KR0162306B1 - Air supplying method of a washing machine - Google Patents

Abstract

The present invention relates to a bubble-type washing machine, it is difficult to expect a cleaning effect because the size of the bubble by the conventional bubble-type washing machine is relatively much larger than the size of the contamination, as well as the rotation of the rotor Bubbles generated by the contact with other bubbles soon become larger in size and the effect of the first bubble is not retained and the effect is reduced, the washing machine is repeated for a long time to improve the washing effect of the laundry There was a problem in that the phenomenon occurs such as foam damage and kinky laundry by driving during. The present invention attaches a device for supplying air into the washing tank, and also attaches a device for circulating the washing water in the washing tank itself, and also mixes water and air to mix with each other, allowing air bubbles to be mixed in a very small size of several micrometers to several hundred micrometers. By attaching a device having a function of generating bubbles (micro bubbles) of, to improve the washing efficiency while saving detergent, to reduce the damage of the laundry, and to prevent the foaming of the laundry.

Description

Washing machine and air supply method of the washing machine

1 is a cross-sectional view schematically showing the main configuration of a typical washing machine.

Figure 2 is a cross-sectional view schematically showing the main configuration of the bubble generating washing machine according to the prior art.

3 is a cross-sectional view schematically showing the main configuration of the washing machine according to the present invention.

4 is a detailed configuration diagram of a microbubble generating device which is a main configuration of a washing machine according to the present invention.

5 is a detailed configuration diagram of a mixer which is a main configuration of a washing machine according to the present invention.

6 is a detailed view showing another embodiment of the mixer which is a main configuration of the washing machine according to the present invention.

7 is a flow chart for adjusting the supply time of air and water by detecting the washing amount by the washing machine according to the present invention.

* Explanation of symbols for main parts of the drawings

M: Micro Bubble Generator 31: Washing Machine Case

32: outer tank 51: air supply

52: air guide 53: pump

56 discharge port 60 mixer

61 body 62: microbubble washing solution supply hole

63: washing liquid intake 64: air intake

65 threaded portion 66 stepped portion

68: wings 69: beads

70 connector

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a washing machine, and more particularly, to a washing machine that improves washing efficiency while saving detergent, and also reduces foam damage of laundry and prevents snagging of laundry.

In the general washing machine, as illustrated in FIG. 1, several snubber bars 15 are provided inside the washing machine case 1, and the outer tub 2 is supported by the snubber bars 15. .

Inside the outer tub (2) is provided with a rotatable wash dewatering tank (3) rotatably, the rotor 4 is rotatably installed on the inner bottom of the wash-and-dry dewatering tank (3), The former 4 is connected to the clutch 5 provided in the center of the lower surface of the outer tub 2.

The driving motor 6 is fixed to one side of the lower surface of the outer tub 2, the driving pulley 8 coupled to the rotation shaft 7 of the driving motor 6, and the driven coaxially coupled to the clutch 5. The pulley 9 is connected to the belt 10.

In addition, in conjunction with the operation of the drain valve 11 in order to drain the washing water discharged from the combined use dehydration tank (3), the clutch lever 12 to the washing and dehydration operation of the clutch (5) is made It is installed.

The clutch lever 12 is linked to the operation of the drain valve 11 so that the clutch 5 is switched to the washing mode or the dehydration mode, so that washing and dewatering operations of the washing machine are performed.

In the drawings, reference numeral 13 denotes a washing shaft, and 14 denotes a dehydration shaft.

In this general washing machine, when the drive motor 6 is driven, the drive motor 6 is driven through the drive pulley 8 → belt 10 → driven pulley 9 coupled to the rotation shaft 7. It is transmitted to the clutch (5), the power is separated by the action of the clutch (5) to selectively drive the washing shaft 13 and the dewatering shaft (14).

That is, in the washing mode, the driving motor 6 decelerates the power in the clutch 5 and then is transferred to the washing shaft 13 to wash the laundry while the rotor 4 rotates. The power of the drive motor 6 is transmitted to the washing shaft 13 and the dehydration shaft 14 as it is to rotate the rotor 4 and the washing machine dehydration tank 3 at the same time to dehydrate the laundry.

On the other hand, in recent years, many designs for a washing machine with a bubble cleaning function to improve the cleaning effect by injecting air into the washing liquid of the washing and drying dehydration tank (3) having essentially the same configuration as the above washing machine, If the proposed embodiment is described with reference to the accompanying drawings, it is as follows.

