KR20010037181A - Inner tub formation structure for direct drive type washing machine - Google Patents

Abstract

PURPOSE: A wash tank formation structure reduces noise, improves dewatering performance as the locations of dewatering holes are appropriate with the flow of water drops on dewatering and strengthens the rigidity of a wash tank by not providing surfaces easily bended. CONSTITUTION: Multiple horizontal streamlined embossments(E) are formed on the periphery of a wash tank(1). Dewatering holes(2) are formed under and a little above the both sides of each horizontal streamlined embossment(E). The forms of the embossments(E) reduce orifice effect and the number of the dewatering holes(2) is reduced to reduce noise. The dewatering holes are located near the horizontal streamlined embossments(E) to restrain laundry from blocking the dewatering holes(2) to guide the flow of water drops to the dewatering holes(2).

Description

Washing tank formation structure of fully automatic washing machine {INNER TUB FORMATION STRUCTURE FOR DIRECT DRIVE TYPE WASHING MACHINE}

The present invention relates to a washing tub forming structure of a fully automatic washing machine, and more particularly, it is possible to reduce noise generation during washing while maintaining the washing performance of a washing tub installed in a fully automatic washing machine in which a motor directly drives the washing tub when washing laundry. In order to improve the dehydration performance and the strength of the washing tank.

In general, a fully automatic washing machine is a direct drive type washing machine as shown in FIG. 1 and a pulsator type as shown in FIG. Type) Fully automatic washing machine is widely used, the direct drive type automatic washing machine proceeds washing while the washing tank is rotated forward and reverse, and the pulsator type automatic washing machine performs washing while the pulsator rotates forward and reverse.

First, the direct drive type automatic washing machine as shown in FIG. 1 is installed while the outer tub 4 is suspended by the suspension device 5 inside the main body 3, and laundry is provided inside the outer tub 4. Washing tank (1a) that is directly put into the washing is rotatably installed, the balancer (6) to reduce the vibration by compensating the unbalanced mass generated by the laundry is unbalanced to one side in the upper inner peripheral surface of the washing tank (1a) Is installed.

In addition, the upper end of the drive shaft 8 is connected to the center of the lower end of the outer tub 4 through the bearing housing 7, and the lower end of the bearing housing 7 generates power to rotate the driving shaft 8 during washing. The stator 10 of the motor 9 is installed, and the rotor 11 of the motor 9 is connected to the lower end of the drive shaft 8.

Therefore, as the rotor 11 rotates forward and reverse when the laundry is washed, the drive shaft 8 connected to the rotor 11 rotates forward and reverse, and at the same time the drive shaft ( The washing tub 1a connected to 8) proceeds with the washing while rotating forward and reverse.

In addition, the pulsator type automatic washing machine as shown in FIG. 2 is installed while the outer tub 14 is suspended from the main body 13 by the suspension device 15, and laundry is provided inside the outer tub 14. Washing tank (1b) that is directly put into the washing is installed rotatably, the balancer (16) for reducing the vibration by compensating the unbalanced mass generated by the laundry is unbalanced to one side in the upper inner peripheral surface of the washing tank (1b) Is installed.

In addition, a pulsator 17 that rotates to agitate the laundry is installed at the center of the lower end of the washing tank 1b, and a motor 18 that generates power when washing and dehydrating the lower side of the outer tank 14 is provided. Is mounted, the lower end of the outer tub 14 is equipped with a clutch 19 directly connected to the pulsator 17 to control the power transmitted during washing and dehydration, the motor shaft 20 of the motor 18 Between the motor pulley 21 and the clutch pulley 22 of the clutch 19 installed in the V-belt 23 for transmitting the power generated by the motor 18 to the clutch 18 is provided.

Accordingly, when the laundry is washed, the driving force of the motor 18 is sequentially driven by the motor shaft 20, the motor pulley 21, and the V-belt as the motor 18 mounted on the lower side of the outer tub 14 is driven. 23, the pulsator 17 in the lower center of the washing tub 1b directly connected to the clutch 19 is rotated as it is transmitted to the clutch pulley 22 and the clutch 19 to rotate the water and the laundry in the washing tank 1b. By providing a laundry proceeds to wash the laundry, during washing the pulsator 17 is repeated a series of cycles consisting of forward rotation, stop, reverse rotation, stop.

The principle of washing in the fully automatic washing machine as shown in Figures 1 and 2 of the above form is to rotate the wash water including the laundry with a strong force to create a friction between the laundry and between the laundry and the washing tank, The water flow generated in one rotation is, of course, the stirred water flow generated using the center of the washing tank as the rotation axis, and | is generated in the same direction along the rotational direction.

When the stirring is repeated, the pulsator type washing machine rises vertically from the center of the washing tank, spreads radially from the surface of the washing machine, and descends again to form a closed curve path. The reverse path is achieved.

3 is a perspective view illustrating a washing tank installed in a direct drive type automatic washing machine, wherein the plurality of embossing E1 and the dewatering hole 2 formed on the outer circumferential surface of the washing tank 1a have different densities or shapes for each type of washing machine. The motivation for implementation is also slightly different, but the basic purpose of implementation is as follows.

