KR100565680B1 - direct drive system of washing machine - Google Patents

Abstract

The present invention relates to a motor of a fully automatic washing machine, and in particular, even if the insulation of the stator coil and the rotor rotor frame of the motor is broken, the current flows to the washing shaft by blocking the safety accident. Is prevented from occurring and at the same time to smoothly discharge the wash water dropped on the rotor frame, and also to prevent the vibration of the motor to be transmitted to the washing shaft, while forming the washing shaft support member as an insulator By strengthening the strength and forming the ventilation holes and the cooling fan in a plurality of places on the lower surface of the rotor frame, and forming the strength reinforcement concave and convex portions in which the drainage holes are formed, the insulation is destroyed in the stator coil part of the motor and the rotor frame of the rotor. Even if the washing shaft support member prevents current from being transferred to the washing shaft, it is possible to prevent safety accidents and also the tough The washing machine remains unaffected by the operation of washing water and the vibration of the motor is transmitted to the washing shaft to prevent noise from being generated, thus improving the reliability of the product to the user. Provides a motor structure of

Washing machine, clutch, sliding coupler, lever, ball bearing

Description

Direct drive system of washing machine

1 is a longitudinal sectional view schematically showing a conventional fully automatic washing machine;

1 is a structural diagram of a conventional fully automatic washing machine

2 is a structural diagram of a fully automatic washing machine to which the present invention is applied

Figure 3 is a perspective view of the rotor frame of the present invention

Figure 4 is a bottom perspective view of the laundry shaft support member of the present invention

<Code Description of Main Parts in Drawing>

M-Motor 1-Stator

21-Rotorframe 2-Rotor

22-fasteners 23-fasteners

24-Flange 25-Cooling Fan

26-Ventilation 27-Strength reinforcement

28-Drainage 3-Washing shaft support member

32-engaging projection 32a-long groove
33-Tightening hole 34-Round rib
35-Strengthened rib 36-Radial rib

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The present invention relates to a motor structure of a fully automatic washing machine, and in particular, the laundry shaft support member is coupled between the bearing support and the rotor frame to maintain the gap, and the rotor frame is formed of a metal material to form a ventilation hole and a drain hole. It relates to the motor structure of a fully automatic washing machine to reinforce the strength by forming a and to prevent the safety accident during the breakdown of the motor.

1 is a structural diagram of a conventional fully automatic washing machine, which includes a washing inner tank (I) and a washing outer tank (O) for washing contaminated laundry cleanly;

A washing shaft S having a serration part S1 formed on the lower side to transmit the rotational force so that the washing inner tank I rotates forward and backward and washes the laundry;

It consists of a motor (M) for generating and transmitting a rotating force to the washing shaft (S).

The motor (M) and the stator (1) is assembled with a bearing support (11) coupled to the bearing (B) therein is coupled to the washing outer tub (O);

It is installed on the outer circumferential surface of the stator (1) and rotates due to the electrode difference, the coupling hole 22 is provided at a predetermined equal interval in the center, the lower surface is made of a rotor frame 21 formed with a plurality of vent holes 26 A rotor 2;

The rotational force of the rotor (2) is transmitted to the washing shaft (S) to maintain the distance between the bearing support 11 and the rotor frame 21, the coupling hole 22 of the rotor frame 21 on the lower surface Coupling projections 32 and corresponding to the coupling, and the through-hole 33 for fastening is formed at a predetermined equal interval and consists of a washing shaft support member 3 having a serration portion 31 therein.

Referring to the effects and the problems of the prior art according to the above configuration is as follows.

First, the rotor 2 of the motor M is rotated due to the electrode difference with the stator 1, and the washing shaft support member 3 fixed to the rotor frame 21 of the rotor 2 is also fixed. Rotating force of the rotor 2 is transmitted to the washing shaft S by the serrations 31 and S1 formed on the inside of the washing shaft supporting member 3 and the lower portion of the washing shaft S while being rotated. At the same time the washing inner tank (I) coupled to the upper portion of the washing shaft (S) is also rotated to receive the rotational force to wash the laundry.