As shown in FIG. 2, the air induction pipe 22 which connects the air supply 21 provided in the upper part of the washing-and-dehydration tank 3, and the bottom of the said air supply 21 and the outer tub 2 is shown. And the bubble generator 23 additionally installed at the bottom of the outer tub 2, wherein the air supplied from the air supplier 21 passes through the air induction pipe 22 and the bubble generator ( 23, the bubble is generated while passing through the lower part of the outer tub 2 to the inside of the washing / dehydrating tank 3, or the center of the washing shaft 13, or the dewatering shaft 14; It is made to make a hollow, and the inside of the combined-use dehydration tank (3) and the rotor (4) is supplied through the hollow shaft so that the air bubbles are made of smaller bubbles by the rotation of the rotor (4).

In the drawings, the same reference numerals are given to the same parts as in FIG. 1.

The air supply method of the washing machine according to the related art generates air bubbles through several holes while supplying only air from the air supply 21 to the inside of the bottom of the outer tub 2, and the air bubbles are again rotated. As a method of making the size smaller by the rotation of (4), it was impossible not only to make the air bubbles large, but also to make the size of the bubble to any desired size suitable for washing, not to be uniform in size.

In addition, in the size of the air bubble, the smaller the size, the higher the probability of contact with the contaminant particles attached to the laundry, so that the smaller the air bubble than the larger the cleaning effect is much better.

Therefore, reducing the size of the bubble is a method of improving the cleaning effect, and the smaller the bubble, the more the bubble has energy, so the cleaning effect is much better than that of the large bubble.

However, the air supply method of the washing machine according to the prior art as described above is not possible to make the size of the bubble arbitrarily, but only by reducing the size of the hole of the bubble generating portion to reduce the size of the bubble or the rotation of the rotor 4 Since small bubbles can be generated only by a supplementary method of making small ones through the back, it is not possible to make the bubbles uniform and to make them very small. In addition, the bubbles made by the existing method will immediately rise to the upper side of the washing and dry dehydration tank (3) to form a foam layer on the top and disappear into the air at the same time.

Therefore, since the bubbles generated by the conventional method are relatively much larger in size than the size of the contamination of the laundry, it is difficult to expect a cleaning effect and bubbles generated by the rotation of the rotor 3. As soon as the contact with and combined with other bubbles become larger in size, the size of the initially made bubble does not remain intact and also loses the effect.

On the other hand, since the size of the bubble is large, it naturally rises to the upper side of the washing and drying dehydration tank (3). At this time, the bubble has a very large surface area. 3) It lowers the concentration of surfactant in the washing solution, which reduces the cleaning effect. Since the size of bubbles made by the conventional method is more than a few mm, the probability of contact with actual contamination is very small, so it is difficult to expect a cleaning effect when washing.

Therefore, by repeatedly driving the washing machine for a long time in order to improve the washing effect of the laundry, it becomes a phenomenon such as foam damage and kinking of the laundry, resulting in problems such as damaging the laundry.

The main object of the present invention is to provide a washing machine to improve the washing efficiency of the laundry.

Another object of the present invention to provide a washing machine to improve the washing efficiency while saving detergent.

It is another object of the present invention to provide a washing machine that can reduce the damage to laundry and prevent the laundry from being twisted.

In order to achieve the above object of the present invention, the washing liquid circulating means for circulating the washing liquid, and micro bubble generating means for generating micro bubbles by mixing the air and the washing liquid, the micro bubble generating means is the washing The washing liquid suction port which is connected in series with the discharge port side of the liquid circulation means and sucks the washing liquid and an air suction port which sucks air on one side of the outer circumferential surface of the washing liquid circulation means are formed and the laundry mixed with the air on the other end of the washing liquid circulation means. There is provided a washing machine, characterized in that a microbubble mixed laundry liquid supply hole is formed for discharging the liquid and supplying the liquid to the inside of the outer tub.

The inside of the body of the micro bubble generating means is provided with a mixing means for mixing the washing liquid sucked from the laundry liquid suction port and the air sucked from the air suction port while being discharged to the micro bubble mixed laundry liquid supply hole.

The mixing means are several blades (VANE) continuously inserted at a predetermined inclination angle so that the air and the washing liquid are mixed while generating a turbulent flow of water inserted into the body in the longitudinal direction.

The mixing means are several beads filled inside the body to generate turbulence of water.

The air intake port is formed on the washing liquid intake side, and is configured such that a distance between the air intake port and the washing liquid intake port is shorter than an interval between the air intake port and the microbubble mixed laundry solution supply hole.

The upper end of the body of the micro-bubble generating means is formed with a screw for engaging with the outer tub, the lower end of the screw portion is formed with an annular stepped portion to prevent leakage while facilitating the coupling with the outer tub.

