CN108570789B - Control method of multi-drum washing machine - Google Patents

Abstract

The invention discloses a control method of a multi-drum washing machine, which comprises at least two sets of washing devices, wherein the control method comprises the steps of selecting an oscillation program arranged on the multi-drum washing machine for at least one washing device, adding at least one eccentric device for enhancing the oscillation of the washing device into at least one other washing device, starting the washing device added with the eccentric device according to the oscillation program, and taking the oscillation generated by the washing device as an oscillation source to drive washing water and clothes in the washing device to interact and achieve a washing effect. The control method of the invention utilizes a plurality of sets of washing devices which are connected with each other, and when no oscillation source generates oscillation, the washing device added with the eccentric device is started to generate oscillation, and the oscillation generated by the oscillation is used as the oscillation source to drive the washing device and the oscillation of the washing water and the clothes in the washing device, thereby realizing the function of softly washing the clothes.

Description

Control method of multi-drum washing machine

Technical Field

The invention relates to the field of washing machines, in particular to a control method of a multi-drum washing machine.

Background

Along with the improvement of living standard and quality of life, user's clothing material is more and more high-grade at present, and is gentle, through ordinary impeller type washing machine stirring formula washing or drum type washing machine formula washing of beating, can cause loose or dacron fracture, fluff scheduling problem to the clothing, and then makes washing machine can't reach user's demand.

In view of the above, the present invention is particularly proposed.

Disclosure of Invention

The technical problem to be solved by the present invention is to overcome the shortcomings of the prior art, and to provide a control method for a multiple-drum washing machine, wherein a plurality of sets of washing devices are connected with each other, when at least one washing device selects an oscillation program and no oscillation source generates oscillation, at least one eccentric device for enhancing oscillation of the washing device is added into at least one other washing device, the washing device added with the eccentric device is started to generate oscillation, the oscillation generated by the eccentric device is used as the oscillation source to drive the washing device and the oscillation of the washing water and the clothes in the washing device, and the vibration or the bounce of the washing water in the drum is used to realize the function of softly washing the clothes.

In order to realize the purpose, the invention adopts the following technical scheme: a control method of a multi-drum washing machine comprises at least two sets of washing devices, wherein the control method selects an oscillation program arranged on the multi-drum washing machine for at least one washing device, adds at least one eccentric device for enhancing the oscillation of the washing device into at least one other washing device, then starts the washing device added with the eccentric device according to the oscillation program, and takes the oscillation generated by the eccentric device as an oscillation source to drive the washing water and clothes in the washing device to generate interaction and achieve the washing effect.

Further, the oscillating program comprises an oscillating washing stage, and/or a rinsing stage, and/or a dewatering stage, when the first washing device executes the oscillating washing stage, the second washing device added with the eccentric device is started, and the oscillation generated by the second washing device is used as an oscillating source to drive the washing water and the clothes in the first washing device to interact and achieve the washing effect;

preferably, the second washing means added with the eccentric means is activated to perform a rotation process by rotating the second washing means and the eccentric means and generating an oscillation.

Further, the eccentric device is an eccentric block, and the weight range of the eccentric block is 400G-800G;

preferably, the weight of the eccentric block ranges from 450G to 700G.

Further, the control method further comprises the steps that after the first washing device starts an oscillation program, clothes information of clothes to be washed in the first washing device is obtained, and rotation information of the second washing device is obtained according to the clothes information;

preferably, the rotation information includes one or any combination of a rotation mode, a rotation speed, and a rotation timing.

Further, the rotation modes include a medium-speed continuous rotation mode, and/or a medium-high-speed interval rotation mode, and/or a high-speed intermittent rotation mode.

Further, the medium-speed continuous rotation mode is that the second washing device continuously rotates at the first rotation speed to generate oscillation and drives the first washing device to oscillate and wash;

preferably, the first set rotation speed is in the range of 300rmp to 600 rmp.