At this time, since the laundry shaft support member 3 coupled to the rotor frame 21 is formed of a metal material, the rotor shaft 21 is constructed of a conductor from the rotor frame 21 to the laundry shaft S, thereby providing the stator 1. When insulation is broken between the coil part and the rotor frame 21 of the rotor 2, current flows to the washing shaft S, and when current flows to the washing shaft S, the washing tank O Electric current flows in the wash water contained therein, which causes a problem of a safety accident.

In addition, since the ventilation holes 26 for cooling formed on the lower surface of the rotor frame 2 are all formed on the same surface, the washing water dropped to the rotor frame 2 remains without being discharged to the ventilation hole 26. In addition, due to the evaporation of the wash water when the temperature of the motor (M) rises, the motor (M) may not operate normally, causing problems in the washing operation.

In addition, when the laundry shaft support member 3 and the rotor frame 2 are made of the same material, the vibration mode due to the vibration of the motor M is made to be the same, and thus the vibration is applied to the washing shaft S as it is. Since the vibration is generated in the washing tank (I) and the washing shaft (S), the noise is generated to reduce the reliability of the product to the user.

In order to solve the above problems, the present invention, even if the insulation of the stator coil and the rotor rotor frame of the motor breaks the current flowing to the washing shaft to prevent a safety accident and at the same time the rotor It is an object of the present invention to implement a direct drive system of a fully automatic washing machine to smoothly discharge the wash water dropped on the frame and to prevent the vibration of the motor from being transmitted to the washing shaft.

In order to achieve the above object, the present invention is directly connected to the washing tank (O) and the laundry inner tub rotatably coupled to the washing outer tub (O) for storing the wash water for washing (O) In the washing machine provided with a washing shaft (S),

A bearing support part 11 for supporting a bearing B for supporting the washing shaft S;

A stator having a coil part coupled to the washing tub O side;

A rotor frame 21 formed by pressing a steel plate so as to surround the stator;

Vibration generated when the rotor frame 21 is rotated is directly transmitted to the washing shaft (S) to prevent the vibration and noise of the tubular washing tank (I) and the laundry outer tank (O) is generated ( S) and the laundry shaft support member (3) of the insulating material connecting the rotor frame 21,

A cooling fan 25 integrally formed with the rotor frame 21 by bending a portion of the lower surface of the rotor frame 21 upward in the washing tub I and the stator;
Strength reinforcing concave portion provided between the ventilation holes (26) formed on the lower surface of the rotor frame 21 to prevent deformation of the rotor frame 21 of the iron plate material during the high-speed rotation of the washing inner tank (I) Provided is a direct drive system for a washing machine, comprising: (27).
At this time, the portion formed when the cooling fan 25 is bent upwardly on the lower surface of the rotor frame 21 becomes a ventilation hole 26 to enable the flow of cooling air. The ventilation hole 26 serves to discharge the wash water dropped to the rotor frame 21 during washing and dehydration.
Then, a drain hole 28 for drainage is formed on the bottom surface of the strength reinforcement concave-convex portion 27 of the rotor frame 21.

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Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. Here, the same code | symbol is used about the same member and part as before.

2 is a structural diagram of a fully automatic washing machine to which the present invention is applied, and a washing shaft S having a serration part S1 formed at a lower part to transmit a rotational force to the washing inner tank I; It consists of a motor (M) for generating and transmitting a rotating force to the washing shaft (S).

As shown in FIG. 3, the motor M is assembled with a bearing support part 11 in which a bearing B supporting a washing shaft S therein is coupled to the stator fixed to the washing tub O. 1) and; It is installed on the outer circumferential surface of the stator 1 and rotated by the electrode difference, the coupling hole 22 and the fastening hole 23 are formed at predetermined equal intervals, and the flange 24 protrudes downward in the center thereof, The rotor (2) is formed of a rotor frame (21) having a strength reinforcing concave-convex portion (27) having a ventilation hole (26) and a cooling fan (25) formed therebetween, and a drain hole (28) formed therebetween. )Wow; Washing shaft support member (3) for maintaining a gap between the bearing support 11 and the rotor frame (21); It consists of a fastener (4) for fastening and fastening the laundry shaft support member (3) to the rotor frame (21).

