KR101131240B1 - Water saving structure in washing machine - Google Patents

Abstract

Water-saving structure of the washing machine according to the present invention for achieving the above object, the case forming an appearance; An outer tub formed inside the case and containing wash water; An inner tub formed in the outer tub, and having a side through-hole formed in a predetermined region of the upper half of the laundry cloth and the washing water; And a pulsator formed on the bottom surface of the inner tank to provide a passage through which the washing water of the outer tank flows; It is configured to include, the lower surface of the pulsator is protruded downwards and a plurality of radially formed, so that the contact area with the washing water is narrowed toward the side is equipped with an impeller having an upward inclination, the impeller The washing water is supplied into the inner tank by the rotational movement so that the level of the central portion of the inner tank inner space is higher than the level of the outer portion of the inner tank inner space. According to the present invention, even when a small amount of washing water is used, the effect of further washing efficiency can be obtained.

Water saving, washing machine

Description

Water saving structure in washing machine

1 is a cross-sectional view of a conventional washing machine.

2 is a cross-sectional view of the washing machine to which the present invention is applied.

3 is a bottom perspective view of a pulsator to which the idea of the present invention is applied;

4 is a view for explaining the operation of the water-saving structure of the washing machine according to the present invention.

<Explanation of symbols for the main parts of the drawings>

11: case 12: outer shell 13: inner shell 14: motor

15: suspension portion 16: rotation axis 17: pulsator 18: impeller

19: side through hole 20: bottom through hole

The present invention relates to a water saving structure of the washing machine. In detail, it is related with the water saving tank of the washing machine which can produce the same washing | cleaning efficiency with comparatively little water at the time of a washing process. More specifically, the present invention relates to a water-saving tank of a washing machine, which allows a large amount of water to contact the laundry cloth in order to increase the washing efficiency, thereby increasing the use efficiency of the washing water.                         

1 is a cross-sectional view of a conventional washing machine.

Referring to FIG. 1, a conventional washing machine further includes a case 1 forming an exterior of a washing machine, an outer tub 2 formed inside the case 1 to accommodate washing water, and an inner side of the outer tub 2. An inner tub 3 formed to accommodate the laundry cloth and the wash water, a suspension portion 5 connected between the case 1 and the outer tub 2 to support the outer tub 2, and the inner tub 3 A pulsator 7 for forming a water flow formed on the lower side of the motor, a motor 4 operated by an external power source for causing the pulsator 7 to rotate, and a rotational force of the motor 4 A rotating shaft 6 for transmitting to the pulsator 7 is included.

In addition, an impeller 8 is formed on the lower side of the pulsator 7 to forcibly flow the wash water contained in the outer tub 2 into the inner tub 3. In addition, in order to allow the wash water accommodated in the outer tank (2) to flow into the inner tank (3), a plurality of bottom through-holes (10) formed on the lower side of the inner tank (3), and the inner tank through a different path ( In order to allow the wash water to flow into the interior of the 3), a plurality of side through-holes 9 are formed on the side of the inner tank (3).

On the other hand, the side through hole (9) is formed in the upper and lower regions on the side of the inner tank (3), so that the washing water can be smoothly discharged even during dehydration.

The operation of the conventional washing machine will be described.

When the pulsator 7 and the impeller 8 formed on the lower side of the pulsator 7 are rotated, water received in the lower side of the outer tub 2 is forced into the bottom through-hole 10, and the pulsator ( 7) flows into the inner tank (3). In this way, the amount of wash water flowing into the inner tank 3 is increased, so that more wash water comes into contact with the wash cloth, thereby increasing washing efficiency. In other words, even if less wash water is used for the same laundry cloth, the same washing efficiency as that used by many wash water can be obtained.

However, in the conventional washing machine, as soon as the washing water introduced into the inner tank 3 through the bottom through hole 10 flows out through the side through hole 9, there is a limit in increasing the washing efficiency. That is, even though the wash water is forced into the inner tank 3 by the impeller 8 to raise the water level, the water flows out through the side through-hole 9 formed in the side of the inner tank 3, so that the level of the inner tank 3 is increased. There was a limit to raising.

The arrow shown is a streamline of wash water forced through the impeller 8. Referring to the streamline, as soon as the washing water is introduced by the impeller 8, it is discharged to the outer tank 12, whereby the level of the outer tank can be seen that the same as the water level formed on the inner peripheral surface of the inner tank.

The present invention has been proposed in order to solve the above-mentioned problems, and an object of the present invention is to propose a water-saving structure of washing water in which more washing water can come into contact with the laundry cloth even when less washing water is used.

In addition, the present invention does not change the washing efficiency even when a small amount of water is used and the washing process proceeds, and furthermore, the washing efficiency is the same as that of the case where a large amount of water is used. An object of the present invention is to propose a water-saving structure and a water-saving tank of a washing machine used for such a purpose.