Furthermore, the medium-high speed interval rotation mode is that the second washing device rotates alternately at a second rotation speed and a third rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the second rotational speed is greater than the third rotational speed;

more preferably, the second rotation speed is in the range of 600rmp to 1200 rmp; the third rotational speed ranges from 300rmp to 600 rmp.

Further, the high-speed interval rotation mode is executed according to a first rotation time sequence, and the rotation time range corresponding to a second rotation speed in the first rotation time sequence is 1min-5 min; the third rotating speed corresponds to the rotating time range of 1min-3 min.

Further, the high-speed intermittent rotation mode is that the second washing device intermittently rotates at a fourth rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the fourth rotation speed is in the range of 600rmp to 1200 rmp;

more preferably, the high-speed intermittent rotation mode is executed according to a second rotation time sequence, and the stop time range in the second rotation time sequence is 1min-5 min; the rotation time range is 1min-3 min.

Further, the control method comprises the following steps:

s101, selecting an oscillation program by a first washing device;

s102, acquiring clothes information in the first washing device, and obtaining rotation information corresponding to a rotation process executed by the second washing device according to the clothes information;

s103, rotation information is obtained, a second washing device added with an eccentric device is started to execute a rotation process according to the rotation information, and the second washing device drives the first washing device to execute an oscillation washing stage.

After adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects:

1. the control method of the multi-drum washing machine solves the problem that the soft clothes are damaged by stirring washing or beating washing, and mainly adds at least one eccentric device for enhancing the oscillation of the washing device into at least one other washing device after at least one washing device selects an oscillation program and no oscillation source generates the oscillation, starts the washing device added with the eccentric device according to the oscillation program to generate the oscillation, and uses the oscillation generated by the eccentric device as the oscillation source to drive the washing device to carry out the oscillation washing. Thereby driving the washing water in the washing device and the vibration of the clothes, and realizing the function of softly washing the clothes by utilizing the vibration or the bounce of the washing water in the roller.

2. According to the control method of the multi-drum washing machine, the clothes information of the clothes to be washed is obtained, the rotation parameters of the second washing device for executing the rotation process are obtained according to the clothes information of the clothes to be washed, the oscillating washing of the first washing device can be accurately controlled, the soft washing degree of the clothes can be accurately controlled by the control method, and the problems of loosening of the clothes, breakage of terylene and fluffing of the clothes can be effectively solved.

Drawings

FIG. 1 is a flowchart illustrating a control method of a multi-drum washing machine according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating a control method of a multi-drum washing machine according to another embodiment of the present invention;

FIG. 3 is a flowchart illustrating a control method of a multi-drum washing machine according to another embodiment of the present invention;

fig. 4 is a flowchart illustrating a control method of a multi-drum washing machine according to another embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example one

As shown in fig. 1 to 4, the present invention relates to a control method for a multiple drum washing machine, the multiple drum washing machine includes at least two sets of washing devices, the control method selects an oscillation program set on the multiple drum washing machine for at least one washing device, starts at least one other washing device according to the oscillation program, and uses the oscillation generated by the other washing device as an oscillation source to drive the washing water and the clothes in the washing device to interact and achieve the washing effect.

Specifically, in the present embodiment, the multi-drum washing machine includes at least two sets of washing devices, and the washing devices are integrally connected or rigidly connected; the washing devices are independently arranged, the washing devices are rigidly connected, and the washing devices are arranged in parallel or in an array.

Or, a common outer cylinder is arranged in the multi-drum washing machine, at least two inner cylinders are arranged in the outer cylinder to form an integral connecting structure, and the inner cylinders are arranged in parallel or in an array.

