CN114164613A - Drying method of washing and drying integrated machine - Google Patents

Abstract

The invention discloses a drying method of a washing and drying integrated machine, which comprises a spin-drying and shaking-dispersing step and a drying step, wherein the spin-drying and shaking-dispersing step comprises a plurality of dehydration stages and shaking-dispersing stages; the dehydration stage executes a dehydration program, and the shaking stage is arranged between every two dehydration stages; executing a shaking and scattering program in the shaking and scattering stage, judging whether the clothes are completely stripped from the inner cylinder wall in the running process of the shaking and scattering program, and entering the next dehydration stage when the judgment result is yes; if not, continuing to execute the jitter dispersion program; and executing a drying program in the drying step to dry the clothes. According to the drying method of the washing and drying integrated machine, the shaking and scattering stages are arranged among the dewatering stages, so that the clothes can be prevented from being attached to the wall of the inner barrel after the final dewatering stage is finished, the drying efficiency in the drying step is high, the drying time is shortened, meanwhile, the clothes are not prone to wrinkling, manual intervention is not needed, and intelligent clothes washing is achieved.

Description

Drying method of washing and drying integrated machine

Technical Field

The invention relates to the technical field of household appliances, in particular to a drying method of a washing and drying integrated machine.

Background

The drying process is gone into after the spin-drying to current drum washing and drying all-in-one, and the stoving clothing in-process is owing to through the high-speed process of spin-drying, and the inner tube wall can be hugged closely to the clothing, can not fully become revenge with whole clothing at the drying process, and the clothing stoving effect is not good, and causes the fold easily, needs to take off the clothing and tremble the scattering with the clothing from the inner tube wall by hand, dries again, can't satisfy the process of intelligent laundry, stoving. In order to solve the problem, after the spin-drying of part of the washing and drying integrated machine is finished, a shaking and scattering program is added, and then the drying program is started, but experiments show that the clothes are tightly attached to the inner cylinder wall after being spin-dried at a high speed, and even if the clothes are shaken and scattered, the clothes are difficult to be completely peeled off from the inner cylinder wall, so that the drying effect of the clothes is influenced.

Disclosure of Invention

Based on the above, the technical problem to be solved by the invention is to provide a drying method of a washing and drying integrated machine with high clothes drying efficiency.

In order to realize the purpose of the invention, the invention is realized by adopting the following technical scheme:

a drying method of a washing and drying integrated machine comprises the following steps:

a drying and shaking step which comprises a plurality of dehydration stages and shaking stages; the dehydration stage executes a dehydration program, and the shaking stage is arranged between every two dehydration stages; executing a shaking and scattering program in the shaking and scattering stage, judging whether the clothes are completely stripped from the inner cylinder wall in the running process of the shaking and scattering program, and entering the next dehydration stage when the judgment result is yes; if not, continuing to execute the jitter dispersion program;

and a drying step, in which a drying program is executed to dry the clothes.

Further, the maximum rotating speed of the inner cylinder of each dehydration stage is increased from front to back in sequence.

Further, the spin-drying dispersion step comprises 6 dehydration stages, and the maximum rotation speed of the inner cylinder of each dehydration stage is 400rpm, 600rpm, 800rpm, 1000rpm, 1200rpm and 1400rpm in sequence.

Furthermore, the maximum rotating speeds of the inner cylinders of every two dehydration stages from front to back are equal, and the maximum rotating speeds of the inner cylinders of every two dehydration stages from front to back are sequentially increased.

Further, the shaking and dispersing program comprises driving the inner cylinder to rotate forward and backward alternately.

Further, the process of forward rotation or reverse rotation of the inner cylinder in the shaking-up procedure is as follows: after the inner cylinder is accelerated to a first preset rotating speed, the inner cylinder keeps the first preset rotating speed to operate for a period of time, and then the inner cylinder stops rotating for a period of time after being accelerated to a second preset rotating speed.

Further, the first predetermined rotation speed is equal to the washing rotation speed.

Furthermore, the running time range of the shaking-up procedure is 0-6 min, and the second preset rotating speed range is 50-70 rpm.

Further, the shaking-out stage judges whether the clothes are completely peeled from the inner cylinder wall through a judgment program, wherein the judgment program comprises the steps of detecting a load eccentricity value, and judging that the clothes are completely peeled from the inner cylinder wall when the load eccentricity value reaches a maximum value and is kept constant.

Further, the dewatering process includes driving the inner drum to rotate in a pulsed manner to a maximum rotational speed.

Compared with the prior art, the invention has the advantages and positive effects that:

according to the drying method of the washing and drying integrated machine, the shaking and dispersing stages are arranged among the dewatering stages, and the dewatering rotating speed, the dewatering time, the shaking and dispersing rotating speed and the like are controlled, so that the clothes can be prevented from being stuck to the wall of the inner barrel after the final dewatering stage is finished, the drying efficiency in the drying step is high, the drying time is shortened, meanwhile, the clothes are not prone to wrinkling, manual intervention is not needed, and intelligent washing is achieved.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a spin-drying and shaking step in a drying method of the washing and drying integrated machine of the present invention;

FIG. 2 is a flow chart of a drying method of the washing and drying integrated machine of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 and 2, an embodiment of a drying method of an all-in-one washer dryer of the present invention includes a spin-drying and shaking step and a drying step.