Water-saving structure of the washing machine according to the present invention for achieving the above object, the case forming an appearance; An outer tub formed inside the case and containing wash water; An inner tub formed in the outer tub, and having a side through-hole formed in a predetermined region of the upper half of the laundry cloth and the washing water; And a pulsator formed on the bottom surface of the inner tank to provide a passage through which the washing water of the outer tank flows; It is configured to include, the lower surface of the pulsator is protruded downwards and a plurality of radially formed, so that the contact area with the washing water is narrowed toward the side is equipped with an impeller having an upward inclination, the impeller The washing water is supplied into the inner tank by the rotational movement so that the level of the central portion of the inner tank inner space is higher than the level of the outer portion of the inner tank inner space.
In addition, the water-saving structure of the washing machine according to the invention, the case forming the appearance; An outer tub formed inside the case and containing wash water; Located inside the outer tub to accommodate the laundry cloth and the wash water, the upper half of the side has a drainage area is formed a side through-hole, which is the movement passage of the wash water, the lower side of the drainage area blocking the movement of the wash water is blocked Inner tank having; And a pulsator formed on the bottom surface of the inner tank to provide a passage through which the washing water of the outer tank flows; It is configured to include, the lower surface of the pulsator protrudes downwards while the plurality is radially formed so that the contact area with the washing water toward the side narrower toward the side is equipped with an impeller having an upward inclination, rotation of the impeller As the washing water is supplied into the inner tank by the movement, the level of the central portion of the inner space of the inner tank is higher than the level of the outer portion of the inner space of the inner tank.

Even if a small amount of washing water is used by the water-saving structure of the washing machine as proposed, there is an effect of increasing the washing efficiency.

Hereinafter, with reference to the drawings propose a specific embodiment of the present invention.

2 is a cross-sectional view of a washing machine to which the present invention is applied.

Referring to FIG. 2, the water-saving structure of the washing machine according to the present invention includes a case 11 forming an exterior of the washing machine, an outer tub 12 formed inside the case 11 to accommodate washing water, and the outer tub 12. It is further formed on the inner side of the inner tank 13 to accommodate the laundry cloth and the wash water, and the suspension portion is formed between the case 11 and the outer tank 12 to support a plurality of weight of the outer tank 12 (15), a pulsator (17) for forming a forced water flow formed on the lower side of the inner tank (3), and a motor (14) operated by an external power source to cause the pulsator (17) to rotate. And a rotating shaft 16 for transmitting the rotational force of the motor 14 to the pulsator 17.

In addition, an impeller 18 is formed on the lower side of the pulsator 17 to forcibly flow the wash water contained in the outer tub 12 into the inner tub 13. In addition, in order to allow the wash water accommodated in the outer tub 12 to be introduced into the inner tub 13, a plurality of bottom through-holes 20 formed on the lower side of the inner tub 13, and the outer tub 12 In order to enable the inflow / outflow of the wash water contained in the inner tub 13, a side through-hole 19 formed in a predetermined region of the inner tub 13 is included.

In particular, the side through holes 19 are formed in the drainage area L1, which is a predetermined area extending downward from the upper end of the inner tank 13, but is not formed in the blocking area L2 below it. In this way, the washing water forced into the inner tank 13 by the impeller 18 does not easily escape.

In detail, the washing water introduced into the inner tank 13 by the impeller 18 does not flow out of the blocking region L2, but only reaches a drainage region L1 exceeding the level of the blocking region L2. It may flow out to the outer tub 12. Therefore, the wash water is not drained until at least the water level in the blocking region L2 is filled, and the inner tank 13 is filled. As a result, more washing water can be in contact with the laundry cloth, thereby increasing the washing efficiency.

On the other hand, the washing water falling into the inner tank 13 during the progress of the dehydration stroke can fall into the outer tank 13 through the hole formed in the impeller a plurality, there is no problem in the progress of the dehydration stroke.

3 is a bottom perspective view of a pulsator to which the idea of the present invention is applied.

Referring to FIG. 3, the pulsator 17 protrudes on the lower side of the pulsator main body, and a plurality of impellers 18 are radially formed, and a pulsator penetrates at an interval between the impellers 18. A washing water supply hole 183, a shaft fixing part 181 for supporting the pulsator 17 on the rotating shaft 16, and a passage hole 184 for allowing the washing water to flow out.

Referring to the operation of the pulsator 17, when the pulsator 17 is rotated, the impeller 18 is rotated together, when the impeller 18 is rotated to create a forced flow in the wash water, the wash water The washing water rises through the supply hole 183 and is supplied into the inner tank 13. The impeller 18 may be formed to be inclined to the side in order to smoothly supply the wash water.

4 is a view for explaining the operation of the water-saving structure of the washing machine according to the present invention.

