KR100509192B1 - bubble smash apparatus of a washing machine - Google Patents

Abstract

The present invention relates to a bubble granularity of the washing machine, the present invention is formed in the pulsator 10, the bottom is formed with a plurality of air supply holes 22 for supplying compressed air, the support boss from the bottom center A plurality of seating portions 20 in which 24 protrudes upward; An impeller (30) rotatably coupled to the support boss (24) for subdividing air bubbles supplied from the respective air supply holes (22) while being rotated by a rotating means; Inlet edges of the seating portion 20 are formed on the upper surface of each of the plurality of ejection holes 42 are formed on the upper surface to allow the air bubbles broken down by the impeller 30 to be ejected into the washing tank. Each cover member 40 is installed in. According to the present invention, as the air bubbles are finely divided by the impeller 30 installed in each seating portion 20 of the pulsator 10, the quantity thereof is increased, and many air bubbles finely penetrate between the fibers of the laundry. By applying a physical force while bursting, as well as to improve the washing power, increase the dissolution of the detergent to increase the cleaning and hemgum force, the whirlwind generated by the impeller is to provide the effect of preventing the tangling of the laundry.

Description

Bubble smash apparatus of a washing machine

The present invention relates to an air bubble granularity device of a washing machine, and in particular, by subdividing the air bubbles generated by supplying compressed air into the washing tank from the outside, the finely broken air bubbles generate physical force while bursting from every corner of the laundry. The present invention relates to an air bubble granularity device capable of improving cleanliness and hemging force.

In general, the washing machine for the air bubble is sprayed through the lower part of the water tank by forcibly sucked air from the outside during the washing process so that the washing is performed by the impact of the air bubbles burst, and the washing power is improved in the same washing conditions. Has a phosphorus effect.

This will be described with reference to the accompanying drawings.

As illustrated in FIG. 1, the external compressed air is supplied to the air supply hole 1-1 formed at the bottom of the housing 1, and then passed through the pulsator 3 to the inside of the washing tank 2. do. The air supplied into the washing tank 2 is blown while hitting the laundry by the water flow formed by the pulsator (3).

As the air bubbles collide with the laundry in this way, the physical force is applied to the laundry, thereby improving the cleaning effect.

However, the washing machine according to the prior art has a problem that it is impossible to apply physical force to every corner of the laundry because the number of air bubbles to apply a physical force to the laundry is large, the number is small.

Therefore, there was a need for means to increase the quantity of air bubbles and to apply physical force as air bubbles penetrate into every corner of laundry.

The present invention has been made to solve the problems of the prior art as described above, the technical problem of the present invention is to increase the quantity by miniaturizing the air bubbles, the micro air bubbles can penetrate every corner of the laundry to apply a physical force to burst. To provide a means.

The present invention for solving the technical problem of the present invention as described above is provided in the washing machine to supply the compressed air to the washing tank to improve the washing force by air bubbles, is formed in the pulsator, the bottom for supplying a plurality of compressed air Two air supply holes are formed, and a plurality of seating portions in which a support boss protrudes upward from the bottom center; An impeller rotatably coupled to the support boss to subdivide air bubbles supplied from the respective air supply holes while being rotated by a rotating means; Washing machine characterized in that it comprises a plurality of blowing holes are formed in the upper surface to allow the air bubbles broken down by the impeller to be discharged into the washing tank, respectively, which are installed at the inlet edge of the seating portion to cover each seating portion. Provides air bubble granularity.

At this time, the rotating means may be made of a water flow inlet formed in the seating portion to use the centrifugal force and the water flow generated during the forward / reverse rotation of the pulsator, it may be composed of a drive motor that can directly drive the impeller .

When described in detail with reference to the accompanying drawings, each preferred embodiment of the present invention having such features as follows.

2 is an exploded perspective view showing the air bubble granularity device according to the first embodiment of the present invention, FIG. 3 is a perspective view showing a combined state of the air bubble atomization device shown in FIG. It is sectional drawing A-A 'of FIG.

As shown in FIGS. 2 to 4, the segmentation apparatus according to the present invention includes a plurality of seating parts 20 formed on the pulsator 10, an impeller 30 installed on the seating parts 20, and The cover member 40 is installed on the seating portion 20 to cover the impeller 30.

