FLOCCULATION WASHING MACHINE AND CONTROL METHOD THEREOF

Abstract

A flocculation washing machine comprises an outer barrel, a washing structure disposed inside the outer barrel and a circulating water treatment device disposed outside the outer barrel. The circulating water treatment device comprises a flocculation treatment unit for performing flocculation treatment on washing water; the flocculation treatment unit is communicated with the outer barrel through a filtering device, so that flocculation water after filtering treatment flows back to the outer barrel. And an overflow port is formed in the filtering device, and a flow sensor for detecting an overflow rate is arranged at the overflow port. A control method of the flocculation washing machine comprises: an overflow rate of the filtering device and/or a liquid level height in a flocculation container are detected in real time, and a blockage state of the filtering device is judged according to a relationship between a detection value and a preset value.

Claims

1. A flocculation washing machine, comprising an outer barrel, a washing structure disposed inside the outer barrel and a circulating water treatment device disposed outside the outer barrel, the circulating water treatment device comprising a flocculation treatment unit for performing flocculation treatment on washing water, and the flocculation treatment unit being communicated with the outer barrel through a filtering device to make flocculation water after filtering treatment flow back to the outer barrel; wherein an overflow port is formed in the filtering device, and a flow sensor for detecting an overflow rate is arranged at the overflow port.

2. The washing machine according to claim 1, wherein the overflow port is communicated with a flocculation container through an overflow pipe equipped with a first flow sensor.

3. The washing machine according to claim 1, wherein the filtering device forms a filtering cavity, a filter element being detachable and replaceable is disposed in the filtering cavity, and the filter element divides the filtering cavity into two independent parts.

4. The washing machine according to claim 2, wherein a pressure limiting valve for controlling opening and closing of the overflow pipe is arranged at the overflow port of the filtering device, and water in the overflow pipe only flows from the filtering device to the flocculation container.

5. The washing machine according to claim 3, wherein a second flow sensor for detecting an outlet flow rate is arranged at a water outlet of the filtering device; and/or a water level sensor for detecting water level height is disposed in the flocculation container.

6. A control method of the flocculation washing machine, comprising: detecting an overflow rate of the filtering device and/or a liquid level height in the flocculation container in real time, and judging a blockage state of the filtering device according to a relationship between a detection value and a preset value.

7. The control method according to claim 6, wherein it is judged that the filtering device is in mild blockage when a detection value of the overflow rate of the filtering device is larger than 0 and smaller than a preset value V1, and an inlet flow rate of the filtering device is reduced; and it is judged that the filtering device is in severe blockage when the detection value of the overflow rate of the filtering device is larger than the preset value V1, and water intake of the filtering device is stopped.

8. The control method according to claim 7, wherein it is judged that the filtering device is in blockage when the detection value of the outflow rate of the filtering device is always smaller than a preset value V2 within a certain time t.

9. The control method according to claim 7, wherein it is judged that the filtering device is in blockage when a reduction value of the liquid level height of flocculation water in the flocculation container is smaller than a preset value h within a certain time t.

10. The control method according to claim 7, wherein a prompt signal for prompting that the filter element of the filtering device needs to be cleaned is generated when the filtering device is in mild blockage; and a prompt signal for prompting that the filter element of the filtering device needs to be replaced is generated when the filtering device is in severe blockage.

11. The washing machine according to claim 2, wherein the filtering device forms a filtering cavity, a filter element being detachable and replaceable is disposed in the filtering cavity, and the filter element divides the filtering cavity into two independent parts.

12. The control method according to claim 8, wherein a prompt signal for prompting that the filter element of the filtering device needs to be cleaned is generated when the filtering device is in mild blockage; and a prompt signal for prompting that the filter element of the filtering device needs to be replaced is generated when the filtering device is in severe blockage.

13. The control method according to claim 9, wherein a prompt signal for prompting that the filter element of the filtering device needs to be cleaned is generated when the filtering device is in mild blockage; and a prompt signal for prompting that the filter element of the filtering device needs to be replaced is generated when the filtering device is in severe blockage.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] FIG. 1 is a schematic diagram of a washing machine according to an embodiment of the present invention;

[0025] FIG. 2 is a schematic diagram of a filtering device according to an embodiment of the present invention;

[0026] FIG. 3 is a schematic diagram of a filtering device according to another embodiment of the present invention; and

[0027] FIG. 4 is a schematic diagram of a washing machine according to another embodiment of the present invention.

MAIN REFERENCE SIGNS

[0028] 10filtering device; 11filtering cavity; 12filter element; 13water inlet; 14water outlet; 15overflow port; 16first flow sensor; 17pressure limiting valve; 18overflow cavity; 19second flow sensor; 20flocculation container; 21water level sensor; and 30overflow pipe.

DETAILED DESCRIPTION

[0029] Specific embodiments of the present invention are further described below in detail with reference to the accompanying drawings.

