KR100557029B1 - Auto balancer of a washing machine using Electro-Rheological fluid - Google Patents

Abstract

The present invention prevents movement between baffles by solidifying a fluid in a state of excessive vibration, and uses an electron flow fluid that can be adjusted to operate as a normal fluid at the time of transition to a normal state, thereby preventing eccentricity of laundry. It is to provide an auto balance of the washing machine using the electromagnetic flow fluid to minimize the vibration of the washing machine. This auto balance accommodates the electron flow fluid, and a plurality of holes are formed in the partition and the baffle so that the electron flow fluid contained therein moves each area, the bottom plate is formed of a conductor, connected to the ground of the washing machine motor, Is sealed by a conductive electrode cover installed on an outer tub, the electrode cover is configured to supply electricity to the electromagnetic flow fluid in response to a signal of a vibration sensing sensor for detecting vibration of the washing tub so as to suppress the electromagnetic flow fluid in a transient vibration state. Is authorized.

Description

Auto balancer of a washing machine using Electro-Rheological fluid

TECHNICAL FIELD The present invention relates to an auto balancer of a washing machine, and more particularly to an electro-rheological fluid which solidifies the transient fluid flow to reduce the point of doubled amplitude, and acts as a normal fluid in a steady state. It is about the auto balance of the washing machine using).

In general, when the laundry is dewatered after the washing is completed in the washing machine, vibration is generated by the eccentricity (unbalance) of the laundry in the washing tank, and in order to reduce such vibration, a pulsator type washing machine as shown in FIG. Auto balance devices have been proposed in the past.

Tub 22 is supported on the outer case 21 through a plurality of dampers 23, the washing tub 25 located in the tub 22 is connected to the clutch 27. A pulsator 26 for stirring laundry in the washing tank 25 is located in the center of the washing tank 25, and the pulsator 26 is connected to the motor 28 through the clutch 27.

Therefore, when washing the laundry, the power of the motor 28 is transmitted to the pulsator 26 through the clutch 27, the laundry is agitated by the rotation of the pulsator 26, when dehydrating the laundry The power of the motor 28 is transmitted to the washing tank 25 by the clutch 27 to dehydrate the laundry.

When the laundry is dewatered, when eccentricity is caused by the laundry being pushed to one side, the weight of the laundry is not uniformly distributed in the washing tank 25, and when concentrated in any part, vibration occurs in the dehydration process. do. This vibration is absorbed by a plurality of dampers 23 supporting the lower portion of the tub 22 and the auto balance mechanism 24 provided on the upper portion of the washing tank 25, the eccentricity is corrected when the laundry is dewatered, vibration is Minimize what is happening.

An auto balance 24 is provided for correcting the center of laundry to prevent eccentricity when the laundry is dewatered as described above. The auto balance 24 is formed of a plastic injection molding to have a ring shape along the edge of the washing tank 25, the inside of the auto balance 24 is a circular partition 30 and a plurality of partitions as shown in FIG. The plurality of regions 32 are in communication with each other by the baffle 31, and are sealed by the cover 29 (see FIG. 1) in a state filled with salt water.

For example, when washing laundry, when the laundry is left to the left, the centers of the washing tub 25 and the tub 22 are to the left. At this time, the salt water in the auto balance 24 is stopped by inertia. By trying to stay at the position where it was, the vibration according to an eccentricity is absorbed by making the center of gravity of the whole washing tank 25 center.

However, in the auto balance as described above, the flow of the fluid varies depending on the relationship between the natural frequency of the washing machine and the RPM of the washing tank when the laundry is dewatered. That is, the flow of the fluid is changed as shown in Figures 3a to 3c according to the case where the RPM of the washing tank is less than the natural frequency of the washing machine, such as the natural frequency, and larger than the natural frequency.

That is, when the RPM of the washing tank is smaller than the natural frequency of the washing machine, it becomes ω << ωn, becomes a transient vibration state, and acts in the direction of increasing the vibration. If it is larger than the natural frequency, it becomes ω''ωn and has a phase difference of 180 °, so that a reaction force is generated.

Therefore, when the RPM of the washing tank is smaller than the natural frequency of the washing machine, there is a negative effect of doubling the vibration by matching the direction of the force caused by the eccentricity of the laundry with the direction of the force generated by the fluid inside the auto balance. In order to minimize such a problem, the size, number, position, etc. of the holes formed for the communication of the fluid between the regions are adjusted, so that the fluid does not move in the transient vibration state and proceeds to the normal state. As a result, it was necessary to design the reaction force.

However, in the conventional autobalance using the brine as described above, since the flow of the fluid inside the autobalance in the state of transient vibration and steady state cannot be controlled, that is, the fluid must not move between the baffles in the transient state. In the steady state, there has been a problem that the fluid cannot satisfy the case where the fluid moves between the baffles so that the force acts in the opposite direction to the eccentricity of the laundry.