Referring to FIG. 4, when the washing process proceeds in the washing machine of the present invention and the pulsator 17 rotates, the washing water is forced by the water flow generated by the rotation of the pulsator 17 to wash the pulsator 17. It flows into the inner tank 13 via.

In detail, the washing water received only in the outer tub 12 and not flowing into the inner tub 13 is subjected to a series of processes introduced into the inner tub 13. The washing water accommodated in the lower part of the outer tank 12 by the rotation of the impeller 18 is introduced into the inner tank 13 through the bottom through-hole 20, the introduced washing water is passed through the impeller 18 It is introduced into the inner tub 13 through the washing water supply hole 183.

Water introduced into the inner tank 13 may increase the washing efficiency by causing turbulence in the wash water in the inner tank 13. In addition, by increasing the number of wash water accommodated in the inner tank 13, more wash water can be used for washing. In particular, when a larger amount of washing water is accommodated in the inner tub 13, the washing cloth can move smoothly, and if the washing cloth moves smoothly, the friction force between the laundry cloth and the friction force between the laundry cloth and the washing water increases, The washing efficiency is increased.

In the figure, arrows show the flow of wash water forced into the inner tub 13 by the impeller 18.

In particular, the average level line of the wash water in the inner tank is formed in the middle part by the wash water forcibly introduced by the impeller 18. And, since the wash water is not discharged to the upper end of the blocking area (L2), it can be seen that the amount of wash water accommodated in the inner tank 13 is further increased. And, it can be seen that the average water level line of the wash water accommodated between the outer tub 12 and the inner tub 13 is formed below the blocking region L2.

As a result, the wash water is not accommodated in the gap between the outer tub 12 and the inner tub 13, and is forcibly introduced into the inner tub 13, and since the washing water is forcibly introduced, the outer tub 12 and the inner tub 13 It can be seen that the water level of the wash water accommodated in the gap between the lower. In other words, compared with the water level line formed in the inner peripheral surface of the inner tank 13, the water level line of the wash water accommodated in the space | interval between the outer tank 12 and the inner tank 13 is low.

In the drawings, arrows indicate the streamline of the wash water flowing through the impeller 18 in the water-saving structure of the washing machine according to the present invention. Referring to the streamline, the wash water extends to a higher position of the inner tank 13 than in the related art. You can see it. That is, the washing water is supplied to the higher position of the inner tank 13, and more washing water can be seen used in the washing stroke.                     

On the other hand, the blocking area (L2) and the drainage area (L1) may vary depending on the specific use state, it can be divided into about half of the inner tank (13).

Even when less washing water is used by the present invention, more washing water may be in contact with the laundry cloth, and thus the effect of further washing efficiency may be obtained.

In addition, even if the washing water of less than the preferred amount of washing water is used, the same washing efficiency can be obtained, after all, there is an effect that can reduce the washing water more.

Claims (8)

A case forming an appearance; An outer tub formed inside the case and containing wash water; An inner tub formed in the outer tub, and having a side through-hole formed in a predetermined region of the upper half of the laundry cloth and the washing water; And A pulsator formed on the bottom surface of the inner tank to provide a passage through which the washing water of the outer tank flows; And, The lower surface of the pulsator protrudes downward and a plurality of radially formed, and the impeller having an upward inclination is mounted so that the contact area with the washing water narrows toward the side, and the washing water is rotated by the impeller. The water-saving structure of the washing machine, wherein the water level of the inner tank inner space is higher than the water level of the inner tank inner space while being supplied into the inner tank. delete delete The method of claim 1, The side opening is water-saving structure of the washing machine is formed at a position higher than the center of the inner tank height. The method of claim 1, Water-saving structure of the washing machine is formed in the bottom surface of the inner tank, the bottom through-hole is formed so that the washing water can flow smoothly. A case forming an appearance; An outer tub formed inside the case and containing wash water; Located inside the outer tub to accommodate the laundry cloth and the wash water, the upper half of the side has a drainage area is formed a side through-hole, which is the movement passage of the wash water, the lower side of the drainage area blocking the movement of the wash water is blocked Inner tank having; And A pulsator formed on the bottom surface of the inner tank to provide a passage through which the washing water of the outer tank flows; And, The lower surface of the pulsator is provided with an impeller having an upward inclination such that the lower surface of the pulsator protrudes downwards and a plurality of radially formed and narrower contact areas with the washing water toward the side, and the washing water is rotated by the impeller. The water-saving structure of the washing machine, wherein the water level of the inner space of the inner tank is higher than the water level of the outer portion of the inner space of the inner tank while being supplied into the inner tank. The method of claim 6, Water-saving structure of the washing machine is formed in the bottom surface of the inner tank to form a bottom through-hole for smoothly flowing wash water from the outer tank. The method of claim 6, The water level of the inner tank is water-saving structure of the washing machine having a water level equal to or higher than the level between the outer tank and the inner tank.

Images