣机的控制方法流程图,本实施例中,洗衣机的控制方法包括以下步骤,
S101、启动洗衣机并开启洗涤程序;
S102、控制洗衣机进入洗涤过程,洗涤过程完成后,执行步骤S103;
S103、控制洗衣机进入浸泡过程,然后进入下一个程序。
在上述技术方案中,启动洗衣机并开启洗衣机的洗涤程序,在进水过程完毕后,洗衣机首先进入设定时间的洗涤过程,这样可以通过相对较长的洗涤时间,洗衣机内桶上层负载能够得到有效的翻转,洗衣机内桶的上层负载和下层负载交替翻转洗涤,从而使得洗衣机内桶中的负载能够充分地与洗涤剂和水相接触,为下一步浸泡过程提供条件。
然后,进入设定时间的浸泡过程,该设定时间一般最长为30分钟,浸泡过程可以为同一 种浸泡方式进行多次,也可以为不同浸泡方式结合进行。这样,已经与洗涤剂和水充分接触的负载能够进一步地在浸泡过程中与洗涤剂和水融合在一起,有效地将负载上的污渍溶解,既有效的发挥了浸泡过程的作用,提升洗净比,又能够使洗衣机达到同时兼顾洗净比和耗电量的双重要求。
进一步地,所述浸泡过程为浸泡A单元、浸泡B单元和浸泡C单元中一种或其任意组合,浸泡A单元、浸泡B单元和浸泡C单元依次或任意顺序执行。例如,浸泡过程可以只是浸泡A单元或者浸泡B单元或者浸泡C单元,浸泡过程可以是浸泡A单元和浸泡B单元的结合,或者浸泡A单元和浸泡C单元的结合,当然浸泡过程还可以是浸泡A单元、浸泡B单元和浸泡C单元三者的结合。具体为哪种方式的浸泡过程可以根据实际需求而定。
其中,浸泡A单元、浸泡B单元和浸泡C单元分别具有不同的转停比;进一步地,所述浸泡A单元的转停比>浸泡B单元的转停比>浸泡C单元的转停比,使浸泡A单元、浸泡B单元、浸泡C单元的水流强度呈逐渐递减趋势。
进一步地,浸泡A单元、浸泡B单元、浸泡C单元的转停比分别为T1、T2、T3,T1、T2、T3均不相同。其中,浸泡A单元中波轮的转动时间大于等于浸泡B单元中波轮的转动时间,浸泡A单元中波轮的停止时间小于等于浸泡B单元中波轮的停止时间。
优选的,所述浸泡A的转停比为2:3,所述浸泡B的转停比为1:4,所述浸泡C的转停比为1:9。具体的,浸泡A单元为洗衣机转动2min停止3min,浸泡B单元为洗衣机转动1min停止4min,浸泡C单元为洗衣机转动1min停止9min。此处各时间的设置为优选的实施例,并不是对本发明控制方法的时间设置进行限制,具体的时间分配视具体的洗衣机容量大小、波轮性质及洗衣衣物属性进行调整。
实施例二
如图3所示,本实施例为上述实施例一的进一步限定,在洗衣机的浸泡过程中,浸泡过程由浸泡A单元、浸泡B单元和浸泡C单元构成,或者浸泡过程由三个浸泡C单元叠加构成。
具体的,开启洗衣机的洗涤程序,洗衣机开始进入的进水阶段,根据用户选择或根据衣物负载容量自动判断需要的进水量,当衣物负载较多时,洗涤桶内进入与衣物负载相适应的高水位水量,进水完成后,洗衣机首先进入预设时间的洗涤过程,这样可以通过相对较长的洗涤时间,洗衣机内桶上层负载能够得到有效的翻转,洗衣机内桶的上层负载和下层负载交替翻转洗涤,从而使得洗衣机内桶中的负载能够充分地与洗涤剂和水相接触,为下一步浸泡 过程提供条件;然后,洗衣机进入30分钟的浸泡过程,该浸泡过程中,首先执行浸泡A单元(波轮转动2分钟停止3分钟),紧接着执行浸泡B单元(波轮转动1分钟停止4分钟),最后执行浸泡C单元(波轮转动1分钟停止9分钟)。当洗衣机内桶中的衣物负载比较少时,浸泡过程可以是三个浸泡C单元的结合,根据衣物负载的不同,来选择合适的浸泡过程,能够有效的节省电量。这样,已经与洗涤剂和水充分接触的负载能够进一步地在浸泡过程中与洗涤剂和水融合在一起,有效地将负载上的污渍溶解,既有效的发挥了浸泡过程的作用,提升洗净比,又能够使洗衣机达到同时兼顾洗净比和耗电量的双重要求。