[0030] As shown in FIG. 1, a washing machine of the embodiment of the present invention is internally provided with a conventional washing machine structure and is also provided with a flocculation water treatment device. The washing machine structure comprises an outer barrel, an inner barrel disposed inside the outer barrel, a door body, a control panel, a water intake system and a washing motor, the bottom of the outer barrel is communicated with a casing frame through a damper, and an upper part of the outer barrel is communicated with a casing frame through a suspension spring. And the water intake system comprises a water intake structure and an automatic detergent delivering device. The outer barrel is a containing structure for containing washing water, and the inner barrel disposed inside the outer barrel is a washing structure. The outer barrel is communicated with the water intake structure.

[0031] In the embodiment of the present invention, the circulating water treatment device at least comprises a flocculation treatment unit. The flocculation treatment unit comprises a flocculation container communicated with the outer barrel and a flocculant deliverer by which a flocculant is delivered into the flocculation container, and water is drained from the outer barrel into the flocculation container for flocculation treatment.

[0032] The flocculation container is provided with a water inlet, a water return opening and a drain outlet. A water outlet of the outer barrel is communicated with the water inlet of the flocculation container through a pipe equipped with a first water pump. And the water return opening of the flocculation container is communicated with a water inlet of the outer barrel through a pipe equipped with a second water pump, thereby forming a controllable circulation loop of washing water between the outer barrel and the flocculation container. The drain outlet of the flocculation container is communicated with the external of the washing machine through a pipe equipped with a drainage valve for draining out sewage and flocculates after washing completed.

[0033] Preferably, the circulating water treatment device further comprises a filtering unit; the filtering unit performs filtering treatment on water after flocculation treatment in the flocculation treatment unit to separate flocculates from clean water. However, flocculates can also be separated from clean water without a filtering device, for example, a water level sensor is disposed in the flocculation container to ensure that the water level in the flocculation container always keeps a certain height, so that flocculates floating on the water surface in the flocculation container are always left in the flocculation container, and the purpose of removing flocculates in flocculation water is also achieved.

[0034] As shown in FIG. 2 and FIG. 3, in the embodiment of the present invention, the filtering unit comprises a filtering device 10, and the interior of the filtering device 10 is hollow to form a filtering cavity 11; preferably, the filtering cavity 11 is closed under stress. A filter element 12 being detachable and replaceable is disposed in the filtering cavity 11, the filter element 12 divides the filtering cavity into two parts. The first part A is provided with a water inlet 13 and an overflow port 15. The second part B is provided with a water outlet 14, and the water inlet 13 is communicated with the flocculation container 20, and the water outlet 14 is communicated with the outer barrel. Flocculation water flowing into the first part A of the filtering cavity through the water inlet 13 is subjected to filtering treatment by the filter element 12, clean water after filtered flows into the second part B and flows back to the outer barrel through the water outlet 14, and flocculates are left in the first part A of the filtering cavity 11.

[0035] Preferably, the filter element 12 is a piece of filter cotton, and the filter cotton is horizontally or vertically arranged in the filtering cavity for dividing t the filtering cavity 11 into two relatively independent parts. Certainly, in the embodiments of the present invention, the filter element can also be any one of the existing filter element structures with a flocculate filtering function, such as a filter screen, a filter membrane and the like.

[0036] In the embodiments of the present invention, a flow sensor 16 for detecting an overflow rate is arranged at the overflow port 15 of the filtering device, and/or a second flow sensor 19 for detecting an outlet flow rate is arranged at the water outlet 14 of the filtering device, and/or a water level sensor 21 for detecting a water level height in the flocculation container 20 is disposed in the flocculation container 20. Accurate judgment on the blockage state of the filtering device is achieved by comparing an overflow rate detection value, an outlet flow rate detection value and a water level height detection value with preset values.

Embodiment 1

[0037] As shown in FIG. 2, in this embodiment, the overflow port 15 of the filtering device 10 is communicated with the flocculation container 20 through an overflow pipe 30, so that overflow water from the filtering device 10 flows back to the flocculation container 20 through the overflow pipe 30. A first flow sensor 16 for detecting the overflow rate is arranged on the overflow pipe 30.

[0038] In this embodiment, a detection value of the first flow sensor 16 is compared with a preset value V1 of the system, and there are the following cases:

[0039] Case 1, it is judged that the filtering device is not in blockage when the detection value of the overflow rate of the filtering device is equal to 0, and the filtering device works normally.

[0040] Case 2, it is judged that the filtering device is in mild blockage when the detection value of the overflow rate of the filtering device is larger than 0 and smaller than the preset value V1, and an inlet flow rate of the filtering device is reduced, and a prompt signal for prompting that the filter element of the filtering device needs to be cleaned is generated. Case 3, it is judged that the filtering device is in severe blockage when the detection value of the overflow rate of the filtering device is larger than the preset value V1, and water intake of the filtering device is stopped, and a prompt signal for prompting that the filter element of the filtering device needs to be replaced is generated.