First, the embossing (E1) of the washing tank (1a) is a kind of washboard function to make the washing well by causing friction with the laundry during washing, forming a space between the laundry and the inner circumferential surface of the washing tank (1a) when dewatering, washing Water flows out to the dehydration hole (2) and serves to reinforce the strength of the washing tank (1a) as a whole, the dewatering hole (2) is the washing water to the outside of the washing tank (1a) when dewatering It will be able to pop out.

However, when the embossing (E1) causes friction with the laundry, the washing water is taken out along with it, and thus the sound of water is radiated as the noise during washing, and the position of the dehydration hole (2) is embossed (E1). In the structure that is far away from the embossing (E1) that prevents the laundry from blocking the dehydration hole (2) is not effectively exhibited because the number of dehydration holes (2) as a whole, the dehydration hole ( The more the number of 2), the more the amount of washing water splashes out of the outer tank by the centrifugal force caused by the rotation of the washing tank 1a during washing, and the noise caused by it increases, and the embossing (E1) and the dehydration hole (2) The function of strengthening the strength of the washing tank 1a has many problems, such as not having a great effect on its structure.

Accordingly, the present invention is to solve the above-mentioned problems, while maintaining the washing performance of the washing tub installed in the automatic washing machine in which the motor directly drives the washing tub when washing the laundry to reduce the noise generated during washing to quiet the product In addition to being available in a state, it is an object of the present invention to provide a laundry tub forming structure of a fully automatic washing machine that can improve the dewatering performance of the laundry and the strength of the tub.

1 is a longitudinal sectional view showing a conventional direct drive type automatic washing machine

Figure 2 is a longitudinal sectional view showing a conventional pulsator type automatic washing machine

3 is a perspective view showing the washing tank of FIG.

4 is a perspective view showing a washing tank installed in a direct drive type automatic washing machine according to the present invention;

Explanation of symbols on the main parts of the drawings

One; Washing tank 2; Dewatering

E; Horizontal Streamline Embossing

In order to achieve the above object, the present invention is a plurality of horizontal streamlined embossing is formed on the outer circumferential surface of the washing tank, the washing tank forming structure of the automatic washing machine, characterized in that the dehydration holes are formed at the upper and lower sides of each horizontal streamlined embossing, respectively Is provided.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

Figure 4 is a perspective view showing a washing tank installed in a direct drive type automatic washing machine according to the present invention, the same reference numerals are given to the same parts as in the prior art to describe the present invention.

The present invention is installed in a fully automatic washing machine, a plurality of horizontal streamlined embossing (E) is formed on the outer circumferential surface of the washing tank (1) that is rotated forward and reverse during washing, and each of the horizontal streamlined embossing (E) at the lower and slightly above each side The dehydration hole 2 is formed and comprised.

The reason for the positioning of the dehydration hole 2 is that the washing tank 1 itself is slightly larger in diameter than the lower side.

Looking only at the flow of water droplets while the washing tank 1 rotates at about 700 to 1000 rpm when washing the laundry, the washing tank 1 flows upward by a centrifugal force due to the rotation of the washing tank 1, and the flow is horizontally streamlined embossing. When the (E) meets the flow of the horizontal streamlined embossing (E) flows, otherwise it is a case where it meets directly to the bottom of the horizontal streamlined embossing (E) because the position also forms a dehydration hole (2). .

In addition, by placing the dehydration holes (2) considerably close to the horizontal streamlined embossing (E) so that the number of cases when the dehydration holes (2) are clogged by the laundry when the laundry is covered by the horizontal streamlined embossing (E) due to the water droplets It is possible to induce the flow of water relatively easily toward the dehydration hole (2).

In addition, since the shape of the embossing (E) is formed in a horizontal streamline so as not to greatly resist the flow of water flow to reduce the orifice effect, it is possible to reduce the noise to wash and rotate the washing water, the horizontal streamlined embossing (E) By maintaining the height of the embossing to maintain the height of the washboard does not fall, and the number of dehydration holes (2) can be relatively reduced, so that the washing out by the centrifugal force due to the rotation of the washing tank (1) The amount of water can be reduced so that the resulting noise can also be reduced.

And, by forming the horizontal streamlined embossing (E) so that the ends overlap each other, the bead effect is given to the deformation shape of the conventional washing tank by the eccentric load or the symmetrical load, so as to give the effect of the bead than the shape of the conventional washing tank The effect will be much better.

On the other hand, as another embodiment of the present invention, the shape of the horizontal streamlined embossing (E) may be formed in a pointed shape, such as the front of the boat, not oval, for example, both ends, the position of the dehydration holes (2) Combining dependently with respect to the embossing of the to form a near position can change the number, position and size and the like.

As described above, the present invention can be used in a quiet state by reducing the noise generated during the washing while maintaining the washing performance of the washing tank installed in the automatic washing machine in which the motor directly drives the washing tank when washing the laundry. When dewatering, the location of the dehydration hole suitable for the flow of water droplets can improve the dewatering performance of the laundry, and the strength of the washing tank can be greatly strengthened by not providing a surface that can easily bend, resulting in product efficiency and reliability. It is a very useful invention with greatly improved.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and is generally defined in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Anyone with knowledge of the world will be able to make various changes.

Claims (1)

A plurality of horizontal streamlined embossing is formed on the outer circumferential surface of the washing tub, and a dehydration hole is formed at the lower side and slightly above each side of each horizontal streamlined embossing, respectively.