As shown in fig. 1, the spin-drying and shaking step includes several dehydration stages and shaking stages. The dehydration stage executes the dehydration program, and the shaking-off stage is arranged between every two dehydration stages. Executing a shaking and scattering program in the shaking and scattering stage, judging whether the clothes are completely stripped from the inner cylinder wall in the running process of the shaking and scattering program, and entering the next dehydration stage when the judgment result is yes; and if not, continuing to execute the shaking-up procedure until the clothes are completely stripped from the inner cylinder wall. In the early stage of dehydration, the clothing contains more moisture and pastes on inner tube wall more easily and be difficult for peeling off, so tremble the stage through setting up and make the clothing peel off from inner tube wall completely, can guarantee in the dehydration stage of later stage that the clothing can not paste on inner tube wall, improves the stoving effect.

And after the spin-drying and shaking step, a drying step is carried out, and a drying program is executed in the drying step to dry the clothes.

According to the drying method of the washing and drying integrated machine, the shaking stages are arranged among the dewatering stages, and the dewatering rotating speed, the dewatering time, the shaking rotating speed and the like are controlled, so that the clothes can be prevented from being stuck to the wall of the inner barrel after the final dewatering stage is finished, the drying efficiency in the drying step is high, the drying time is shortened, meanwhile, the clothes are not prone to wrinkling, manual intervention is not needed, and intelligent washing is achieved.

Preferably, the maximum rotation speed of the inner drum of each dehydration stage is increased from front to back in sequence. Preferably, the spin-drying dispersion step comprises 6 dehydration stages, and the maximum rotation speed of the inner cylinder of each dehydration stage is 400rpm, 600rpm, 800rpm, 1000rpm, 1200rpm and 1400rpm in sequence.

In this embodiment, in order to improve the dewatering effect, the number of the dewatering stages can be increased, and preferably, the maximum rotation speed of the inner cylinder is equal for every two dewatering stages from front to back, and the maximum rotation speed of the inner cylinder is sequentially increased for every two dewatering stages from front to back. For example, as shown in fig. 1, the spin-dry shaking step includes 12 spin-drying stages, and the maximum rotation speed of the inner drum of each spin-drying stage is 400rpm, 600rpm, 800rpm, 1000rpm, 1200rpm, 1400rpm in this order.

In this embodiment, the shaking process includes driving the inner drum to rotate in a forward and reverse direction alternately, and the laundry is gradually peeled off from the inner drum wall by the centrifugal force and the laundry gravity. The process of forward rotation or reverse rotation of the inner barrel in the shaking-up procedure is as follows: after the inner cylinder is accelerated to a first preset rotating speed, the inner cylinder keeps the first preset rotating speed to operate for a period of time, and then the inner cylinder stops rotating for a period of time after being accelerated to a second preset rotating speed.

The first predetermined speed is equal to the washing speed, preferably 35 rpm. The running time range of the shaking-up procedure is 0-6 min, and the second preset rotating speed range is 50-70 rpm, preferably 70 rpm.

In this embodiment, the shaking-out stage determines whether the laundry is completely peeled off from the inner cylindrical wall by a determination procedure, wherein the determination procedure includes detecting the load eccentricity value, and determining that the laundry is completely peeled off from the inner cylindrical wall when the load eccentricity value reaches a maximum value and is maintained constant. And (3) when the dehydration stage is finished, starting a shaking and scattering program, gradually peeling off the clothes from the inner cylinder wall through centrifugal force and clothes gravity, gradually increasing the eccentricity value until the detected eccentricity value is kept in a constant state, indicating that all the clothes are peeled off from the inner cylinder wall and the clothes are fully distributed in the whole inner cylinder, and finishing the shaking and scattering program. The load eccentricity value can be measured by adopting an eccentricity detection method in the prior art, for example, the load eccentricity value can be measured by an inner cylinder rotating speed variation or an inner cylinder amplitude detection method through a vibration sensor (including a displacement sensor and an acceleration sensor), and specific steps are not repeated.

In this embodiment, the spin-drying process includes driving the drum to rotate in a pulsed manner to a maximum rotational speed. The inner cylinder rotates in a pulse mode, and a pause process is arranged in the middle of the inner cylinder, so that the clothes can not be tightly attached to the wall of the inner cylinder. The running time range of the dehydration program is 0-6 min. The load eccentricity value is detected in the dehydration process to adjust the distribution condition of the inner drum clothes, and the problem of eccentricity is avoided in the dehydration process.