本实施例中,洗涤程序开启后,一般在1分钟的进水过程之后,洗衣机自动进入第一设定时间的洗涤过程,本实施例中,洗涤过程的第一设定时间设置为15分钟,15分钟的持续不停的转动过程,让洗涤桶内的负载与洗涤剂和水充分接触并融合,之后再进入第二预定时间的浸泡过程,浸泡过程的第二设定时间为30分钟,在短暂的平衡过程之后,进入下一个漂洗程序,本实施例中,漂洗程序为喷淋漂洗。最后,洗衣机进入脱水程序。
实施例三
如图4所示,本实施例与上述实施例一的区别在于:在洗衣机执行洗涤过程之前,控制洗衣机先执行浸泡过程。
本实施例中,所述控制方法包括以下步骤,
S201、启动洗衣机并开启洗涤程序;
S202、控制洗衣机执行第一次浸泡过程,第一次浸泡过程完成后,执行步骤S203;
S203、控制洗衣机执行第一次洗涤过程,第一次洗涤过程完成后,执行步骤S204;
S204、控制洗衣机执行第二次浸泡过程,然后进入下一个程序。
在上述技术方案中,优选的,所述的第一次浸泡过程为浸泡A单元和浸泡B单元的结合,浸泡A单元和浸泡B单元依照任意顺序执行,第二次浸泡过程为浸泡C单元;或者,第一次浸泡过程和第二次浸泡过程均为浸泡A单元、浸泡B单元和浸泡C单元叠加构成。当然,还可以是其他的组合方式,此处所列举的组合方式仅为本实施例的优选方式,并不用来限定本发明的保护范围。
本实施例中,洗涤程序开启后,一般在1分钟的进水过程之后,洗衣机先进入一段时间的第一次浸泡过程,之后洗衣机自动进入洗涤过程,让洗涤桶内的负载与洗涤剂和水充分接触并融合,然后再进入第二次浸泡过程,最后再进入下一步程序。另外,还可以在洗衣机上 设置浊度传感器,该浊度传感器实时检测衣物负载的清洁度,如果清洁度未能达到预设阈值,就说明清洗不到位,需要继续进行洗涤,以满足预设阈值,这时,控制洗衣机循环执行步骤S202-S204,直至满足预设清洁度为止。
以上所述仅是本发明的较佳实施例而已,并非对本发明作任何形式上的限制,虽然本发明已以较佳实施例揭露如上,然而并非用以限定本发明,任何熟悉本专利的技术人员在不脱离本发明技术方案范围内,当可利用上述提示的技术内容作出些许更动或修饰为等同变化的等效实施例,但凡是未脱离本发明技术方案的内容,依据本发明的技术实质对以上实施例所作的任何简单修改、等同变化与修饰,均仍属于本发明方案的范围内。
Claims (10)
- 一种洗衣机控制方法,洗衣机的洗涤程序包括洗涤过程和浸泡过程,其特征在于,在洗衣机执行洗涤过程之后,控制洗衣机执行至少一次浸泡过程。
- 根据权利要求1所述的一种洗衣机控制方法,其特征在于,在所述洗涤过程中,控制洗衣机至少以高洗涤转速的速度转动,以使洗涤剂和/或洗衣粉快速溶解并与衣物充分接触;在所述浸泡过程中,先控制洗衣机以中高洗涤转速的速度转动,再控制洗衣机停止转动,或者先控制洗衣机停止一定时间,再控制洗衣机以中高洗涤转速的速度转动。
- 根据权利要求1或2任一所述的一种洗衣机控制方法,其特征在于,所述控制方法包括以下步骤,S101、启动洗衣机并开启洗涤程序;S102、控制洗衣机进入洗涤过程,洗涤过程完成后,执行步骤S103;S103、控制洗衣机进入浸泡过程,然后进入下一个程序。
