CN104088115A - Dehydration method of roller washing machine - Google Patents

Abstract

The invention relates to a dehydration method of a roller washing machine. The method comprises two parts, namely, the preliminary dehydration part and the final dehydration part; each part is characterized in that weighing detection is carried out after eccentric detection of the traditional roller washing machine; different weighing intervals are set according to different model platform of the washing machine; each weighing interval corresponds to a standard eccentric value; when the weighing detection result is within the set weighing interval, the eccentric value is detected again and compared with the standard eccentric value, thus to control the rotating speed of a motor to dehydrate. According to the method, eccentric detection of the two dehydration parts is carried out at four times, the load weighing detection is performed, and thereby, the dehydration function of the roller washing machine can be realized well, and the noise, vibration, safety, service life and other performances of the whole washing machine are improved.

Description

A kind of dewatering of roller washing machine

Technical field

The present invention relates to roller washing machine field, be specially a kind of dewatering based on roller washing machine load function of weighing.

Background technology

Traditional tumbling-box washing machine, dehydration control program is controlled dehydration according to offset, but in fact, at washing machine physical hardware, comprise that complete machine structure part, shock mitigation system etc. do not make in situation about changing, offset, to the vibrations of washing machine complete machine, noise, safety, the influence degree in life-span, is that the load based on different is weighed.Load weight based on different, offset is different on the impact of dehydration scheme, and hour, complete machine institute's eccentric value that bears when high speed dewatering is less in load, and when load is larger, the eccentric value that complete machine can bear when high speed dewatering is larger.Therefore according to the different loads dehydration scheme of formulating washing machine in conjunction with eccentricity detecting that weighs, can better improve the performance of washing machine each side, and in existing roller washing machine, not yet find this dehydration scheme.

Summary of the invention

For the problems referred to above, the technical problem to be solved in the present invention is to provide a kind of barrel washing machine dehydration scheme based on load function of weighing.

The present invention is a kind of dewatering of roller washing machine, comprises dehydration part in advance and final dewatering part;

Described dehydration part in advance comprises the steps:

A1, dehydration start;

A2, carry out clothing adjustment;

A3, eccentricity detecting;

If the eccentricity value > M that A4 A3 detects, repeats A2, A3 step, as accumulative total detects eccentricity value > M for twice, with 100rpm, 60s dewaters in advance; Described M is calibration eccentricity value, and M determines according to different roller washing machine types;

If A5 A3 detects eccentricity value≤M, start the detection of weighing;

The > A if A6 A5 weighs, with 100rpm, 60s dewaters in advance; Described A is the calibration value of weighing, and A determines according to different roller washing machine types;

If A7 A5 weigh≤A, further judge between Weighing Area for (C, B], (and C, B] interval to there being standard eccentricity value a;

A8, eccentricity detecting;

If A9 A8 detects eccentricity value > a, repeat A2, A3 step, as accumulative total detects eccentricity value > a for five times, with 100rpm, 60s dewaters in advance;

If A10 A8 detects eccentricity value≤a, with 400rpm, 30s dewaters in advance;

Described final dewatering partly comprises the steps:

B1, after dehydration finishes in advance, after motor stopping 1s, dehydration starts;

B2, carry out clothing adjustment;

B3, eccentricity detecting;

If the eccentricity value > M that B4 B3 detects, repeats B2, B3 step, as accumulative total detects eccentricity value > M for twice, with 100rpm, 5min carries out final dewatering;

If B5 B3 or B4 detect eccentricity value≤M, start the detection of weighing;

The > A if B6 B5 weighs, with 100rpm, 5min dewaters in advance;

If B7 B5 weigh≤A, further judge between Weighing Area for (C, B], (and C, B] interval to there being standard eccentricity value a;

B8, eccentricity detecting;

If B9 B8 detects eccentricity value > a, repeat B2, B3 step, as accumulative total detects eccentricity value > a for five times, with 100rpm, 5min carries out final dewatering;

If B10 B8 detects eccentricity value≤a, further judge eccentricity detecting distributed area:

As b < eccentricity value≤a, with 500rpm, 5min carries out final dewatering;

As c < eccentricity value≤b, with 700rpm, 5min carries out final dewatering;

As eccentricity value≤c, with 1000rpm, 5min carries out final dewatering;

B11, complete final dewatering rear motor and enter the loose program of bucket, the time is 1min;

B12, dehydration finish.