Meanwhile, in the control method of the embodiment, a plurality of sets of washing devices which are connected with each other are utilized, when at least one washing device oscillates, the other at least one washing device and the washing water and the clothes in the washing device are driven to oscillate, and the function of softly washing the clothes is realized by utilizing the vibration or the jumping of the washing water in the drum. In this embodiment, when at least one washing device selects the oscillation program and no oscillation source generates oscillation, at least one other washing device needs to be started to generate oscillation, the oscillation generated by the at least one washing device is used as the oscillation source to drive the washing water and the clothes in the washing device to oscillate, and the function of softly washing the clothes is realized by using the oscillation or jumping of the washing water in the drum. Therefore, when the oscillation program is executed, at least one other washing device is actively started according to the oscillation program to generate oscillation and serve as an oscillation source, and then the washing water and the clothes in the washing device are driven to carry out oscillation washing. Therefore, the multi-drum washing machine can actively execute the vibration generated by at least one other washing device and realize the function of actively controlling the soft washing of the clothes.

Further, the oscillating program comprises an oscillating washing stage, and/or a rinsing stage, and/or a dewatering stage, when the first washing device executes the oscillating washing stage, the second washing device is started, and the oscillation generated by the second washing device is used as an oscillating source to drive the washing water and the clothes in the first washing device to interact and achieve the washing effect;

preferably, the second washing device is activated to perform a spinning course by spinning the second washing device and generating an oscillation.

Specifically, the shaking procedure in this embodiment includes a shaking washing stage, and/or a rinsing stage, and/or a dewatering stage; in the oscillating washing stage, the oscillation generated by the second washing device is used as an oscillating source to drive the washing water and the clothes in the first washing device to interact and achieve a washing effect; when the first washing device executes an oscillation washing stage, the second washing device is started to execute a rotation process, the oscillation generated by the rotation process is used as an oscillation source to drive the first washing device to oscillate, and simultaneously drive the washing water in the roller of the first washing device to vibrate and even bounce, and the vibration or bounce of the washing water in the roller is utilized to generate interaction with the clothes in the roller of the first washing device, so that the function of soft washing is realized. The problem that the clothes are loosened or terylene is broken and fluffed due to the high-speed rotation of the roller is avoided.

Meanwhile, the rotation process is realized by rotating the inner cylinder in the second washing device and generating oscillation.

Furthermore, the control method further comprises the steps that after the first washing device starts the oscillation program, the clothes information of the clothes to be washed in the first washing device is obtained, and the rotation information corresponding to the rotation process executed by the second washing device is obtained according to the clothes information.

Specifically, in the embodiment, the control method obtains the clothes information of the clothes to be washed in the first washing device, and obtains the rotation information corresponding to the execution rotation process of the second washing device according to the clothes information, so that the control method can more accurately control the soft washing degree of the clothes, and more efficiently avoid the problems of clothes looseness, polyester breakage and fluffing. Meanwhile, the clothes information includes one or any combination of clothes weight, clothes material and clothes type.

For example, when the weight of the clothes in the first washing device is greater than a first set value, the rotation mode is a medium-high speed interval rotation mode; and when the weight of the clothes in the first washing device is less than a first set value, the rotation mode is a medium-speed continuous rotation mode.

Further, the rotation information includes one or any combination of a rotation mode, a rotation speed, and a rotation timing sequence.

Specifically, in the present embodiment, the rotation mode corresponds to the rotation speed and the rotation sequence, and the corresponding relationship is stored in the multi-drum washing machine. In this embodiment, the rotation mode, the rotation speed, and the rotation time sequence are matched, so that the oscillation generated when the second washing device executes the washing process is optimized, and the degree and the effect of the oscillating washing of the first washing device can be further adjusted according to the rotation mode, the rotation speed, and the rotation time sequence parameters in the adjustment rotation information.

Further, the rotation mode includes one or any combination of a medium-speed continuous rotation mode, a medium-high speed interval rotation mode and a high-speed intermittent rotation mode.

Specifically, in this embodiment, the second washing device can obtain a rotation mode when the second washing device executes a rotation process according to the obtained information of the clothes to be washed in the first washing device;

in this embodiment, different degrees of oscillation are generated through different rotation modes, so as to drive the first washing device to generate different washing effects, and the different washing effects are matched with the clothes information of the clothes to be washed in the first washing device, so that the control method can correspondingly select different rotation modes according to the washing effects required by different clothes, and further ensure that the control method can more accurately control the degree of soft washing of the clothes.

