KR100808158B1 - fluid balancer in washing machine and method for fabricating the same - Google Patents

Abstract

The present invention relates to a fluid balancer of a washing machine, and more particularly, to improve the fluid balancer and its manufacturing method to reduce the unbalance of the washing machine to increase the rigidity and to reduce the defective rate during production.

To this end, the present invention comprises a lower frame and an upper frame welded to the lower frame, the fluid balancer is installed inside the upper part of the washing tank to reduce the unbalance of the washing machine; The lower frame is applied with a high rigidity material, the upper frame is provided with a fluid balancer of the washing machine, and a method for manufacturing the same, characterized in that the high productivity material is applied.

Washing machine, fluid, balancer

Description

Fluid balancer in washing machine and method for fabricating the same

1 is a longitudinal sectional view showing an example of a conventional washing machine structure

Figure 2a is an enlarged view of the main portion of the prior art, a detailed longitudinal cross-sectional view of the fluid balancer of Figure 1

Figure 2b is a plan view showing the problem of the conventional fluid balancer

Figure 3 is a longitudinal sectional view showing the main technical part of the present invention.

4 is a flowchart illustrating a manufacturing process of the present invention.

5 is a diagram showing a comparison of the results of the stiffness analysis of the fluid balancer according to the present invention and the fluid balancer according to the prior art

Explanation of symbols on the main parts of the drawings

20: fluid balancer 210: upper frame

220: lower frame 210a: salt water inlet

230: stopper

The present invention relates to a washing machine, and more particularly, to improve a fluid balancer for reducing unbalance of a washing machine and a method of manufacturing the same, thereby increasing the rigidity and reducing the defect rate during production.

In general, a washing machine is a product that removes various contaminants attached to clothes, bedding, etc. by using the emulsification of the detergent and the friction action of the water flow due to the rotation of the washing blade, and the impact of the pulsator on the laundry. By detecting the amount and type of laundry, the washing method is automatically set, and the water level of the washing water is supplied to the appropriate level according to the amount and type of the laundry, and then washing is performed under the control of the microcomputer.

On the other hand, the driving method of the conventional washing machine is to transmit the rotational power of the drive motor to the washing shaft through the power transmission belt and pulley, etc. to rotate the pulsator or to the dehydration shaft to rotate the washing tank combined dehydration tank and By rotating the BLDC motor, there is a method of rotating the washing / dehydration tank for washing and dewatering at different speeds.

In addition, there is also a method of controlling the power transmission path differently while using a BLDC motor to perform washing by rotating the pulsator at low speed during washing, and dehydrating by rotating the pulsator and the dehydrating tank at the same time at the same time.

In addition, a method of performing permeation by spraying the pumped water stream into the washing tank while rotating the washing tank or the washing blade at a high speed during washing is also applied.

1 is a longitudinal sectional view showing an example of a conventional washing machine, and shows a structural example of a washing machine that performs washing and dehydration by speed control of a BLDC motor.

Looking at the configuration briefly, a storage tank 2 supported by the suspension device 7 is installed inside the outer case 1, and in the storage tank 2, the combined use of the washing tank dehydration tank 3 (hereinafter referred to as "washing tank"). Or "dehydration tank" is optionally installed rotatably.

In addition, a pulsator 4 is installed at the bottom center of the washing tank 3, and a motor 5 for transmitting a driving force to the washing tank 3 is mounted at a lower side of the water storage tank 2.

In addition, a drain hose 11 is connected to the other side of the bottom of the reservoir 2, and a drain valve 6 is provided on a conduit of the drain hose 11.

On the other hand, the top cover 12 of the upper case 1 is provided with a door 8, the water level sensor 9 is provided at a predetermined position of the top cover 12, the control of the top cover 12 The controller 300 is provided inside the panel.

And, between the water level sensor 9 and the reservoir 2, a pressure transmission tube 10 for transmitting the air pressure according to the water level of the reservoir to the water level sensor 9 is connected.

At this time, as the water level sensor 9, a water level sensor having a mechanical structure and a water level sensor using a semiconductor are usually applied.

On the other hand, the upper portion of the washing tank 3 is provided with a fluid balancer 20 to reduce the unbalance of the washing machine, the fluid balancer 20 is composed of the upper frame 210 and the lower frame 220 and lower frame 220 ), Separately molded and welded to complete.

At this time, brine is injected into the fluid balancer 20.                         

In the conventional washing machine configured as described above, when washing and detergent are put into the washing tank 3 and the washing start button is selected, washing start, washing, rinsing, and dehydration are performed for a predetermined time after water is supplied according to the control signal of the microcomputer. It will be done automatically.

However, such a conventional washing machine, when manufacturing the fluid balancer 20, the upper frame 210 and the lower frame 220 is made of a resin-based material, the material properties of the material is good productivity (for example, M520) In this case, the rigidity is low, and in the case of a high rigidity material (eg, HR2100), the productivity is lowered and the cost is high.

In other words, when the rigidity is inferior, the fluid balancer 20 does not maintain a circular shape during high-speed dehydration or permeation washing, and is deformed into an elliptical shape as indicated by a dotted line in FIG. In the case of welding, the welding between the upper and lower frames was not easily performed, and thus there was a disadvantage in that the productivity was lowered and the cost was too high.

The present invention is to solve the above problems, the present invention relates to a fluid balancer of the washing machine, and more particularly to improve the fluid balancer and the manufacturing method of reducing the unbalance of the washing machine to improve the rigidity while producing a failure rate It is to help reduce.

