KR200239108Y1 - Anti-resonance structure in dehydraulic tub of two tub type washing machine - Google Patents

Abstract

The present invention relates to a dehydration tank anti-vibration structure of a two-chamber washing machine. This is to prevent the resonance interference of the dehydration tank by the resonance phenomenon of the air generated in the dehydration tank of the two tank washing machine so that the dehydration tank can operate stably, the washing tank 60 and the dehydration tank 70 is formed in two tank washing machine ( 55. In the bottom of the dehydration tank 72, in which the dehydration tank 70 of the washing machine 55 is installed, a two-tank washing machine formed with ribs 75 for inducing air flow by the rotation of the dehydration tank 70 to turbulent flow. It provides a dehydration tank anti-vibration structure of the. Thus, in order to prevent resonance generated in the dehydration tank of the two-type washing machine, a rib for inducing turbulent flow is formed to prevent the collision phenomenon of the dehydration tank, and thus the washing machine operates stably.

Description

ANTI-RESONANCE STRUCTURE IN DEHYDRAULIC TUB OF TWO TUB TYPE WASHING MACHINE}

The present invention relates to a dehydration tank anti-vibration structure of a two-chamber washing machine, and in particular, the dehydration tank of the dehydration tank installed separately from the washing tank in the two-chamber washing machine can prevent vibration of the dehydration tank by preventing the resonance of air generated at high speed rotation. It relates to a dehydration tank anti-vibration structure of a two-chamber washing machine.

In general, a washing machine has a washing function for washing laundry using rotating water, and a dehydration function for removing moisture by applying strong centrifugal force to the washed laundry.

In order to perform the above functions, the washing machine discloses a one-chamber washing machine which performs the washing function and the dehydration function in a single container, and a two-chamber washing machine which performs each in a separate container.

In general, a single tank washing machine is provided with a clutch device for switching the power of the driving motor according to the driving characteristics according to the execution of the washing function and the driving function of the dehydration function, and the two-stage washing machine is to separate the washing tank and the dehydration tank Two drive motors for driving the cylinder are provided.

Two tank washing machine equipped with two motors as described above is shown in FIG.

The illustrated two tank type washing machine includes a washing tank 10 for executing a washing function in the housing 5 of the washing machine, a pulsator 12 installed on the bottom of the washing tank 10 to generate rotating water; Washing motor (M) for generating a driving force to the pulsator (12), a transfer unit (16) for power transmission between the washing motor (M) and the pulsator (12), washed in the washing function A dewatering tank 15 for dewatering laundry and a dewatering motor M for generating centrifugal force in the dewatering tank 15 are configured.

In the conventional two-type washing machine configured as described above, when laundry is stored in the washing tank 10 and the washing water is stored, the washing motor M rotates according to an external signal applied by the user. Washing operation of the washing machine is a complex rotation of the washing water in order to generate a rotating current caused by turbulence pulsator 12 must be rotated repeatedly in both directions because the washing motor (M) is repeatedly driven in both directions. According to the bidirectional repetitive driving of the washing motor (M), the pulsator 12 is rotated bidirectionally at regular intervals, so that the washing water is generated in the wash water to perform the washing function.

After the washing function is executed, the laundry is transferred to the dehydration tank 15. When the setting of the dehydration function is completed, the dehydration motor M is rotated at a high speed in one direction. In accordance with the high speed rotation of the dehydration motor (M), the dehydration tank (M) is rotated in one direction, the centrifugal force is applied to the laundry, so that the laundry water can be dehydrated.

However, when the dehydration function as described above, the dehydration tank 15 is rotated at high speed in a sealed state with the outside so that the flow of air is close to the steady state flow, so that air, that is, fluid resonance is generated. As the dehydration tank 15 vibrates with a large trajectory from the fluid resonance, a large noise is generated from the periodic collision of the housing 5 and the dehydration tank 15 during dehydration due to severe interference such as colliding with the housing 5 of the washing machine. In severe cases, problems such as damage to the housing 5 have occurred until an unusable state.

The present invention was conceived in view of the above problems, and the object of the present invention is to prevent the resonance interference of the dehydration tank by the resonance phenomenon of the air generated in the dehydration tank of the two tank washing machine to prevent the noise of the dehydration tank and the dehydration tank is It is to be able to rotate stably.

In order to achieve the above object, the present invention, in the washing tank and the dewatering tank two tank type washing machine, the dehydration tank resonance prevention of the two tank washing machine in which a rectangular rib is standing on the inner bottom surface of the dehydration tank is installed By providing a structure.