The washing liquid circulation means is configured to force the washing liquid to be circulated by a power source, the power source is arranged to be located below the lowest level of the water level set in the washing machine and is fixed to the outer tub or washing machine case.

In addition, the first step of repeatedly driving the drive motor of the washing machine left and right, the second step of calculating and comparing the number of detection pulses for the detection of the quantity, and the simple washing for a predetermined time according to the number of detection pulses A third step, a fourth step of proceeding to the washing course according to the quantity of detection pulses, a fifth step of setting an air supply amount and a time according to the amount of laundry, and a sixth step of supplying air appropriately for the amount of laundry Provided is a method for supplying air to a washing machine, characterized in that the steps proceed in order.

Hereinafter, the washing machine according to the present invention will be described according to the embodiment shown in the accompanying drawings.

3 is a cross-sectional view schematically showing the main structure of the washing machine according to the present invention. As shown in FIG. 3, the outer tub 32 is suspended from the inside of the washing machine case 31 and rotates inside the outer tub 32. It is installed on the washing combined dehydration tank 33, the rotor 34 rotatably installed in the center of the bottom surface of the combined washing dehydration tank 33, and the bottom surface of the bottom surface of the outer tub 32, A clutch 35 for transmitting the clutch 35, a driving motor 36 for driving the clutch 35, a driving pulley 37 for transmitting a driving force of the driving motor 36 to the clutch 35, and a belt. (38), and a driven pulley 39, the washing shaft 40 is coupled to the rotor 34 to perform the washing operation of the laundry in the washing mode, and combined with the combined dehydration tank 33 for dehydration Dehydration shaft 41 for rotating the washing and drying dehydration tank 33 at high speed in the mode, and And a drain valve 42 for draining time mode, consists of a clutch lever 43 for interlocking the operation of the washing and dehydrating modes mode and drain valve 42.

The configuration as described above is the same as the conventional washing machine, the washing and dehydration operation is also performed in the same manner as the conventional washing machine.

That is, the driving force generated from the driving motor 36 as the driving source is transmitted to the clutch 35 through the driving pulley 37 → belt 38 → driven pulley 39, and the driving force is transmitted to the clutch 35 by the clutch ( By the conventional power-dividing action of 35), the process is switched to washing or dehydration mode.

At this time, when switching to the washing mode, the rotor 34 rotates to proceed with the washing stroke, and when switching to the dewatering mode, the combined washing / dehydrating tank 33 rotates at a high speed with the rotor 34 to perform the dehydrating stroke. Will proceed.

On the premise of the above-described general washing machine, the washing machine according to the present invention, as shown in FIG. 4, is provided with an air supply unit 51 provided on the upper part of the washing / dehydration tank 33 and the air supply unit ( 51 is an air guide tube 52 for delivering air supplied from the air, and bubbles of very small size (a few micrometers to several hundred micrometers) while mixing water and air to mix with each other (hereinafter referred to as 'micro bubbles'). It is configured to include a micro-bubble generating device (M) to generate a).

The micro bubble generating device (M) is composed of a washing liquid circulation means for circulating the washing liquid, and micro bubble generating means for generating micro bubbles by mixing the air and the washing liquid.

The washing liquid circulating means is configured to forcibly circulate the washing liquid by a separate power source.

For example, the washing liquid circulation means includes a pump 53 for circulating the washing liquid and a pump driving motor 54 for driving the pump 53.

The pump 53 is disposed below the lowest level among the water level set in the washing machine, and as shown in FIG. 4, the pump 53 is fixed to the lower surface of the outer tub 32 or a predetermined portion of the washing machine case 31. It is preferable.

The pump 53 is provided with a suction port 55 for suctioning the washing liquid and a discharge port 56 for discharging the washing liquid, and the washing liquid is pumped to the suction port 55 of the pump 53. Washing liquid guide tube 57 for guiding to) is connected.

The discharge port 56 of the pump 53 is connected in series with microbubble generating means for generating microbubbles by mixing and mixing air and water.

The micro bubble generating means is characterized in that the mixer 60 is provided with a mixing means for mixing air and water inside the cylindrical body 61, as shown in FIG.

The mixer 60 is disposed below the lowest water level set by the washing machine, and as shown in FIG. 4, it is preferable that the mixer 60 is fixed to the lower surface of the outer tub 32.

The body 61 has a micro bubble mixed washing liquid supply hole 62 and a washing liquid suction port 63 at upper and lower portions thereof, respectively, and an air inlet port at which a lower end of the air guide tube 52 is connected to one side of an outer circumferential surface thereof. 64) is formed.