An object of the present invention is to prevent the movement between the baffles by the effect of improving the viscosity of the fluid in the state of transient vibration, and using an electromagnetic flow fluid that can be adjusted to operate as a steady state fluid at the time of transition to the steady state In addition, the present invention provides an automatic balance of a washing machine using an electromagnetic flow fluid capable of minimizing vibration of the washing machine due to eccentricity of laundry.

The purpose as described above is to receive the electron flow fluid, a plurality of holes are formed in the partition and the baffle so that the electron flow fluid contained therein moves a plurality of areas, the bottom plate is formed of a conductor in the lower portion of the washing machine motor Is connected to the ground portion, the electric field is applied to the upper by a conductive electrode cover installed on the outer tub of the washing machine,

The electrode cover is provided at a portion of each of the regions to suppress the flow of the electromagnetic flow fluid in the state of transient vibration, and is placed in a gap between the bottom plate and the bottom plate according to a signal of a vibration sensing sensor for detecting vibration of the washing tank. It can be achieved by the auto balance of the washing machine using the electromagnetic flow fluid according to the invention characterized in that the electric field is applied to the electromagnetic flow fluid.

The auto balance of the washing machine using the electron flow fluid according to another aspect of the present invention accommodates the electron flow fluid, a plurality of holes are formed in the partition and the baffle so that the electron flow fluid contained therein to move a plurality of areas, The bottom plate is formed of a conductor connected to the ground of the washing machine motor, the electric field is applied to the upper by a conductive electrode cover installed on the outer tub of the washing machine,

The electrode cover is provided for each of two regions by skipping one of the regions so as to suppress the flow of the electromagnetic flow fluid in the state of transient vibration, and according to the signal of the vibration sensor for sensing vibration of the washing tank. An electric field is applied to the electron flow fluid placed at a distance from the bottom plate.

In addition, the electron flow fluid is a winslow fluid in which fine powder solid is suspended in a non-conductive liquid, and the dispersant is characterized in that silica gel and silicone oil are used.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

4 is a schematic cross-sectional view of a washing machine having an auto balance using an electromagnetic flow fluid according to the present invention. The auto balance 1 according to the present invention as shown in FIG. 4 has a structure similar to the conventional one in appearance, and the parts not specifically described are the same as those shown in the prior art, except that the electron flows inside the auto balance. The only difference is in the part in which the fluid is received and in the configuration associated with it.

In general, the electron flow fluid flows like a normal fluid in a normal state as shown in FIG. 5A, but when a constant electric field is applied, the suspended solids 6 contained in the fluid are aligned with a constant direction of the material. Properties, for example viscosity, change. That is, the electron flow fluid has a characteristic that when the electric field is applied, it is instantaneously aligned and solidified to suppress the flow of the fluid.

This electron flow fluid refers to a suspension of micron-sized hydrophilic particles suspended in a suitable hydrophobic carrier solution, and when an electric field is applied, physical properties such as viscosity cause an instant reversible change. A well-known electronic flow fluid has five days transformer (transformer oil) or so-called slow-nn obtained by suspending a fine powder solid such as a non-conductive liquid in the starch and gelatin, such as mineral oil ^(Winslow, s) fluid. Such fine powder solids can be dispersed using various dispersants such as silica gel and silicone oil.

Therefore, the electrode cover 2 is provided on the outer tub 3 fixed at the time of dehydration of the laundry as an electrode for applying an electric field to the electromagnetic flow fluid in the auto balance 1. This is because it is difficult to apply power to the electrode cover 2 when the washing tank 5 is rotated when the electrode cover 2 is installed as in the related art. In addition, the bottom plate 4 of the auto balance 1 is made of a conductive material, and the ground of the bottom plate 4 is connected through a predetermined wiring connecting the bottom plate 4 and the drive shaft of the washing tub 5. After being connected to the drive shaft of the washing tub, the clutch 27 is connected to the ground portion of the power supply portion of the motor 7 through the drive shaft of the motor.

In addition, the sealing of the upper side of the auto balance 1 can be achieved by the same cover 29 that is introduced in the prior art is installed as a separate part from the electrode cover 2.

According to the configuration described above, an electric field is generated between the electrode cover 2 and the bottom plate 4, the electric field can be applied to the inside of the electromagnetic flow fluid, when the electric field is applied suspended matter (6) ) Is aligned with the orientation and solidified.

Therefore, when excessive vibration occurs in the initial stage of dehydration of the washing tub 5, as shown in FIG. 5B, the suspended solids 6 contained in the fluid are aligned with a constant orientation so that the flow of the fluid is solidified so as to suppress the flow of the fluid. Electricity is applied to the electrode cover 2.