Alternatively, in this embodiment, the user may also actively set the rotation mode of the second washing device according to the user's judgment. Thereby improving the soft washing effect of the control method.

Further, the medium-speed continuous rotation mode is that the second washing device continuously rotates at the first rotation speed to generate oscillation and drives the first washing device to oscillate and wash;

preferably, the first rotational speed is in the range of 300rmp-600 rmp.

Specifically, in this embodiment, the inner drum of the second washing device continuously rotates at a first rotation speed to generate continuous medium-intensity oscillation, and drives the first washing device to perform medium-intensity oscillation washing; so that the first washing device can achieve a moderate soft washing effect. For example, when the laundry weight of the laundry in the first washing device is moderate, the middle intensity continuous oscillation washing is adopted.

Furthermore, the medium-high speed interval rotation mode is that the second washing device rotates alternately at a second rotation speed and a third rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the second rotational speed is greater than the third rotational speed;

more preferably, the second rotation speed is in the range of 600rmp to 1200 rmp; the third rotation speed is in the range of 300-600 rmp;

more preferably, the high-speed interval rotation mode is executed according to a first rotation time sequence, and the rotation time range corresponding to the second rotation speed in the first rotation time sequence is 1min-5 min; the third rotating speed corresponds to the rotating time range of 1min-3 min.

Specifically, in this embodiment, the inner cylinder in the second washing device alternately rotates at the second rotation speed and the third rotation speed to generate high-intensity oscillation, and drives the first washing device to perform high-intensity oscillation washing; so that the first washing device can achieve a high-strength soft washing effect. When the clothes to be washed in the first washing device are made of wool and have more weight, the vibration washing with high strength is adopted, so that the safety of the clothes washing is ensured on one hand, and the washing effect can be ensured on the other hand.

Further, the high-speed intermittent rotation mode is that the second washing device intermittently rotates at a fourth rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the fourth rotation speed is in the range of 600rmp to 1200 rmp;

more preferably, the high-speed intermittent rotation mode is executed according to a second rotation time sequence, and the stop time range in the second rotation time sequence is 1min-5 min; the rotation time range is 1min-3 min.

Specifically, in this embodiment, the inner drum in the second washing device intermittently rotates at a fourth rotation speed to generate low-intensity oscillation, and drives the first washing device to perform low-intensity oscillation washing; so that the first washing device can achieve a soft washing effect with low strength. For example, when the clothes to be washed in the first washing device are made of silk and the weight of the clothes is light, the silk clothes can be better washed by adopting low-intensity oscillation washing, and the safety of the silk clothes washing can be better ensured.

Further, the control method comprises the following steps:

s1, selecting an oscillation program by the first washing device;

s2, acquiring clothes information in the first washing device, and obtaining rotation information corresponding to the rotation process executed by the second washing device according to the clothes information;

and S3, acquiring the rotation information, starting a second washing device to execute a rotation process according to the rotation information, and driving the first washing device to execute an oscillation washing stage by the second washing device.

Specifically, in the control method of this embodiment, after the first washing device selects the oscillation program, the first washing device first obtains the information of the laundry in the first washing device, and obtains the rotation information corresponding to the second washing device executing the rotation process according to the information of the laundry, then starts the second washing device executing the rotation process according to the rotation information, and drives the first washing device to execute the oscillation washing stage by the second washing device, and the oscillation generated by the second washing device is used as the oscillation source to drive the washing water and the laundry in the washing device to oscillate, and the function of softly washing the laundry is realized by using the vibration or the bounce of the washing water in the drum. The multi-drum washing machine of the embodiment can actively execute the oscillation generated by at least one other washing device and realize the function of actively controlling the light washing of the clothes. On the other hand, the vibration washing of the first washing device can be accurately controlled according to the information of the clothes to be washed, so that the control method can more accurately control the soft washing degree of the clothes, and the problems of loosening of the clothes, breakage of terylene and fluffing are more efficiently avoided.