- 根据权利要求1-3任一所述的一种洗衣机控制方法,其特征在于,所述浸泡过程由多种水流强度叠加构成,所述水流强度根据电机转速、和/或波轮转停比进行调整。
- 根据权利要求1-4任一所述的一种洗衣机控制方法,其特征在于,所述浸泡过程包括浸泡A单元、浸泡B单元和浸泡C单元中的一种或其任意组合,浸泡A单元、浸泡B单元和浸泡C单元依次或任意顺序执行;其中,浸泡A单元、浸泡B单元和浸泡C单元分别具有不同的水流强度;优选的,所述浸泡过程由浸泡A单元、浸泡B单元和浸泡C单元叠加构成;或者,所述浸泡过程由至少三个浸泡C单元叠加构成。
- 根据权利要求4或5任一所述的一种洗衣机控制方法,其特征在于,所述浸泡A单元、浸泡B单元、浸泡C单元的水流强度根据电机转速、和/或波轮转停比进行调整,使浸泡A单元的水流强度>浸泡B单元的水流强度>浸泡C单元的水流强度。
- 根据权利要求6所述的一种洗衣机控制方法,其特征在于,所述浸泡A单元、浸泡B单元、浸泡C单元中波轮的转停比分别为T 1、T 2、T 3,T 1、T 2、T 3均不相同。
- 根据权利要求7所述的一种洗衣机控制方法,其特征在于,浸泡A单元中波轮的转动时间大于等于浸泡B单元中波轮的转动时间,浸泡A单元中波轮的停止时间小于等于浸泡B单元中波轮的停止时间;浸泡B单元中波轮的转动时间大于等于浸泡C单元中波轮的转动时间,浸泡B单元中波轮的停止时间小于等于浸泡C单元中波轮的停止时间。
- 根据权利要求1-8任一所述的一种洗衣机控制方法,其特征在于,在所述洗涤过程之前,控制洗衣机执行浸泡过程。
- 根据权利要求9所述的一种洗衣机控制方法,其特征在于,所述控制方法包括以下步骤,S201、启动洗衣机并开启洗涤程序;S202、控制洗衣机执行第一次浸泡过程,第一次浸泡过程完成后,执行步骤S203;S203、控制洗衣机执行第一次洗涤过程,第一次洗涤过程完成后,执行步骤S204;S204、控制洗衣机执行第二次浸泡过程,然后进入下一个程序。
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CN1509357A (zh) * | 2002-03-25 | 2004-06-30 | Lg������ʽ���� | 洗衣机的洗涤方法 |
CN1697897A (zh) * | 2003-03-14 | 2005-11-16 | Lg电子株式会社 | 用于清洁洗衣机的桶的方法 |
CN1587488A (zh) * | 2004-08-06 | 2005-03-02 | 宁国聚隆实业有限公司 | 一种全自动洗衣机洗涤衣物的程序方法 |
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JP2016165358A (ja) * | 2015-03-09 | 2016-09-15 | 東芝ライフスタイル株式会社 | 洗濯機 |
CN105040354A (zh) * | 2015-07-23 | 2015-11-11 | 韦振彬 | 一种滚筒洗衣机的洗涤方法 |
CN107268233A (zh) * | 2017-07-10 | 2017-10-20 | 青岛海尔洗衣机有限公司 | 一种洗衣机控制方法及洗衣机 |
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