KR19980084161A - Washing machine filter manufacturing method and method - Google Patents

Abstract

The present invention relates to a filter manufacturing apparatus of a washing machine and a method thereof. In the manufacturing method of a micro filter for removing turbidity of contaminated rinsing water during rinsing, the micro filter is applied to the amount of diatomaceous earth coated per 1 cm 2 of the micro filter. Calculating the total amount of diatomaceous earth by multiplying the surface area of the mixture, dissolving the calculated amount of diatomaceous earth in distilled water to produce a predetermined concentration of diatomaceous earth solution, and circulating the predetermined concentration of diatomaceous earth solution by the pressure of a high pressure pump. Comprising a step of coating the diatomaceous earth on the surface of the micro filter, by coating a diatomaceous earth containing 94% or more of SiO ₄ in a micro filter having a membrane pore of 1 ㎛ to efficiently remove turbidity while maintaining a high water treatment speed.

Description

Washing machine filter manufacturing method and method

The present invention relates to a washing machine equipped with a rinsing water treatment apparatus for filtering and reusing rinsing water, and more particularly, a filter manufacturing apparatus for a washing machine for efficiently removing turbidity by coating diatomaceous earth on a microfilter, which is one of the components of the rinsing water treatment apparatus. It's about how.

In general, the washing process of the washing machine is largely composed of a washing stroke for washing the laundry, a rinsing stroke for rinsing the thin film, and a dehydrating stroke for dewatering the laundry.

In addition, when the washing stroke, rinsing stroke and dehydration stroke are subdivided into stages again, the washing stroke is again made up of the water supply function, the washing function, the draining function and the intermittent dehydration function, and the rinsing stroke is the stop function, the water supply function, the rinsing function, and the drainage function. It consists of a function and a filtration function, and the dehydration stroke consists of a dehydration function and a stop function.

Conventional washing machine to wash according to the washing process as described above, as shown in Figure 1, the inside of the main body 1 to form an appearance through a plurality of tension bars not shown to prevent vibration during washing and dehydration The washing tank 5 suspended at a height to store the washing water, a dehydration tank 7 installed in the washing tank 5 to wash and dewater the loaded laundry, and washing water stored in the dewatering tank 7 A pulsator 9 installed in the dehydration tank 7 to wash and dehydrate the laundry, and a lower surface of the washing tank 5 to rotate the pulsator 9 and the dehydration tank 7 so as to rotate the pulsator 9. The washing motor 11 to be driven and the driving force of the washing motor 11 are transmitted to the bottom surface of the washing tank 5 so as to drive the dehydration tank 7 and the pulsator 9 through the belt 13. Washing in the power transmission device 15 and the washing tank 5 installed Water supply means 17 installed on the upper portion of the main body 1 to supply water and a drain valve installed on the lower surface of the washing tank 5 to discharge the contaminated washing water through the drain hose 21 during the washing and rinsing ( 19) and a rinse water treatment device 23 installed on the inner lower surface of the main body 1 so as to filter the rinsing water in the washing tank 5 contaminated at the time of rinsing and resupply it in the washing tank 5.

As shown in FIG. 2, the rinsing water treatment apparatus 23 includes a pump 25 for pressurizing the rinsing water in the washing tank 5 contaminated during rinsing to a predetermined pressure, and a rinsing pressurized by the pump 25. Microfiltration membrane 27 (hereinafter referred to as a micro filter) to remove various suspended substances and turbidity contained in the rinsing water when the water is passed, and surfactants and various organic substances contained in the rinsing water passing through the micro filter 27 It consists of activated carbon 29 to remove the rinsing water treatment pipe 23, one side of the rinsing water drain pipe 31 for discharging the contaminated rinsing water in the washing tank (5) to the rinsing water treatment device (23) On the other side of the rinsing water treatment device 23, a filtration water supply pipe 33 for supplying the rinsing water filtered by the micro filter 27 and activated carbon 29 into the washing tank 5 is provided. In the rinsing water drain pipe 31 The washing tub may be rinse the contaminated rinsing water rinse water valve 35 is actuated so as to open and close the discharge through the drain pipe 31 is installed in the (5).

The overall washing control operation of the conventional washing machine configured as described above will be described with reference to FIG. 3.

First, when a user inputs laundry into the dehydration tank 7 and inputs the desired washing conditions (type of washing, washing time, water supply selection, etc.) by the operating operation means 102, and then turns on the operation button, in step S1 The amount of laundry put into the dehydration tank 7 is sensed to set the washing level according to the amount of laundry.