In summary, the control method of the multi-drum washing machine of the present embodiment has the following advantages:

1. the control method of the multi-drum washing machine solves the problem that the soft clothes are damaged by stirring washing or beating washing, and in the embodiment, mainly when at least one washing device selects an oscillation program and no oscillation source generates vibration, at least one other washing device needs to be started to generate oscillation, and the oscillation generated by the at least one washing device is used as the oscillation source to drive the at least one washing device to carry out oscillation washing. The vibration of the washing water and the clothes in the other at least one washing device and the washing device is driven, and the function of softly washing the clothes is realized by utilizing the vibration or the jumping of the washing water in the roller.

2. According to the control method of the multi-drum washing machine, the rotation parameters of the second washing device for executing the rotation process are obtained according to the clothes information of the clothes to be washed, the vibration washing of the first washing device can be accurately controlled, the soft washing degree of the clothes can be accurately controlled by the control method, and the problems of loosening of the clothes or breakage and fluffing of terylene can be effectively solved.

Example two

As shown in fig. 2, the present embodiment is different from the above embodiments in that the control method of the present embodiment includes the following steps:

s1, selecting an oscillation program by the first washing device;

s2, acquiring clothes information in the first washing device, and obtaining rotation information corresponding to the rotation process executed by the second washing device according to the clothes information;

A) the method comprises the following steps Starting a water inlet valve and feeding water into the second washing device;

and S3, rotating the second washing device, and driving the first washing device to execute an oscillation washing stage by the second washing device.

In the embodiment, the water inlet valve is connected with the second washing device, and the water inlet valve can be communicated with a tap water pipe through a pipeline and can feed water into the second washing device; the water inlet valve can also be connected with the first washing device through a pipeline and can flow the washing water in the first washing device into the second washing device. In the embodiment, water is fed into the second washing device, so that the kinetic energy of the second washing device is increased, the vibration effect of the second washing device is improved, and the washing effect of the first washing device in oscillating washing of clothes is further improved.

Meanwhile, the water inflow corresponds to the clothes information, and the corresponding relation of the water inflow and the clothes information is stored in the multi-drum washing machine. The vibration degree of the washing water and the clothes in the first washing device can be accurately controlled, and then the washing effect of the clothes can be accurately controlled.

EXAMPLE III

As shown in fig. 3, the present embodiment is different from the above embodiments in that the present embodiment provides a control method for a multiple drum washing machine, where the multiple drum washing machine includes at least two sets of washing devices, the control method selects an oscillation program set on the multiple drum washing machine for at least one washing device, adds at least one eccentric device for enhancing oscillation of the washing device into at least one other washing device, then starts the washing device added with the eccentric device according to the oscillation program, and uses the oscillation generated by the washing device as an oscillation source to drive interaction between washing water and clothes in the washing device to achieve a washing effect.

Specifically, in the present embodiment, the multi-drum washing machine includes at least two sets of washing devices, and the washing devices are integrally connected or rigidly connected; the washing devices are independently arranged, the washing devices are rigidly connected, and the washing devices are arranged in parallel or in an array.

Or, a common outer cylinder is arranged in the multi-drum washing machine, at least two inner cylinders are arranged in the outer cylinder to form an integral connecting structure, and the inner cylinders are arranged in parallel or in an array.

Meanwhile, in the control method of the embodiment, a plurality of sets of washing devices which are connected with each other are utilized, when at least one washing device oscillates, the other at least one washing device and the washing water and the clothes in the washing device are driven to oscillate, and the function of softly washing the clothes is realized by utilizing the vibration or the jumping of the washing water in the drum. In the embodiment, the eccentric device capable of enhancing the oscillation of the washing device is added in the second washing device, so that the kinetic energy of the second washing device during oscillation is increased, the oscillation effect of the second washing device is improved, and the washing effect of the first washing device for oscillating and washing the clothes is further improved.