Concrete, described calibration eccentricity value M is 115, the calibration value of weighing A is 15kg, between described Weighing Area (C, B] be (0,1kg], (1kg, 3kg], (3kg, 6kg], (6kg, 9kg], (9kg, 12kg], (12kg, 15kg], and between Weighing Area (C, B] corresponding successively standard eccentricity value a is 98,72,58,52,42,36.

Concrete, described standard eccentricity value a gets 98 o'clock, and b, c are respectively 70,40; A gets 72 o'clock, and b, c are respectively 50,36; A gets 58 o'clock, and b, c are respectively 40,32; A gets 52 o'clock, and b, c are respectively 36,32; A gets 42 o'clock, and b, c are respectively 34,28; A gets 36 o'clock, and b, c are respectively 34,28.

Beneficial effect of the present invention is: dewatering of the present invention comprises dehydration and two parts of final dewatering in advance, each part detecting step of weighing after traditional roller washing machine eccentricity detecting step, according to different washing machine type platforms, set between different Weighing Areas, between each Weighing Area to there being standard eccentricity value, the testing result of weighing fall between the Weighing Area of setting in time, again detect eccentricity value with standard eccentricity value compares, and then control motor speed dewaters.By four eccentricity detecting in twice dehydration part, in conjunction with the washing machine load detection of weighing, can better realize the dehydrating function of roller washing machine, improve washing machine complete machine in the performance of the aspects such as noise, vibration, safety, service life.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, with regard to the specific embodiment of the present invention, be described in further detail, wherein:

Fig. 1 is the FB(flow block) of the inventive method.

The specific embodiment

Dewatering with reference to a kind of roller washing machine of Fig. 1, comprises two dehydrations, and the first dehydration part is the part of dewatering in advance, and second portion is final dewatering part.

The calibration eccentricity value M of take is 115, the calibration A that weighs is that the roller washing machine of 15kg is example, described dehydration part in advance comprises the steps: that dehydration starts the rear clothing adjustment of first carrying out, then eccentricity detecting for the first time, as detect eccentric OOB > 115, repeat clothing adjustment and eccentricity detecting link, as twice eccentricity detecting OOB > 115 of accumulative total,, with 100rpm, 60s enters first and dewaters in advance; As detect eccentric OOB≤115, enter the detection of weighing, as the Ib > 15kg that weighs, with 100rpm, 60s enters first and dewaters in advance; As Ib≤15kg, further judgement weigh Ib between which Weighing Area (C, B] inner, between Weighing Area (C, B] correspondence is set with standard eccentricity value a, specifically divide in Table one.According to a, carry out eccentricity detecting for the second time again, as detected OOB > a, carry out clothing adjustment, repeat eccentricity detecting, if 5 eccentricity detecting OOB > a of accumulative total, with 100rpm, 60s enters first and dewaters in advance.As detect OOB≤a, with 400rpm, 30s enters first and dewaters in advance.

First dewater in advance part finish after, after motor stopping 1s, enter final dewatering part, dehydration is carried out clothing adjustment after starting, eccentricity detecting for the third time then, as detect eccentric OOB > 115, repeat clothing adjustment and eccentricity detecting link, as twice eccentricity detecting OOB > 115 of accumulative total, with 100rpm, 5min enters first and dewaters in advance; As detect eccentric OOB≤115, enter the detection of weighing, as the Ib > 15kg that weighs, with 100rpm, 5min enters first and dewaters in advance; As Ib≤15kg, further judgement weigh Ib between which Weighing Area (C, B] inner, between Weighing Area (C, B] correspondence is set with standard eccentricity value a, specifically divide in Table one.

According to a, carry out eccentricity detecting the 4th time again, as detected OOB > a, carry out clothing adjustment, repeat eccentricity detecting, if 5 eccentricity detecting OOB > a of accumulative total, with 100rpm, 5min enters first and dewaters in advance.As detect OOB≤a, and further judging that the bias of OOB is interval, eccentric interval division is third gear, and one grade is b < OOB≤a, and second gear is c < OOB≤b, and third gear is OOB≤c, specifically divides in Table two; When eccentricity value OOB is positioned at one grade, with 500rpm, 5min enters second portion final dewatering; When eccentricity value OOB is positioned at second gear, with 700rpm, 5min enters second portion final dewatering; When eccentricity value OOB is positioned at third gear, with 1000rpm, 5min enters second portion final dewatering.