Subsequently, in step S2, the washing water of hot or cold water is supplied into the washing tank 5 together with the detergent dissolved through the detergent dissolving machine 18 through the water supply means 17, and the washing water supplied into the washing tank 5 is set. When the water supply is completed by the water level, in step S3, the rotational force by the driving of the washing motor 11 is transmitted to the power transmission device 15 through the belt 13, the washing motor 11 transmitted to the power transmission device 15. The pulsator 9 is reversed left and right by the rotational force of) to form a stream of water in the wash water.

The water flow formed along the left and right inversion of the pulsator 9 is applied to the wash water to separate the adsorbed laundry or foreign matters to wash.

When washing is performed by driving the washing motor 11, in step S4, contaminated water in the washing tank 5 is discharged to the outside through the drain hose 21 according to the opening of the drain valve 19, and then washing. The motor 11 is driven to perform an intermittent dewatering process of intermittently dewatering laundry.

Subsequently, in step S5, when the washing water (rinsing water) is supplied into the washing tank 5 through the water supply means 17 to perform a rinsing stroke, the washing water supplied into the washing tank 5 is completed by the set washing water level. In step S6, the pulsator 9 is inverted from side to side in accordance with the driving of the washing motor 11 to form a stream of water in the wash water to perform rinsing.

When rinsing is performed according to the driving of the washing motor 11, the contaminated rinsing water in the washing tank 5 is discharged through the rinsing water drain pipe 31 according to the opening of the rinsing water valve 35, and the rinsing water discharged is The pump 25 boosts the pressure to a predetermined pressure and passes through the micro filter 27.

The rinsing water introduced into the micro filter 27 removes various suspended substances or turbidity contained in the rinsing water while passing through a plurality of filter membranes formed in the micro filter 27, and the rinsing water passing through the micro filter 27. After passing through activated carbon 29 again, various organic substances from surfactants or laundry, which are the main components of the detergent, are removed, and the filtered rinsing water is re-supplied in the washing tank 5 through the filtered water supply pipe 33, twice, three times, etc. The rinsing stroke is performed by reusing the rinsing water to perform the rinsing by the designated number of rinsing cycles.

At this time, in step S7, it is determined whether the rinsing progress time t has passed the set rinsing time T, and when the rinsing progress time t has not passed the set rinsing time T (when NO), When the flow returns to S6 and the operation of step S6 or less is repeatedly performed, and the rinsing progress time t has passed the set rinsing time T (YES), the flow advances to step S8 in accordance with the opening of the drain valve 19. The rinsing water in the washing tank 15 is discharged to the outside through the drain hose 21, and the laundry is dewatered by the centrifugal force generated while the dehydrating tank 7 rotates at high speed according to the driving of the washing motor 11, thereby washing the whole laundry. Complete the administration.

In the washing machine including the rinsing water treatment apparatus 23 for filtering and recycling the rinsing water, which is the wastewater for living, as described above, the microfilter 27 which plays an important role in the determination of visual water quality has a membrane pore size (for example, 0.45). As shown in Fig. 4, the microfilter MF having membrane pores of 0.45 μm is four times more efficient than the microfilter MF having membrane pores of 1 μm. .

By the way, in the case of the micro filter (MF) having a 1 μm membrane pores, the water treatment speed is more than 10 times faster than the micro filter (MF) having a 0.45 μm membrane pore and several times lower in price. MF) was not applicable.

Therefore, the present invention is made to solve the above problems, by coating a diatomaceous earth containing 94% or more of SiO ₄ in a microfilter having a membrane pore of 1 ㎛ to efficiently remove turbidity while maintaining a high water treatment speed It is to provide a filter manufacturing apparatus of the washing machine and a method thereof.

In order to achieve the above object, a filter manufacturing apparatus of a washing machine according to the present invention includes a micro filter for removing turbidity of contaminated rinsing water, a container for making a diatomaceous earth solution coated on the microphone filter, and a diatomaceous earth solution made from the container. A high pressure pump for circulating and a filter housing for coating diatomaceous earth on the surface of the micro filter according to the pressure of the high pressure pump.

In addition, the filter manufacturing method of the washing machine according to the present invention is a method of manufacturing a micro filter to remove the turbidity of contaminated rinsing water when rinsing, by multiplying the surface area of the micro filter by the amount of diatomaceous earth coated per 1 cm 2 of the micro filter Calculating a total amount of diatomaceous earth, dissolving the calculated amount of diatomaceous earth in distilled water to make a diatomaceous earth solution of a certain concentration, and circulating the diatomaceous earth solution of a predetermined concentration by a pressure of a high pressure pump to It characterized in that the step consisting of coating the diatomaceous earth on the surface.