Further, the oscillating program comprises an oscillating washing stage, and/or a rinsing stage, and/or a dewatering stage, when the first washing device executes the oscillating washing stage, the second washing device added with the eccentric device is started, and the oscillation generated by the second washing device is used as an oscillating source to drive the washing water and the clothes in the first washing device to interact and achieve the washing effect;

preferably, the second washing means added with the eccentric means is activated to perform a rotation process by rotating the second washing means and the eccentric means and generating an oscillation.

Further, the eccentric device is an eccentric block, and the weight range of the eccentric block is 400G-800G;

preferably, the weight of the eccentric block ranges from 450G to 700G.

Further, the control method further comprises the steps that after the first washing device starts an oscillation program, clothes information of clothes to be washed in the first washing device is obtained, and rotation information of the second washing device is obtained according to the clothes information;

preferably, the rotation information includes one or any combination of a rotation mode, a rotation speed, and a rotation timing.

Meanwhile, the weight of the eccentric block corresponds to the clothes information, and the corresponding relation is stored in the multi-drum washing machine. The vibration degree of the washing water and the clothes in the first washing device can be accurately controlled, and then the washing effect of the clothes can be accurately controlled.

Further, the rotation modes include a medium-speed continuous rotation mode, and/or a medium-high-speed interval rotation mode, and/or a high-speed intermittent rotation mode.

Further, the medium-speed continuous rotation mode is that the second washing device continuously rotates at the first rotation speed to generate oscillation and drives the first washing device to oscillate and wash;

preferably, the first set rotating speed is in the range of 300-600 rmp;

furthermore, the medium-high speed interval rotation mode is that the second washing device rotates alternately at a second rotation speed and a third rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the second rotational speed is greater than the third rotational speed;

more preferably, the second rotation speed is in the range of 600rmp to 1200 rmp; the third rotation speed is in the range of 300-600 rmp;

more preferably, the high-speed interval rotation mode is executed according to a first rotation time sequence, and the rotation time range corresponding to the second rotation speed in the first rotation time sequence is 1min-5 min; the third rotating speed corresponds to the rotating time range of 1min-3 min.

Further, the high-speed intermittent rotation mode is that the second washing device intermittently rotates at a fourth rotation speed to generate oscillation and drive the first washing device to oscillate and wash;

preferably, the fourth rotation speed is in the range of 600rmp to 1200 rmp;

more preferably, the high-speed intermittent rotation mode is executed according to a second rotation time sequence, and the stop time range in the second rotation time sequence is 1min-5 min; the rotation time range is 1min-3 min.

Further, the control method comprises the following steps:

s101, selecting an oscillation program by a first washing device;

s102, acquiring clothes information in the first washing device, and obtaining rotation information corresponding to a rotation process executed by the second washing device according to the clothes information;

s103, rotation information is obtained, a second washing device added with an eccentric device is started to execute a rotation process according to the rotation information, and the second washing device drives the first washing device to execute an oscillation washing stage.

In summary, the control method of the multi-drum washing machine of the present embodiment has the following advantages:

1. the control method of the multi-drum washing machine solves the problem that the soft clothes are damaged by stirring washing or beating washing, and in the embodiment, mainly after at least one washing device selects an oscillation program and no oscillation source generates vibration, at least one eccentric device for enhancing the oscillation of the washing device is added into at least one other washing device, the washing device added with the eccentric device is started to generate the oscillation according to the oscillation program, and the oscillation generated by the eccentric device is used as the oscillation source to drive the washing device to carry out oscillation washing. The washing water in the washing device and the vibration of the clothes are driven, and the function of softly washing the clothes is realized by utilizing the vibration or the jumping of the washing water in the roller.