In addition, the upper end of the body 61 is formed with a screw portion 65 for engaging with the outer shell 32, in order to prevent leakage while facilitating the coupling with the outer shell 32 in the lower portion of the screw portion 65. An annular stepped portion 66 is formed, and a separate part is attached to the side surface of the stepped portion 66 to prevent leakage of the washing liquid such as rubber packing.

A nut (not shown) for fastening with the outer shell 32 is fastened to the screw portion 65.

The lower end of the body 61 is formed with an annular departure prevention jaw 67 for facilitating the coupling with the counterpart or preventing the phenomenon from being separated after being fastened with the counterpart.

The air suction port 64 is formed at the washing liquid suction port 63, so that an interval between the air suction port 64 and the washing liquid suction port 63 is an interval between the air suction port 64 and the microbubble mixed laundry solution supply hole 62. It is desirable to make it shorter.

The mixing means is composed of several blades (VANE) 68 continuously formed at a predetermined inclination angle so that the air and the washing liquid are mixed while being inserted in the longitudinal direction inside the body 61 to generate turbulence of water.

In addition, the mixing means is not limited to the wing 68, as shown in FIG. 6, may be used as several beads 69 filled in the interior of the body 61 to generate turbulence. .

When the washing liquid suction port 63 of the mixer 60 and the discharge port 56 of the pump 53 are connected to the connecting pipe 70, and the washing liquid discharged to the discharge port 56 of the pump 53 leaks. It is to be supplied to the mixer 60 without the.

On the other hand, Figure 7 is to adjust the operating time for the washing solution circulation of the pump 53, while adjusting the supply time of the air supplied from the air supply 51 by detecting the washing amount of the combined washing and dehydration tank (33) As shown in the flowchart, the operation and effect of the washing machine according to the present invention will be described with reference to the flowchart shown in FIG.

First, the drive motor 36 is operated in a left and right repetition in order to detect the quantity of the washing / drying dehydration tank 33.

At this time, the left and right repetitions are repeated 24 times in the order of the operation time and the rest time which are already set, for example, 0.4 second on, 0.3 second off.

According to the repeated implementation of the drive motor 36, the number of quantity detection pulses is calculated. If the number of pulses is larger than that value compared with a predetermined value, the simple washing is again performed for a predetermined time period, and then it is repeated again with the initial quantity detection algorithm.

That is, after performing the left and right repeating operation 24 times again, if the number of the quantity detection pulses is calculated and smaller than the previously set value, the process immediately proceeds to the washing course.

At this time, when performing the washing course to detect the amount of washing, that is, the amount of washing to determine the appropriate washing state, and to perform the appropriate amount of water or washing time according to the algorithm set appropriately for the amount of washing. That is, in order to operate the microbubble generating device M in accordance with the amount of laundry to be washed, the supply time of air from the air supply 51 and the circulation time of the washing liquid of the pump 53 are linked to the quantity detection algorithm. Will be controlled.

Subsequently, as shown in FIG. 5, when air and water are mixed and mixed with each other and pass through the inside of the mixer 60, several wings 68 installed inside the body 61 of the mixer 60 are used. When colliding, they are mixed to form turbulence, and microbubbles are generated as the inflowing air is separated into tiny bubbles.

As such, the micro bubbles generated in the mixer 60 are introduced into the outer tub 32 through the micro bubble mixed washing liquid supply hole 62.

On the other hand, as shown in FIG. 6, microbubbles can be generated by inserting a ball 69 which can generate turbulence instead of the shape of the blade 68 inside the mixer 60. FIG.

In other words, the water and air introduced from the outside of the mixer 60 becomes a small bubble to generate micro bubbles.

When the microbubble is generated by the configuration and principle of the washing machine as described above, the microbubble is soon combined with the detergent dissolved in the washing solution.

At this time, when the microbubble is combined with the detergent, the microbubble does not become large due to bonding with each other.

In other words, the generated micro-bubbles are not formed for a long time because the micro-bubbles are combined with each other in the absence of detergent, the bubble size is gradually increased, and will quickly turn into a large bubble. However, if there is a detergent dissolved around the microbubble while the microbubble is generated, the microbubble binds to the detergent particles, and when the microbubble binds to the detergent, the detergent particles attached to the microbubble are separated from the microbubbles. The microbubbles can last in small sizes for long periods of time because they bind together and prevent them from forming into large bubbles.

As the size of the bubble of a washing machine using a known bubble is a few mm in size, the cleaning effect cannot be largely expected. Because according to the following equation ①, if the bubble size is large, the probability of contact with the pollution is reduced in inverse proportion to the square of the bubble size.

Here, Pc = possibility of contact between bubble and particle, DP = particle diameter, and Db = bubble diameter.