That is, the bearing support portion 11 is coupled to the laundry outer tub (O), the stator (1) is penetrated to the inside of the bearing support portion 11 through the inside thereof, and has a coil portion.

In addition, the rotor frame 21 is formed by pressing a steel plate and installed to surround the stator 1.

In addition, a cooling fan 25 is integrally formed on a lower surface of the rotor frame 21 as a part of the rotor frame 21 is bent upward in the washing inner tub I and the stator.

In addition, a portion formed when the cooling fan 25 is formed by bending upward of the lower surface of the rotor frame 21 becomes a ventilation hole 26 to inflow and flow cooling air, and falls into the rotor frame 21 when washing and dehydrating. It will also function to drain the wash water.

In addition, by placing the strength reinforcing concave-convex portion 27 between the ventilation holes 26 formed on the lower surface of the rotor frame 21, the rotor frame 21 of the iron plate material during the high-speed rotation of the washing inner tub (I) ) To prevent deformation.
In addition, the bottom of the strength reinforcement concave-convex portion 27, which is the lowest portion of the rotor frame 21, is formed with a drain hole 28 for drainage, washing water that falls into the rotor frame 21 during washing and dehydration is mainly The water is drained through the drain hole 28.

4 is a bottom perspective view of the laundry shaft support member of the present invention, wherein the laundry shaft support member 3 has a coupling protrusion 32 and a fastener corresponding to a coupling hole 22 of the rotor frame 21 on its lower surface. Fastening holes 33 for fastening to the rotor frame by using a predetermined equal intervals are formed, the circular rib 34 seated and coupled to the flange 24 of the rotor frame 21, and the washing shaft support member ( Strength reinforcing ribs 35 (refer to FIG. 2) and the rib-shaped radial ribs 36 for strength reinforcement of 3) are provided, respectively, and are formed of an insulator having a serration part 31 formed therein.

In addition, the washing shaft support member 3 of the insulating material is a vibration generated when the rotor frame 21 is rotated directly transmitted to the washing shaft (S) tubular laundry inner tub (I) and the laundry outer tub (O) In order to prevent the vibration and noise of the washing shaft (S) and the rotor frame 21 is connected.

On the other hand, the engaging projection 32 of the laundry shaft support member 3 determines the fastening position of the laundry shaft support member 3 with respect to the rotor frame 21, a predetermined depth in the center of the coupling projection (32) The long groove 32a is formed.

In addition, the long groove (32a) formed in the center of the engaging projection 32 to a predetermined depth to eliminate the deformation caused by the cooling car during injection molding of the laundry shaft support member 3, it is possible to reduce the material.

Referring to the effects of the configuration as described above are as follows.

The laundry shaft support member 3 inserts the circular rib 34 into the flange 24 of the rotor frame 21 and seats the same, and inserts the coupling protrusion 32 into the coupling hole 22 and rotates the rotor frame ( 21), the fastener 4 is firmly coupled to the rotor frame 21 by coupling the fastener 4 to the fastening hole 23 through the fastening hole 33.

In this case, as shown in FIG. 2, the washing shaft S does not come into contact with the rotor frame 21, but the washing shaft S is formed even when a current flows in the rotor frame 21 by the washing shaft supporting member 3 made of an insulator. S) so that no current flows, and in order to reinforce the strength of the laundry shaft support member 3 as an insulator, a strength reinforcing rib 35 is formed on the top and a radial rib 36 therein. To form a strength.

At this time, the vibration generated in the motor (M) is transmitted to the washing shaft support member 3, the transmitted vibration is due to the space formed between the radial rib 36 of the washing shaft support member (3) The buffer is delivered to the washing shaft (S).
That is, the space formed between the radial ribs 36 provides a deformation space for vibration absorption of the radial ribs 36.
Thus, in the related art, although the reliability of the user's product was low due to the noise generated due to the vibration of the motor being transmitted to the washing shaft S, in the present invention, the noise is prevented from being transmitted to the washing shaft S. Blocking can improve the user's confidence in the product.