[0041] By means of the above devices and method, the accurate judgment of the blockage state of the filtering device is achieved by comparing an overflow rate detection value with the preset value; and meanwhile, the inlet flow rate is reasonably reduced or the water intake is stopped according to the blockage state, so that a situation that the filtering efficiency is influenced by an overlarge overflow rate is prevented.

[0042] As shown in FIG. 2, in this embodiment, a pressure limiting valve 17 for controlling opening and closing of the overflow pipe is arranged at the overflow port 15 of the filtering device 10. The pressure limiting valve 17 is closed in a normal state; and the pressure limiting valve 17 is opened when the filtering cavity 11 accumulates too much water which results in that the water pressure increases and exceeds a limiting value of the pressure limiting valve 17. Therefore, water flow in the overflow pipe 30 can only flow from the filtering device 10 to the flocculation container 20, thereby preventing backflow of overflow water caused by direction change of the water flow in the overflow pipe 30.

[0043] As shown in FIG. 2, in this embodiment, the overflow port 15 of the filtering device 10 is communicated with the overflow pipe 30 through the overflow cavity 18. The overflow cavity 18 is located on the outer side wall of the filtering device 10 and is opened. The overflow cavity is arranged on the overflow pipe to provide pressure stabilizing and flow rate reducing functions, thereby reducing the flow rate of overflow water, and preventing a situation that overflow water flows into the flocculation container and causes excessive shock to flocculates floating on the water surface, which makes the flocculates scattered.

[0044] In this embodiment, the preset value V1 is related to an inlet flow rate V from the flocculation container to the filtering device, and the value of V1/V is between 0.1-0.9. By setting the preset value V1, the inlet flow rate of the filtering device is reduced when the overflow rate is relatively smaller, so that filter treatment of flocculating water can be achieved without affecting the progress of flocculation; and meanwhile, the water intake is stopped when the overflow rate is overlarge, so as to avoid the occurrence of the washing machine always in flocculation filtration program.

Embodiment 2

[0045] As shown in FIG. 3, in this embodiment, a second flow sensor 19 for detecting an outlet flow rate is arranged at the water outlet 14 of the filtering device 10.

[0046] In this embodiment, a detection value of the second flow sensor 19 is compared with a preset value V2 of the system, and there are the following cases:

[0047] Case 11, it is judged that the filtering device is not in blockage when the detection value of the outlet flow rate of the filtering device is larger than the preset value V2, and the filtering device works normally.

[0048] Case 12, it is judged that the filtering device is in blockage when the detection value of the outlet flow rate of the filtering is always smaller than the preset value V2 within a certain time t.

[0049] Preferably, in this embodiment, in case 12, it is judged that the filtering device is in mild blockage, the inlet flow rate of the filtering device is reduced, and a prompt signal for prompting that the filter element of the filtering device needs to be cleaned is generated.

[0050] The second flow sensor is additionally arranged at the water outlet of the filtering device so as to achieve the accurate judgment of the blockage degree of the filter element by utilizing the detection value of the outlet flow rate; and meanwhile, the first flow sensor and the second flow sensor are separately used to perform detection and judgment, thereby achieving diversification of blockage judgment and achieving the purpose of improving the accuracy of the blockage judgment.

[0051] In this embodiment, the preset value V2 is related to the inlet flow rate V from the flocculation container to the filtering device, wherein V2=V?V1, so that the value of V2/V is between0.9-0.1.

Embodiment 3

[0052] As shown in FIG. 1 and FIG. 4, in this embodiment, a water level sensor 21 for detecting a water level height in the flocculation container 20 is disposed in the flocculation container 20.

[0053] In this embodiment, a detection value of the water level sensor 21 is compared with a preset value h of the system, and there are the following cases:

[0054] Case 21, it is judged that the filtering device is not in blockage when the detection value of the outlet flow rate of the filtering device is larger than the preset value V2, and the filtering device works normally; and

[0055] Case 22, it is judged that the filtering device is in blockage when a reduction value of the water level height of flocculation water in the flocculation container is smaller than the preset value h within a certain time t.

[0056] Preferably, in this embodiment, in case 22, it is judged that the filtering device is in severe blockage, the water intake of the filtering device is stopped, and a prompt signal for prompting that the filter element of the filtering device needs to be replaced is generated.

[0057] By setting up the water level sensor in the flocculation barrel, flocculation container the accurate judgment of the blockage degree of the filter element is indirectly achieved by utilizing the detection value of the water level height in the flocculation container; and meanwhile, the water level sensor can be independently used, and the water level sensor also can be used together with the first flow sensor and/or the second flow sensor to perform judgment by utilizing a plurality of detection parameters, thereby achieving diversification of blockage judgment and achieving the purpose of improving the accuracy of the blockage judgment.

[0058] The implementation solutions in the above embodiments can be further combined or replaced, the embodiments are only for describing preferred embodiments of the present invention and are not intended to limit the concept and scope of the present invention, without departing from the design concept of the present invention, various changes and modifications made by those skilled in the art to the technical solutions shall all be covered within the scope of the present invention.