2. According to the control method of the multi-drum washing machine, the rotation parameters of the second washing device for executing the rotation process are obtained according to the clothes information of the clothes to be washed, the vibration washing of the first washing device can be accurately controlled, the soft washing degree of the clothes can be accurately controlled by the control method, and the problems of loosening of the clothes or breakage and fluffing of terylene can be effectively solved.

Example four

As shown in fig. 4, the present embodiment is different from the above embodiments in that the present embodiment further provides a control method of a multiple drum washing machine, the multiple drum washing machine includes at least two sets of washing devices, the control method is to provide an oscillation program on the multiple drum washing machine, and the oscillation program is a program that takes the oscillation generated by at least one washing device as an oscillation source to drive the washing water and the laundry in at least one other washing device to interact and achieve a washing effect.

Furthermore, the control method is that oscillation information in the working process of a second washing device serving as an oscillation source is detected, whether the first washing device executes an oscillation program or not is judged according to the oscillation information, and oscillation washing is executed by matching with the second washing device;

or, the control method is to set the information of the oscillation corresponding to the second washing device as the oscillation source and the oscillation program, and control the first washing device to cooperate with the second washing device to execute the oscillation washing.

Further, the control method further comprises the steps that after the first washing device executes the oscillation program, the oscillation information of the second washing device is obtained, and the oscillation washing mode is obtained and executed according to the oscillation information.

Further, the information of the oscillation comprises washing progress information and/or rotating speed information of a drum in the washing device;

preferably, the washing course information includes one or any combination of a soaking stage, a washing stage, a rinsing stage and a dehydrating stage.

Further, the control method comprises the following steps:

s201, starting a washing program by a first washing device;

s202, detecting washing process information in the working process of the second washing device, judging whether the washing process is a preset washing process according to the washing process information, and if so, executing the step S203; if not, executing a normal washing program;

s203, detecting the rotating speed information of the drum in the second washing device, and obtaining and executing an oscillating washing mode according to the rotating speed information of the drum.

Further, the preset washing course in step S202 includes a washing course, and/or a dehydrating course.

Further, the oscillation washing mode comprises one or any combination of the second washing device driving the first washing device to oscillate and wash and the first washing device and the second washing device to alternately oscillate and wash;

preferably, the information of the rotation speed of the drum in step S203 corresponds to the oscillating washing mode, and the correspondence is stored in the multi-drum washing machine.

Further, when the washing course information in step S202 is a washing course and the rotation speed information of the drum in step S203 is greater than the first set rotation speed, the oscillation washing mode is that the first washing device and the second washing device oscillate and wash alternately, or the second washing device drives the first washing device to oscillate and wash;

preferably, the first set rotating speed ranges from 100rpm to 350 rpm;

more preferably, the first set rotation speed is in the range of 200rpm to 300 rpm.

Further, when the washing process information in step S202 is a dehydration stage and the rotation speed information of the drum in step S203 is greater than a second set rotation speed, the oscillation washing mode is that the second washing device drives the first washing device to oscillate and wash;

preferably, the second set rotating speed is more than 500 rpm;

more preferably, the second set rotation speed is greater than 600 rpm.

Further, in the step S203, the oscillating washing mode is that when the second washing device drives the first washing device to oscillate and wash, or the first washing device and the second washing device alternately oscillate and wash, the first washing device is controlled to rotate at a third set rotation speed;

preferably, the third set rotation speed is less than 50 rpm;

more preferably, the third set rotation speed is less than 30 rpm.

The embodiments in the above embodiments can be further combined or replaced, and the embodiments are only used for describing the preferred embodiments of the present invention, and do not limit the concept and scope of the present invention, and various changes and modifications made to the technical solution of the present invention by those skilled in the art without departing from the design idea of the present invention belong to the protection scope of the present invention.