1 is a side cross-sectional view of a conventional two-chamber washing machine,

Figure 2 is a side cross-sectional view of the washing machine according to the present invention.

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

55: washing machine 60: washing tank

62 housing 70 dehydration tank

72: dehydration bottle 75: rib

The present invention was devised based on multiple experiments to solve the resonance phenomenon occurring in the dehydration tank of a two-chamber washing machine, and provides a structure to reduce the resonance collision of the dehydration tank due to the fluid flow phenomenon of air.

This is due to the flow characteristics of the air generated in the washing machine dehydration container of the present invention.

The dehydration tank is rotated at a high speed in a closed state when the dehydration container is closed when performing the dehydration function. In the closed state, the flow of air is generated by the object rotating at high speed. Among the sealed spaces, the steady state flow is generated with constant flow over time.

When the steady-state flow occurs, a resonance of a certain frequency is generated, and in accordance with the predetermined frequency resonance, the dehydrating tank repeatedly collides with the housing which is the case of the dehydrating tank and the dehydrating tank at a constant cycle.

As a method for overcoming the frequency of the steady-state flow, the present invention has installed a rib for inducing turbulent flow in the dehydration tank.

As shown in FIG. 2, the rectangular ribs 75 are erected in the lower portion of the dehydration tank 70 installed in the dehydration tank 72 of the two-type washing machine 55.

The rib 75 is preferably installed at the side position of the washing machine 55. This is based on a variety of experimental results, that is, the results found to be a condition that would like to generate turbulent flow in the dehydration tank 72 than when two and three are installed at a certain angle.

In addition, in the absence of the rib 75, the resonance frequency in the dehydration tube 72 is increased above 60 Hz on the basis of the applied power, so that a resonance phenomenon with a frequency of 2 Hz appears severely. In the case where (75) is installed, the experimental result of the resonant frequency is as follows.

First, when the rated voltage is applied, the resonance is not generated in the case of 60 Hz, and the resonance is not generated even if it is artificially shaken to about 2 Hz, which is the resonance frequency generated when the rib 75 is not present.

Second, in case of 66 kHz, it appeared fine only when artificial resonance frequency occurred and then was exhausted.

Third, when the frequency appeared to 70Hz, the resonance was exhausted after delaying for a long time at the time of artificial resonance frequency.

As a result of the above experiment, when the rib 75 of the present invention is installed, the turbulent flow is accurately generated in the dehydration tank 72, and the turbulent flow is a resonance when the high-speed rotation frequency of the dehydration tank 70 is 60 Hz or more. Experimental results have been shown to prevent this from happening.

Particularly, it is preferable that a single rib 75 is installed at a predetermined position more preferably than a plurality of ribs 75 are installed, and the overall size of the ribs 75 is 50 in height. The rib 75 formed in the rectangular shape of mm x 100 mm x thickness 2 mm proved to form the most effective turbulence.

Since the ribs 75 are formed on the bottom surface of the dehydration tank 72, the dehydration tank 70 prevents steady state flow generated when the dehydration tank 70 is rotated at high speed, and turbulence is generated in the dehydration tank 72. From the generation, the dehydration tank 70 is rotated precisely without generating resonance, so that the dehydration tank 70 performs a dehydration function without a collision with the housing 62.

Thus, the present invention, when the dewatering tank 70 that is rotated at a high speed reaches a certain frequency range or more, the resonance is generated to prevent the risk of a collision appearing in the dehydration tank 72 at a certain period, in particular, the dehydration tank 72 The rib 75 for inducing turbulent flow to prevent the resonance in the) is installed on the bottom surface of the dehydration container 72, thereby preventing the resonance generated in the dehydration container 72 of the two-chamber washing machine.

The dehydration tank anti-vibration structure of the two-type washing machine of the present invention forms a rib that induces turbulent flow to prevent resonance caused by the high-speed rotation of the dehydration tank in the dehydrating tank of the two-chamber washing machine, thereby preventing the collision of the dehydrating tank Has a useful effect that works reliably.

Claims (2)

In the two-type washing machine 55 in which the washing tank 60 and the dehydration tank 70 are formed separately, At the bottom of the dehydration tank 72 in which the dehydration tank 70 of the washing machine 55 is installed, ribs 75 are formed to guide the air flow generated by the high speed rotation of the dehydration tank 70 to turbulent flow. Dehydration tank anti-vibration structure of 2 tank washing machine. 2. The dehydration tank anti-vibration structure of claim 1, wherein the ribs are formed in a rectangular shape on the inner bottom surface of the dehydration container (72).