Looking at this in more detail as follows.

As shown in FIG. 2, the seating part 20 is recessed and formed between each wing of the pulsator 10, and is not limited to its formation position or shape, but in the present embodiment, the seating part 20 is formed in a circular shape. This will be described as a reference. The seating portion 20 is not necessarily limited to being recessed and may be formed to protrude upward from the pulsator 10.

A plurality of air supply holes 22 are formed at the bottom of the seating part 20, and the air supply holes 22 are preferably formed at positions coinciding with the air ejecting holes supplied with the compressed air. On the other hand, the support boss 24 for the impeller 30 to be installed freely rotatable in the center of the bottom is formed to protrude in the vertical direction.

The seating part 20 may be provided with a catching hole or a screw thread for the cover member 40 is installed.

The impeller 30 is for imparting fine granularity by colliding with the air bubbles supplied to the air supply hole 22. The impeller 30 includes a support part coupled to the support boss 24 and a plurality of wings installed at an outer circumference of the support part. Is done. The impeller 30 is freely rotated by the rotating means to be described later because the support portion is freely rotatable on the support boss 24, and thus the air supply hole 22 in the rotating impeller 30. The air bubbles collide and are finely divided.

Such an impeller 30 forms a whirlwind while rotating by the rotating means.

Rotating means for rotating the impeller 30 to rotate the impeller 30 to subdivide the air bubbles, as well as having a function to form a whirlwind flow by the rotation of the impeller 30 as described above , This embodiment is made of a water flow inlet hole 26 formed on one side of the seating portion 20 so that the water flow generated during the forward / reverse rotation of the pulsator 10 is introduced. The one side means a central direction side of the pulsator 10 in the seating portion 20 as shown in FIG. The position of the water flow inlet 26 is to allow the water flow generated when the pulsator 10 is rotated forward / backward smoothly.

However, the position of the water inflow hole 26 is not limited to the center direction of the pulsator 10 as shown in FIG. 2, and the water flow generated during the left / right reverse of the pulsator 10 is more easily introduced. If it is possible position can vary. For example, the pulsator 10 may be formed on both sides of the seating portion 20 with respect to the center direction.

The cover member 40 is formed at the inlet of the seating portion 20 to cover the seating portion 20 is formed with a plurality of ejection holes 42 on the upper surface, the impeller 30 does not interfere with the laundry And a function of preventing the impeller 30 from being separated from the support boss 24. Each of the blow holes 42 may further have a function of allowing the air bubbles subdivided into particulates to be blown into the inside of the washing tank, and the bubbles not atomized according to the size pass through the blow holes 42. It can be atomized.

Such a cover member 40 may be installed to be caught in the engaging hole is formed in the seating portion 20 is formed in the seating portion 20 protruding directly below the edge, as shown in Figure 2, screw fastening It may be installed by the method.

Referring to the operation of this embodiment configured as described above are as follows.

The impeller 30 is coupled to the support boss 24 of the seating portion 20 in which the water flow inlet 26 is formed, and the cover member 40 is installed on the seating portion 20 so that the impeller 30 is separated. Or prevent laundry from interfering with the impeller 30.

In this state, when the washing water is supplied to the washing tank and the pulsator 10 is rotated forward or reverse, the water flow formed by the rotation of the pulsator 10 flows into the water flow inlet 26 as shown in FIG. 5A. It rotates the impeller 30 is installed in the support boss 24 to enable free rotation.

That is, when the pulsator 10 rotates the left / right turn, the washing water moves to the edge of the washing tank by centrifugal force. The washing water moving to the edge by the centrifugal force flows into the water flow inlet 26 and impellers. After rotating 30, whirlwind is ejected to the upper portion of the pulsator 10 through the ejection hole 42 of the cover member 40.

When the external air is compressed and supplied into the washing tank while the impeller 30 is rotated as described above, the supplied air flows into the washing tank to form air bubbles and flows into the air supply hole 22. This is possible because the air supply hole 22 formed in the seating portion 20 of the pulsator 10 is located above the nozzle for injecting air from the outside.

The initial air bubbles introduced into the air supply hole 22 hit the impeller 30 rotating by the water flow flowing into the water flow inlet 26 as shown in FIG. 5B.