Complete after above-mentioned two dehydration parts, motor enters the program of shaking loose, and the time is 1min, and whole dehydration finishes.

The above; only for the better specific embodiment of the present invention, but protection domain of the present invention is not limited to this, is anyly familiar with in technical scope that those skilled in the art disclose in the present invention; the variation that can expect easily or replacement, within all should being encompassed in protection scope of the present invention.Therefore protection domain of the present invention is as the criterion with the protection domain of claims.

table one

（C,B]	0-1kg	1-3kg	3-6kg	6-9kg	9-12kg	12-15kg
							a	98	72	58	52	42	36

table two

Eccentric interval	(b，a]	(c,b]	≤c
				1	（70,98]	（40,70]	≤40
2	（50,72]	（36,50]	≤36
				3	（40,58]	（32,40]	≤32
4	（36,52]	（32,36]	≤32
				5	（34,42]	（28,34]	≤28
6	（34,36]	（28,34]	≤28

Claims (3)

1. a dewatering for roller washing machine, is characterized in that: comprise dehydration part in advance and final dewatering part;

Described dehydration part in advance comprises the steps:

A1, dehydration start;

A2, carry out clothing adjustment;

A3, eccentricity detecting;

If the eccentricity value > M that A4 A3 detects, repeats A2, A3 step, as accumulative total detects eccentricity value > M for twice, with 100rpm, 60s dewaters in advance; Described M is calibration eccentricity value, and M determines according to different roller washing machine types;

If A5 A3 detects eccentricity value≤M, start the detection of weighing;

The > A if A6 A5 weighs, with 100rpm, 60s dewaters in advance; Described A is the calibration value of weighing, and A determines according to different roller washing machine types;

If A7 A5 weigh≤A, further judge between Weighing Area for (C, B], (and C, B] interval to there being standard eccentricity value a;

A8, eccentricity detecting;

If A9 A8 detects eccentricity value > a, repeat A2, A3 step, as accumulative total detects eccentricity value > a for five times, with 100rpm, 60s dewaters in advance;

If A10 A8 detects eccentricity value≤a, with 400rpm, 30s dewaters in advance;

Described final dewatering partly comprises the steps:

B1, after dehydration finishes in advance, after motor stopping 1s, dehydration starts;

B2, carry out clothing adjustment;

B3, eccentricity detecting;

If the eccentricity value > M that B4 B3 detects, repeats B2, B3 step, as accumulative total detects eccentricity value > M for twice, with 100rpm, 5min carries out final dewatering;

If B5 B3 or B4 detect eccentricity value≤M, start the detection of weighing;

The > A if B6 B5 weighs, with 100rpm, 5min dewaters in advance;

If B7 B5 weigh≤A, further judge between Weighing Area for (C, B], (and C, B] interval to there being standard eccentricity value a;

B8, eccentricity detecting;

If B9 B8 detects eccentricity value > a, repeat B2, B3 step, as accumulative total detects eccentricity value > a for five times, with 100rpm, 5min carries out final dewatering;

If B10 B8 detects eccentricity value≤a, further judge eccentricity detecting distributed area:

As b < eccentricity value≤a, with 500rpm, 5min carries out final dewatering;

As c < eccentricity value≤b, with 700rpm, 5min carries out final dewatering;

As eccentricity value≤c, with 1000rpm, 5min carries out final dewatering;

B11, complete final dewatering rear motor and enter the loose program of bucket, the time is 1min;

B12, dehydration finish.

2. the dewatering of a kind of roller washing machine as claimed in claim 1, is characterized in that: described calibration eccentricity value M is 115, and the calibration value of weighing A is 15kg, between described Weighing Area (C, B] be (0,1kg], (1kg, 3kg], (3kg, 6kg], (6kg, 9kg], (9kg, 12kg], (12kg, 15kg], and between Weighing Area (C, B] corresponding successively standard eccentricity value a is 98,72,58,52,42,36.

3. the dewatering of a kind of roller washing machine as claimed in claim 2, is characterized in that: described standard eccentricity value a gets 98 o'clock, and b, c are respectively 70,40; A gets 72 o'clock, and b, c are respectively 50,36; A gets 58 o'clock, and b, c are respectively 40,32; A gets 52 o'clock, and b, c are respectively 36,32; A gets 42 o'clock, and b, c are respectively 34,28; A gets 36 o'clock, and b, c are respectively 34,28.