Therefore, according to the present invention, since the microbubble has a lot of energy through the process of making the size small, the cleaning effect of the microbubble is much larger than when the microbubble is not present.

As a result, reducing the size of bubbles is a method of enhancing the cleaning effect.

In addition, in the conventional method of large bubble size, the detergent is absorbed in the laundry liquid so that the bubble rises, thereby lowering the concentration of the surfactant in the laundry liquid, thereby reducing the cleaning effect, and it is difficult to control the size of the bubble. In addition, it is more impossible to make the size constant. In the case of a washing machine employing a conventional bubble cleaning method, the size of the bubble is made of several mm, or several hundred mm or more.

However, the washing machine according to the present invention can keep the size of the bubble constant, control the size of the bubble, and also make it possible to generate the size of the bubble small from several micrometers to several hundred micrometers.

That is, to adjust the size of the bubble, as shown in Equation (2) below, since the size of the micro bubble is related to the diameter of the mixer 60, it is possible to adjust the size of the desired bubble as much as possible.

Where Db = bubble diameter, D = mixer diameter, We = Weber number, and A, n = constant.

In addition, since the bubble size is determined by the above-described formula, the bubble size is almost constant in the same mixer 60. Bubbles generated in this way do not rise to the upper side of the washing liquid, and since the washing liquid is made by combining the detergent and the micro bubble, the surfactant concentration in the washing liquid does not decrease. In addition, since the bubble size is small and has energy, it not only easily combines with the dirt attached to the laundry, but also easily removes the dirt from the laundry, thereby increasing the cleaning power. The microbubble combined with detergent can absorb and separate the contaminants of oils that are not soluble in water when washing in a general washing machine, and thus can be obtained in dry cleaning or in combination with possible cleaning effects. Therefore, the cleaning effect is remarkably improved, and thus the same cleaning effect can be obtained even when the amount of detergent is less than half compared to the conventional washing method.

In addition, the washing machine does not need to be repeatedly driven for a long time in order to improve the washing effect of the laundry, thereby eliminating phenomena such as damage and entanglement of the laundry, thereby preventing damage to the laundry.

In addition, the washing liquid is circulated by the washing liquid circulation means, so that the detergent is completely dissolved in the washing liquid, thereby preventing the detergent from being washed in a lumped state and lowering the washing power.After washing the detergent, the detergent adheres to the laundry. There is an additional effect such as preventing the remaining phenomenon.

Claims (8)

Washing liquid circulating means for circulating the washing liquid and micro bubble generating means for generating micro bubbles by mixing the air and the washing liquid, the micro bubble generating means is connected in series to the discharge port side of the washing liquid circulation means for washing The laundry suction port for sucking the liquid and an air suction hole for suctioning air are formed on one side of the outer circumferential surface of the washing liquid circulation means, and the micro liquid for discharging the washing liquid mixed with air to the other end of the washing liquid circulation means to supply the inside of the tub. Washing machine, characterized in that the bubble mixing washing liquid supply hole is formed. According to claim 1, wherein the inside of the body of the micro-bubble generating means is provided with a mixing means for mixing the washing liquid sucked from the washing liquid suction port and the air sucked from the air suction port while being discharged to the micro bubble mixed washing liquid supply hole side, respectively Washing machine characterized in that it became. The washing machine according to claim 2, wherein the mixing means is several vanes (VANE) continuously inserted at a predetermined inclination angle so that the air and the washing liquid are mixed while generating turbulence of water inserted into the body in the longitudinal direction. . The washing machine according to claim 2, wherein the mixing means is several beads filled in the body to generate turbulence of water. The washing machine according to claim 1, wherein the air inlet is formed on the side of the washing liquid inlet, and the interval between the air inlet and the washing liquid inlet is shorter than that between the air inlet and the microbubble washing solution supply hole. According to claim 2, wherein the upper end of the body of the microbubble generating means is formed with a thread for engaging with the outer tub, the lower end of the threaded portion is formed in an annular stepped portion to prevent leakage while facilitating the coupling with the outer tub The washing machine characterized by. According to claim 1, The washing liquid circulation means is configured to force the washing liquid is circulated by the power source, the power source is arranged to be located below the lowest level of the water level set in the washing machine and in the outer tub or washing machine case Washing machine, characterized in that fixed. Repeatedly driving the driving motor of the washing machine to the left and right, calculating and comparing the number of detection pulses for the detection of the quantity, and performing a simple washing for a predetermined time according to the number of detection pulses, and the quantity detection pulse Proceeding to the washing course according to the number, setting the air supply amount and time according to the quantity of laundry, and supplying air to suit the quantity of the laundry air supply of the washing machine Way.