In order to achieve the above object, the present invention comprises a lower frame and an upper frame welded to the lower frame, the fluid balancer is installed inside the upper portion of the washing tank to reduce the unbalance of the washing machine; The lower frame is applied with a high rigidity material, the upper frame is provided with a fluid balancer of the washing machine, characterized in that the application of high productivity material.

On the other hand, according to another aspect of the present invention for achieving the above object, the step of preparing an annular lower frame made of a high rigidity material, and an annular made of a material having high productivity to be welded in a state of being bonded to the upper upper frame Preparing an upper frame of the, forming a salt water inlet on one side of the upper frame, and performing a welding in a state seated to the upper frame to the upper portion of the lower frame to integrate the upper frame and the lower frame And a step of injecting and filling the brine through the brine inlet of the upper frame, and sealing the brine inlet of the upper frame by welding a stopper made of the same material to seal the fluid balancer of the washing machine. Is provided.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5.

Figure 3 is a longitudinal sectional view showing the main part of the present invention, Figure 4 is a flow chart showing the manufacturing process of the present invention, Figure 5 is a comparison of the results of the stiffness analysis of the fluid balancer according to the present invention and the fluid balancer according to the prior art As shown in the diagram, the present invention is composed of a lower frame 220, the upper frame 210 welded to the lower frame 220 is a fluid balancer installed inside the upper side of the washing tank 3 to reduce the unbalance of the washing machine In (20); The lower frame 220 applies a high rigidity material, and the upper frame 210 applies a material having high productivity.

At this time, the upper frame 210 and the lower frame 220 is made of a polypropylene-based resin, in particular, the upper frame 210 is made of a material M520, the lower frame 220 is preferably made of a material HR2100. Do.

The fluid balancer 20 manufacturing process of the present invention configured as described above is as follows.

First, the annular lower frame 220 made of a high rigidity material and the annular upper frame 210 made of a material having high productivity are separately formed.

At this time, the upper frame 210 and the lower frame 220 is made of a polypropylene-based resin, the upper frame 210 is a material M520, the lower frame 220 is preferably a material HR2100.

On the other hand, the brine injection port (210a) formed on one side of the upper frame 210 may be provided at the same time when forming the upper frame 210, may be formed through a separate process after molding.

As described above, after the upper frame 210 and the lower frame 220 are prepared, the lower frame 220 and the upper frame 210 are welded.

That is, the upper frame 210 and the lower frame 220 are integrated by welding in a state in which the upper frame 210 is seated on the upper part of the molded lower frame 220.

Then, after filling the brine through the brine inlet 210a provided in the upper frame 210, by welding the stopper 230 of the same material to the brine inlet 210a of the upper frame 210 To seal.

The fluid balancer 20 of the present invention constructed and manufactured as described above has a high rigidity of the lower frame 220 to maintain a circular shape without deformation even during high speed dewatering or permeation washing, thereby acting to reduce unbalance normally.

In addition, the fluid balancer 20 of the present invention is made of a material having a high productivity and low cost of the upper frame 210 to facilitate the welding with the lower frame 220, as well as to produce a fluid balancer only with a high rigidity material This can compensate for the disadvantage that the cost of the fluid balancer is too high.

That is, according to the present invention, it is possible to reduce the manufacturing cost of the fluid balancer compared to when manufacturing both the upper frame and the lower frame using a high rigidity material.

As described above, the present invention relates to a fluid balancer of the washing machine, and more particularly, to improve the manufacturing method of the fluid balancer to reduce the unbalance of the washing machine to increase the rigidity and to reduce the defective rate during production.

That is, the present invention, when manufacturing the fluid balancer, by applying a high rigid material to the lower frame, the material of the upper frame is a high productivity, it is possible to secure the rigidity of the fluid balancer and to improve the productivity.

Claims (9)

A fluid balancer comprising a lower frame and an upper frame welded to the lower frame and installed inside the upper part of the washing tub to reduce unbalance of the washing machine; The lower frame and the upper frame is made of a polypropylene-based resin and the lower frame is a fluid balancer of the washing machine, characterized in that made of a higher rigid polypropylene-based resin than the upper frame. The method of claim 1, The fluid balancer of the washing machine, characterized in that the salt water inlet is provided on one side of the upper frame. The method of claim 2, The salt water inlet of one side of the upper frame is a fluid balancer of the washing machine, characterized in that the stopper of the same material as the upper frame is welded and sealed. delete The method of claim 1, The upper frame is a material M520, the lower frame is a fluid balancer of the washing machine, characterized in that the material HR2100. Forming an annular lower frame of high rigidity material, Forming an annular upper frame made of a productive material, Forming a saline inlet on one side of the formed upper frame, Integrating the upper frame and the lower frame by performing welding in a state in which the upper frame is seated on the upper portion of the lower frame; Injecting and filling the saline through the brine inlet of the upper frame, And sealing the brine inlet of the upper frame by welding a stopper made of the same material. The method of claim 6, When forming the upper frame, the fluid balancer manufacturing method of the washing machine, characterized in that to form a salt water inlet on one side of the upper frame at the same time. The method according to claim 6 or 7, The upper frame and the lower frame is a fluid balancer manufacturing method of the washing machine, characterized in that made of a polypropylene-based resin. The method of claim 8, The upper frame is a material M520, the lower frame is a fluid balancer manufacturing method of the material characterized in that the HR2100.

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