Referring to fig. 2, the drying step of the washing and drying integrated machine is specifically described as follows:

a dewatering stage S1, first spin-drying: after the load is uniformly distributed, the rotating speed is increased to 400rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

D, a shaking-off stage: and (3) after the inner cylinder is accelerated to 35rpm, the inner cylinder is kept running for a period of time at 35rpm, then the inner cylinder is accelerated to 70rpm, the inner cylinder stops rotating for 1-2 s, then the inner cylinder is reversely rotated, and the inner cylinder is alternately run in forward and reverse rotation in a shaking and scattering stage, wherein the shaking and scattering time is about 0-6 min. Judging whether the clothes are completely stripped from the inner cylinder wall or not by judging whether the load eccentricity value is maximum and is kept constant or not in the shaking-up stage, and entering the next stage when the judgment result is yes; and if not, continuing to execute the jitter dispersion program.

A dewatering stage S2, second spin-drying: after the first spin-drying, increasing the rotating speed to 400rpm again, operating (0-6 minutes), and reducing the rotating speed to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S3, a third spin: after the load is uniformly distributed, the rotating speed is increased to 600rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S4, fourth spin: after the load is uniformly distributed, the rotating speed is increased to 600rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dehydration stage S5, a fifth spin: after the load is uniformly distributed, the rotating speed is increased to 800rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S6, spin-drying for the sixth time: after the load is uniformly distributed, the rotating speed is increased to 800rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S7, a seventh spin: after the load is uniformly distributed, the rotating speed is increased to 1000rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dehydration stage S8, eighth spin-drying: after the load is uniformly distributed, the rotating speed is increased to 1000rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S9, ninth spin-drying: after the load is uniformly distributed, the rotating speed is increased to 1200rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dewatering stage S10, a tenth spin: after the load is uniformly distributed, the rotating speed is increased to 1200rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

Dewatering stage S11, eleventh spin: after the load is uniformly distributed, the rotating speed is increased to 1400rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

A dehydration stage S12, a twelfth spin: after the load is uniformly distributed, the rotating speed is increased to 1400rpm, the operation is carried out (0-6 minutes), and the rotating speed is reduced to 0 rpm; entering a shaking and dispersing stage.

And a drying step S13 of starting a drying program.

According to the drying method of the washing and drying integrated machine, the shaking stages are arranged among the dewatering stages, and the dewatering rotating speed, the dewatering time, the shaking rotating speed and the like are controlled, so that the clothes can be prevented from being attached to the wall of the inner barrel after the final dewatering stage is finished, the drying efficiency in the drying step is high, the drying time is shortened, meanwhile, the clothes are not prone to wrinkling, manual intervention is not needed, and intelligent washing is achieved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A drying method of a washing and drying integrated machine is characterized by comprising the following steps:

a drying and shaking step which comprises a plurality of dehydration stages and shaking stages; the dehydration stage executes a dehydration program, and the shaking stage is arranged between every two dehydration stages; executing a shaking and scattering program in the shaking and scattering stage, judging whether the clothes are completely stripped from the inner cylinder wall in the running process of the shaking and scattering program, and entering the next dehydration stage when the judgment result is yes; if not, continuing to execute the jitter dispersion program;

and a drying step, in which a drying program is executed to dry the clothes.

2. The drying method of an integrated washing and drying machine according to claim 1, wherein the maximum rotation speed of the inner drum is sequentially increased from front to back in each dewatering stage.

3. The drying method of the washing and drying integrated machine as claimed in claim 2, wherein the spin-drying shaking step comprises 6 dehydration stages, and the maximum rotation speed of the inner cylinder of each dehydration stage is 400rpm, 600rpm, 800rpm, 1000rpm, 1200rpm and 1400rpm in sequence.

4. The drying method of the washing and drying integrated machine according to claim 1, wherein the maximum rotation speeds of the inner cylinders of every two dehydration stages from front to back are equal, and the maximum rotation speeds of the inner cylinders of every two dehydration stages from front to back are sequentially increased.

5. The drying method of the washing and drying integrated machine according to claim 1, wherein the shaking-out procedure comprises driving the inner cylinder to rotate in a forward and reverse direction alternately.

6. The drying method of the washing and drying integrated machine as claimed in claim 4, wherein the process of the forward rotation or the reverse rotation of the inner cylinder in the shaking and scattering procedure is as follows: after the inner cylinder is accelerated to a first preset rotating speed, the inner cylinder keeps the first preset rotating speed to operate for a period of time, and then the inner cylinder stops rotating for a period of time after being accelerated to a second preset rotating speed.

7. The drying method of the integrated washer dryer of claim 5, wherein the first predetermined rotation speed is equal to a washing rotation speed.

8. The drying method of the washing and drying integrated machine as claimed in claim 6, wherein the operation time of the shaking and scattering program is 0-6 min, and the second predetermined rotation speed is 50-70 rpm.

9. The drying method of an integrated washer dryer according to any one of claims 1 to 7, wherein the shaking-out phase determines whether the laundry is completely peeled off the inner cylindrical wall by a determination procedure comprising detecting a load eccentricity value and determining that the laundry is completely peeled off the inner cylindrical wall when the load eccentricity value reaches a maximum value and is maintained constant.

10. The integrated washer dryer of claim 1, wherein the spin-drying process comprises pulsing the drum to a maximum rotational speed.

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