In addition, even when the insulation is broken between the coil part 1 of the motor M and the rotor frame 21 of the rotor 2 so that current flows in the rotor frame 21, the washing shaft S and Washing shaft support member 3 coupled between the rotor frame 21 is formed of an insulator to block the current of the rotor frame 21 is transmitted to the washing shaft (S).
That is, in the related art, the washing shaft support member 3 is made of metal, so that the current of the rotor frame 21 is transmitted to the washing shaft S through the washing shaft support member 3, and thus the current is transmitted to the wash water. When the user puts his hand inside the washing tub (I), a safety accident occurs due to an electric shock, and in addition, a serious problem that greatly affects the life of the user occurs.

However, by constructing the washing shaft support member 3 as an insulator instead of a metal material as in the present invention and reinforcing strength, the current is transmitted to the washing shaft S even when the current flows through the rotor frame 21. It prevents the occurrence of safety accidents by blocking and protects the user.

In addition, the lower surface of the rotor frame 21 is formed with a plurality of vent holes 26 and the cooling fan 25, wherein the vent holes 26 are naturally bent when the cooling fan 25 is bent upward at a right angle Is formed in the cooling fan 25 and the ventilation holes 26 by the heat of the motor (M), by cooling only has a superior cooling effect compared to the conventional cooling method depending only on the ventilation holes 26 It is possible to extend the performance and life of (M).

In addition, a plurality of locations between the ventilation hole 26 and the cooling fan 25 are provided with a strength reinforcing concave-convex portion 27 protruding downward, and a drain hole 28 is formed on the lower surface thereof. When the wash water falls to 21), the dropped wash water is collected at the lowest part of the lower surface of the rotor frame 21, so that the washing water is collected at the strength reinforcement and convex portion 27 in which the drain hole 28 is formed. Falling wash water is collected in the strength reinforcing concave-convex portion 27 is discharged to the drain hole (28).

At this time, the washing water dropped to the rotor frame 21 is easily discharged to the outside, the operation state of the motor (M) by the evaporation of the washing water when the temperature of the motor (M) is prevented in advance to prevent the washing machine in advance. To maintain the best washing performance.

The present invention as described above forms the laundry shaft support member as an insulator and at the same time reinforces the strength, by forming the ventilation hole and the cooling fan in a plurality of places on the lower surface of the rotor frame, and at the same time by forming the strength reinforcement concave-convex portion having the drain hole formed in a plurality of places. Also, even if the insulation of the stator coil part of the motor and the rotor frame of the rotor is broken, the electric current is prevented from being transferred to the washing shaft by the washing shaft support member, thereby preventing safety accidents and the washing remaining on the rotor frame. The motor is not affected by the operation due to the number, and the vibration of the motor is transmitted to the washing shaft to prevent noise from being generated, which has a useful effect of improving reliability of the product to the user.

Claims (2)

In a washing machine comprising a laundry outer tank (O) for storing the wash water for washing and a laundry inner tub rotatably coupled to the washing outer tub (O) and a laundry shaft (S) directly connected to the washing inner tub (I). In A bearing support part 11 for supporting a bearing B for supporting the washing shaft S; A stator having a coil part coupled to the washing tub O side; A rotor frame 21 formed by pressing a steel plate so as to surround the stator; Vibration generated when the rotor frame 21 is rotated is directly transmitted to the washing shaft (S) to prevent the vibration and noise of the tubular washing tank (I) and the laundry outer tank (O) is generated ( S) and the laundry shaft support member (3) of the insulating material connecting the rotor frame 21, A cooling fan 25 integrally formed with the rotor frame 21 by bending a portion of the lower surface of the rotor frame 21 upward in the washing tub I and the stator; The portion drilled by the formation of the cooling fan 25 on the lower surface of the rotor frame 21 becomes a ventilation hole 26 and at the same time discharges the wash water dropped to the rotor frame 21 through the ventilation hole 26 during washing and dehydration. Enable the flow of cooling air, Strength reinforcing concave portion provided between the ventilation holes (26) formed on the lower surface of the rotor frame 21 to prevent deformation of the rotor frame 21 of the iron plate material during the high-speed rotation of the washing inner tank ( 27) a direct drive system for a washing machine comprising: a. The method of claim 1, The bearing support (11) is coupled to the laundry outer tub (O), the stator is a direct drive system of the washing machine, characterized in that the inner side is penetrated and screwed to the bearing support (11).

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