When the washing tank 5 vibrates excessively due to the eccentricity of the laundry when the laundry is dehydrated, the washing tank 5 senses the vibration and applies electricity to the electrode cover 2, and the voltage applied to the electrode cover 2. The electric field is generated in the gap portion between the bottom plate (4). The electric field causes the electron flow fluid to solidify as described above, so that flow between the respective regions as shown in FIG. 2 is suppressed. The electromagnetic flow fluid as described above is operated with the fluid in the steady state at the point of transition from the solidified state due to the excessive vibration to the steady state, thereby absorbing the vibration of the washing tub 5, thereby minimizing the vibration.

On the other hand, according to the present invention, the auto balance 1 using the properties of the above-described electron flow fluid is solidified when an electric field is applied, unlike the prior art, and thus the flow is suppressed between the respective regions, so that it occurs conventionally in a transient vibration state. The adverse effect of doubling the vibration that has been made can be prevented.

In addition, the electrode cover 2 may be provided by being divided into a plurality of divided electrodes by being partially formed of a conductive material. Therefore, the circular partition 30 and the plurality of baffles 31 allow the electric field to be applied only to a portion of the region 32 of the plurality of regions 32. That is, by energizing every two regions skipping any one region 32 or by applying a partial electric field, the electronic flow fluid in each region where the unbalance is maximum is selectively solidified to control the unbalance of each portion. May be provided to only a portion of each area. In addition, it is possible to solidify by applying a voltage to the electromagnetic flow fluid only when the excessive vibration is generated by closing the vibration sensor.

As described above, according to the auto balance of the washing machine using the electromagnetic flow fluid according to the present invention, the auto balance prevents the movement between the baffles due to the solidification of the fluid in the state of transient vibration, and is normal at the time of transition to the normal state. It is made by using an electromagnetic flow fluid that can be adjusted to operate with the fluid in a state so that the direction of the force due to the eccentricity of the laundry and the force generated by the fluid inside the auto balance when the RPM of the washing tank is smaller than the washing machine's natural frequency There is an effect that can prevent the adverse effect of doubling the vibration to match the direction of.

1 is a cross-sectional view of a pulsator type washing machine having a conventional auto balance.

FIG. 2 is a plan sectional view of the auto balance shown in FIG. 1. FIG.

3a to 3c schematically show the motion of the fluid when the RPM of the washing tub is less than the natural frequency of the washing machine, such as the natural frequency, and greater than the natural frequency.

4 is a schematic cross-sectional view of a washing machine having an auto balance using an electromagnetic flow fluid according to the present invention.

5A and 5B show the motion of an electromagnetic flow fluid when electricity is applied in steady state and transient vibrations.

(Explanation of symbols for the main parts of the drawing)

1: auto balance 2: electrode cover

3: outer tub 4: bottom plate

5: washing tank 6: float

Claims (4)

It accommodates the electron flow fluid, a plurality of holes are formed in the partition and the baffle so that the electron flow fluid contained therein to move each of the plurality of areas, the bottom plate is formed of a conductor connected to the ground of the washing machine motor, the upper portion The electric field is applied to the conductive electrode cover which is installed on the outer tub of the washing machine, The electrode cover is provided at a portion of each of the regions to suppress the flow of the electromagnetic flow fluid in the state of transient vibration, and is placed in a gap between the bottom plate and the bottom plate according to a signal of a vibration sensing sensor for detecting vibration of the washing tank. Auto balance of the washing machine using the electromagnetic flow fluid, characterized in that for applying an electric field to the electromagnetic flow fluid. The method of claim 1, The electron flow fluid is a winslow fluid in which fine powder solid is suspended in a non-conductive liquid, and silica gel and silicone oil are used as dispersants. To accommodate the electron flow fluid, a plurality of holes are formed in the partition and the baffle so that the electron flow fluid contained therein moves through each of the plurality of regions, and a bottom plate is formed as a conductor at the bottom to be connected to the ground of the washing machine motor. The electric field is applied to the conductive electrode cover which is installed on the outer tub of the washing machine, The electrode cover is provided for each of two regions by skipping one of the regions so as to suppress the flow of the electromagnetic flow fluid in the state of transient vibration, and according to the signal of the vibration sensor for sensing vibration of the washing tank. An autobalance of a washing machine using an electromagnetic flow fluid, characterized in that an electric field is applied to the electromagnetic flow fluid spaced from the bottom plate. The method of claim 3, wherein The electron flow fluid is a winslow fluid in which fine powder solid is suspended in a non-conductive liquid, and silica gel and silicone oil are used as dispersants.