Claims (17)

1. A control method of a multi-drum washing machine, the multi-drum washing machine comprises at least two sets of washing devices, and is characterized in that: the control method comprises the steps that an oscillation program arranged on the multi-drum washing machine is selected for at least one first washing device, at least one eccentric device for enhancing oscillation of the second washing device is added into at least one other second washing device, the oscillation program comprises an oscillation washing stage, and/or a rinsing stage, and/or a dewatering stage, when the first washing device executes the oscillation washing stage, the second washing device added with the eccentric device is started according to the oscillation program, and oscillation generated by the second washing device is used as an oscillation source to drive washing water and clothes in the first washing device to interact and achieve a washing effect.

2. A control method of a multi-drum washing machine according to claim 1, characterized in that: and starting the second washing device added with the eccentric device to execute a rotating process, wherein the rotating process is realized by rotating the second washing device and the eccentric device and generating oscillation.

3. A control method of a multi-drum washing machine according to claim 1, characterized in that: the eccentric device is an eccentric block, and the weight range of the eccentric block is 400G-800G.

4. A control method of a multi-drum washing machine according to claim 2, characterized in that: the eccentric device is an eccentric block, and the weight range of the eccentric block is 400G-800G.

5. A control method of a multi-drum washing machine according to any one of claims 1-4, characterized in that: the control method further comprises the steps that after the first washing device starts the oscillation program, the clothes information of clothes to be washed in the first washing device is obtained, and the rotation information of the second washing device is obtained according to the clothes information.

6. A control method of a multi-drum washing machine according to claim 5, characterized in that: the rotation information comprises one or any combination of a rotation mode, a rotation speed and a rotation time sequence.

7. A control method of a multi-drum washing machine according to claim 6, characterized in that: the rotation modes include a medium-speed continuous rotation mode, and/or a medium-high-speed interval rotation mode, and/or a high-speed intermittent rotation mode.

8. A control method of a multi-drum washing machine according to claim 7, characterized in that: the medium-speed continuous rotation mode is that the second washing device continuously rotates at the first rotation speed to generate oscillation and drives the first washing device to oscillate and wash.

9. A control method of a multi-drum washing machine according to claim 8, characterized in that: the first rotational speed ranges from 300rmp to 600 rmp.

10. A control method of a multi-drum washing machine according to claim 7, characterized in that: the middle-high speed interval rotation mode is that the second washing device rotates alternately at a second rotation speed and a third rotation speed to generate oscillation and drive the first washing device to oscillate and wash.

11. A control method of a multi-drum washing machine according to claim 10, characterized in that: the second rotational speed is greater than the third rotational speed.

12. A control method of a multi-drum washing machine according to claim 11, characterized in that: the second rotation speed is in the range of 600-1200 rmp; the third rotational speed ranges from 300rmp to 600 rmp.

13. A control method of a multi-drum washing machine according to claim 10, characterized in that: the middle-high speed interval rotation mode is executed according to a first rotation time sequence, and the rotation time range corresponding to a second rotation speed in the first rotation time sequence is 1-5 min; the third rotating speed corresponds to the rotating time range of 1min-3 min.

14. A control method of a multi-drum washing machine according to claim 7, characterized in that: the high-speed intermittent rotation mode is that the second washing device intermittently rotates at a fourth rotation speed to generate oscillation and drive the first washing device to oscillate and wash.

15. A control method of a multi-drum washing machine according to claim 14, characterized in that: the fourth rotational speed ranges from 600rmp to 1200 rmp.

16. A control method of a multi-drum washing machine according to claim 14, characterized in that: the high-speed intermittent rotation mode is executed according to a second rotation time sequence, and the stop time range in the second rotation time sequence is 1-5 min; the rotation time range is 1min-3 min.

17. A control method of a multi-drum washing machine according to claim 1, characterized in that: the control method comprises the following steps:

s101, selecting an oscillation program by a first washing device;

s102, acquiring clothes information in the first washing device, and obtaining rotation information corresponding to a rotation process executed by the second washing device according to the clothes information;

s103, rotation information is obtained, a second washing device added with an eccentric device is started to execute a rotation process according to the rotation information, and the second washing device drives the first washing device to execute an oscillation washing stage.

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