1 is a schematic cross-sectional view of a conventional washing machine,

2 is a block diagram of a conventional rinsing water treatment apparatus;

3 is a flowchart showing a rinsing water treatment control operation procedure of a washing machine according to the related art;

Figure 4 is a table comparing the turbidity removal rate according to the micro filter type,

5 is a block diagram of a filter manufacturing apparatus of a washing machine according to an embodiment of the present invention,

Figure 6 is a block diagram showing a diatomaceous earth coating method of a microfilter according to the present invention,

7 is an enlarged view of a microfilter applied to the present invention;

* Description of the symbols for the main parts of the drawings *

5: washing tank 23: rinse water treatment device

25: pump 29: activated carbon

35: rinse water valve 40: container

42: high pressure pump 44: filter housing

46: micro filter 48: diatomaceous earth

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The basic configuration of the washing machine according to the present invention is the same as the conventional configuration shown in FIGS. 1 and 2, and the rinsing water treatment control operation of the washing machine is the same as the conventional flowchart shown in FIG.

5 and 6, reference numeral 40 is a container for dissolving diatomaceous earth 48 in distilled water to make a 0.3 to 0.6% diatomaceous earth solution, 42 is a 0.3 to 0.6% of the made in the container (40) The high pressure pump circulates the diatomaceous earth solution, and 44 is the high pressure pump 42 so that the diatomaceous earth 38 (Celite 21) containing 94% or more of SiO ₄ evenly forms a blocking film in the micro filter 46 having a 1 μm membrane pores. It is a filter housing for coating the surface of the micro filter 46, the diatomaceous earth solution circulated in accordance with the driving of the).

Hereinafter, the effect of the filter manufacturing apparatus and method of the washing machine configured as described above will be described.

First, the amount (A) of diatomaceous earth 48 (Celite) coated per 1 cm 2 of microfilter 46 having a 1 μm membrane pores is 0.0733 g, and the amount A of diatomaceous earth 48 per 1 cm 2 is The surface area B of the microfilter 46 is multiplied to calculate the amount A × B of the entire diatomaceous earth 48.

A diatomaceous earth solution is prepared while dissolving the amount (A × B) of diatomaceous earth 48 calculated as described above in distilled water contained in the container 40 to a concentration of 0.3 to 0.6%.

As described above, 0.3 to 0.6% of the diatomaceous earth solution made as described above is circulated by the high pressure pump 42 and the surface of the micro filter 46 in the filter housing 44 at the pressure of the high pressure pump 42. Diatomaceous earth 48 is coated.

At this time, the filter housing 44 should be shaken up and down and left and right so that the diatomaceous earth 48 evenly forms the blocking film in the micro filter 46 and continues until there is a lot of tan water.

In this way, a diatomaceous earth 48 (Celite 21) containing 94% or more of SiO ₄ was coated on the microfilter 46 having the membrane pores of 1 μm, as shown in FIG. The turbidity removal efficiency was higher than that of the microfilter having a membrane pore of 0.45㎛ (97.73%), as shown in Figure 4, 99.2%, there was no decrease in water treatment speed.

Therefore, while having a higher turbidity removal efficiency than the microfilter having a 0.45㎛ membrane pores, it is possible to obtain turbidity of tap water level in a short time by solving the water treatment speed that is a problem when using a 0.45㎛ microfilter.

According to the filter manufacturing apparatus and the method of the washing machine according to the present invention as described above, by coating a diatomaceous earth containing 94% or more of SiO ₄ in a microfilter having a membrane pore of 1㎛, while maintaining a high water treatment rate and turbidity High removal efficiency has the effect of obtaining turbidity at the tap water level.

Claims (4)

A micro filter to remove turbidity of contaminated rinsing water, A container for making a diatomaceous earth solution coated on the microfilter, High pressure pump for circulating the diatomaceous earth solution made in the container, Filter manufacturing apparatus for a washing machine, characterized in that made of a filter housing for coating the diatomaceous earth on the surface of the micro filter in accordance with the pressure of the high pressure pump. In the method of manufacturing a micro filter to remove the turbidity of contaminated rinsing water when rinsing, Calculating the total amount of diatomaceous earth by multiplying the surface area of the microfilter by the amount of diatomaceous earth coated per 1 cm 2 of the microfilter; Dissolving the calculated amount of diatomaceous earth in distilled water to produce a diatomaceous earth solution of a predetermined concentration; And circulating the diatomaceous earth solution at a predetermined concentration by the pressure of a high-pressure pump to coat the diatomaceous earth on the surface of the microfilter. The method according to claim 2, The amount of diatomaceous earth coated per 1 cm 2 of the micro filter is 0.0733 ± 5g filter manufacturing method of a washing machine, characterized in that. The method according to claim 2, The concentration of the diatomaceous earth solution in which the diatomaceous earth is dissolved in distilled water is a filter manufacturing method of the washing machine, characterized in that 0.1 ~ 0.8%.