In this process, the initial air bubbles introduced into the air supply hole 22 and hit the impeller 30 are broken into fine sizes.

The finely broken air bubbles are blown to the upper side of the pulsator 10 through a plurality of blow holes 42 formed in the cover member 40 along the whirlwind formed by the rotating impeller 30.

Air bubbles finely divided by the above process is to increase the quantity of water significantly compared to the first air bubbles are to penetrate every corner of the laundry and then to burst the physical force to the laundry. In other words, the finely broken air bubbles are penetrated between the fibers of the laundry while bursting to apply a physical force to the laundry to improve the washing power, as well as to increase the dissolution of the detergent to increase the washing and hemging power.

At this time, by adjusting the size of each blow hole 42 formed in the cover member 40 it is possible to subdivide the air bubbles that have not been subdivided.

In addition, the whirlwind flow formed by the rotation of the impeller 30 prevents tangling of laundry.

On the other hand, a second embodiment of the present invention is shown in FIG.

As shown in FIG. 6, the subdividing apparatus according to the second embodiment of the present invention has a first embodiment except that the rotating means for rotating the impeller 30 includes a driving motor 50 and a driving shaft 52. Have the same configuration.

In other words, the driving motor 50 is installed on the bottom surface of the seating part 20, and the driving shaft 52 of the driving motor 50 penetrates the bottom of the seating part 20 to support the boss ( 24 is to be connected to the impeller 30 installed. In this case, the driving motor 50 may be driven such that the forward / reverse rotation is repeatedly performed like the pulsator 10.

In this way, the rotating means is composed of a drive motor 50, the impeller 30 is rotated at a higher speed, not only finer granular air bubbles, but also to form a more powerful whirlwind flow, As the impeller 30 can be driven as necessary, the washing force may be selected according to the laundry.

The air bubble granularity of the washing machine according to the present invention forms a seating portion in various places of the pulsator, the seating portion is installed by the impeller driven by forced or water flow, the air bubbles are finely divided and the quantity is increased, and miniaturization Many air bubbles can penetrate between the fibers of the laundry to burst and apply physical force, thereby improving the washing power and increasing the dissolution of the detergent to increase the cleaning and hemging force, and impellers are generated. The tornado whirlwind will provide the effect of preventing tangling of the laundry.

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, but in the field to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Any person with ordinary knowledge will be able to make various modifications.

1 is a cross-sectional view showing a washing machine having a bubble generator according to the prior art.

Figure 2 is an exploded perspective view showing a bubble subdividing apparatus according to a first embodiment of the present invention.

Figure 3 is a perspective view of the coupled state of the air bubble granularity device shown in FIG.

4 is a cross-sectional view taken along the line AA ′ of FIG. 3.

5A and 5B are views showing an operating state of the air bubble atomization apparatus shown in FIG. 2, 5A is a plan view, and 5B is a sectional view.

6 is a cross-sectional view showing a bubble subdividing apparatus according to a second embodiment of the present invention.

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

10: pulsator 20: seating part

22: air supply hole 24: support boss

26: water inflow hole 30: impeller

40: cover member 42: blowing hole

50: drive motor 52: drive shaft

Claims (3)

In the washing machine to supply the compressed air to the washing tank to improve the washing power by air bubbles, Is formed in the pulsator 10, the bottom is formed with a plurality of air supply holes 22 for supplying compressed air, a plurality of seating portion 20 is formed in the support boss 24 protrudes upward from the bottom center ; An impeller (30) rotatably coupled to the support boss (24) for subdividing air bubbles supplied from the respective air supply holes (22) while being rotated by a rotating means; Inlet edges of the seating portion 20 are formed on the upper surface of each of the plurality of ejection holes 42 are formed on the upper surface to allow the air bubbles broken down by the impeller 30 to be ejected into the washing tank. Each cover member 40 installed in the cover member 40; Air bubble granular device of the washing machine comprising a. The pulsator 10 of claim 1, wherein the rotation means flows water generated during forward / reverse rotation of the pulsator 10 to rotate the impeller 30. The air bubble granularity of the washing machine, characterized in that consisting of a water flow inlet 26 formed on the side of the center direction. delete