KR930006702B1 - Power transfer apparatus in full-automatic washing machine - Google Patents

Abstract

The power transmission for simplifying the structure and reduce the loss of transmitting power, has a clutch directly connected with a motor and magnetic induction coil for selectively transmitting power to the dehydration tank shaft or pulsator shaft by electromotive force. The power transmission comprises a center gear (36) fixed at rotary shaft (32) of a motor (31); rotor (33) having horizontal flange (33a) at the outer peripheral surface and connected with the gear (36); dehydration tank shaft (34) on the shaft (32); pulsator shaft (39) driven by reduction motor (31); power transmitting means for respectively transmitting power to the shafts (34)(39) by magnetic induction power.

Description

Power Train of Fully Automatic Washing Machine

1 is a partial cut-away longitudinal sectional view of a general automatic washing machine.

2 is a cross-sectional view showing a clutch configuration of a general automatic washing machine.

3 is a cross-sectional view showing a power transmission device of the automatic washing machine according to the present invention.

4 is a front view with the clutch housing removed in FIG. 3 and viewed in the A direction.

5 and 6 are enlarged views of the portion B of FIG. 4 showing the constitution and operation of the automatic washing machine power transmission device according to the present invention, FIG. 5 is a washing mode and FIG. 6 is a dehydration mode.

* Explanation of symbols for main parts of the drawings

31: motor 32: rotating shaft

33: rotor 33a, 43b: horizontal flange portion

34: dehydration shaft 34b: cylindrical body

34c: shaft 36: center gear

37: fixed shaft 38: planetary gear

39: pulsator shaft 39a: gear supporter

39b: internal tooth 40,40 ': bushing

41: clutch housing 42: bearing

43: magnetic induction coil 44,47: upper and lower elastic members

45,46: upper, lower lining

The present invention relates to a power transmission device for a fully automatic washing machine. In particular, the clutch is directly coupled to the motor, and the power is selectively transferred to the dehydration shaft and the pulsator shaft by electromotive force by a magnetic induction coil, thereby simplifying the configuration and reducing power loss. It relates to a power transmission device of the automatic washing machine that can reduce the.

In the general automatic washing machine, as shown in FIG. 1, the washing / dehydrating tank 3 is rotatably installed inside the water tank 2 fixedly installed in the washing machine case 1, and the washing-and-dehydrating tank ( 3, the pulsator 4 is rotatably installed in the interior thereof, and the washing / dehydrating tank 3 and the pulsator 4 are installed on the dehydration tank shaft of the clutch 5 mounted on the bottom center of the water tank 2. 6) and a V-belt coupled to the drive pulley 9 of the motor 8 and the driven pulley 10 of the clutch 5 mounted on one side of the bottom surface of the water tank 2, respectively, coupled to the pulsator shaft 7. (11) is connected to the bar, the rotational driving force of the motor (8) is divided by the clutch (5), in the washing mode stops the washing and dehydrating tank (3) at the same time left only the pulsator (4) In the dehydration mode, the washing and dewatering tank 3 and the pulsator 4 are rotated in one direction at the same speed.

The clutch 5 will be described in detail. As shown in FIG. 2, the spring block 13 coupled to the lower portion of the gear shaft 12 and the lower shaft 15 and the spring block of the gear housing 14 are shown. A clutch spring 16 coupled to an outer circumferential surface of the 13 to selectively transmit rotational driving force of the motor 8 to the dehydration tank 6 and the pulsator shaft 7, and coupled to an outer circumferential surface of the clutch spring 16. Of the brake lever 19 interlocked with the clutch boss 17 having the teeth 17a formed on the outer circumferential surface thereof and the magnet 18 for valve operation (shown in FIG. 1) attached to the other side of the bottom surface of the water tank 2. The cam 20 which is rotatably installed at the lower end and is caught by the teeth 17a of the clutch boss 17, and the reverse rotation preventing spring 21 which prevents the reverse rotation of the washing and dewatering tank 3, and in the washing mode A planetary gear 22 which serves to transmit the reduced power to the pulsator shaft 7 and a brake band 23 surrounding the outer circumferential surface of the gear housing 14. It consists of a.

Reference numeral 24 in the figure shows a torsion spring.

In the power transmission device of the general automatic washing machine, when the driving pulley 9 rotates left by driving the motor 8 in the washing mode, the driven pulley 10 connected to the V-belt 11 rotates left. Accordingly, since the clutch spring 16 coupled to the outer circumferential surface of the lower shaft 15 of the spring block 13 and the gear housing 14 is operated in a release direction, a gap is formed between the clutch spring 16 and the spring block 13. As a result, the rotational force of the spring block 13 does not reach the lower shaft 15 of the clutch spring 16 and the gear housing 14. Accordingly, the dehydration tank 6 is not rotated and the spring block 13 is coupled to the gear. Power is transmitted only to the shaft 12 so that the power decelerated by the planetary gear 22 is transmitted to the pulsator shaft 7.

At this time, since the brake band 23 surrounds the outer circumferential surface of the gear housing 14 at a predetermined pressure, the brake band 23 reliably regulates the rotational operation of the gear housing 14.

In this washing mode, the washing and dehydrating tank is stopped, and only the pulsator is rotated in the left and right directions to stir the laundry inside the washing and dehydrating tank 3, and the motor 8 is automatically driven by an automatic program. When the driving pulley 9 is turned to the right, the clutch spring 16 is operated in the winding direction so that the clutch spring 16 and the spring block 13 closely contact each other, so that the rotational force of the spring block 13 is the clutch spring 16. Although the state is transmitted to the lower shaft 15 of the gear housing 14 through, but the valve actuation magnet 18 is maintained in the OFF (OFF) state, so the cam 20 of the brake lever 19 The clutch 17 is caught by the tooth 17a of the clutch boss 17 and the tooth 17a is pushed, thus deforming the clutch spring 16 whose one end is caught in the engaging groove (not shown) of the clutch boss 17. Between the clutch spring 16 and the spring block 13 The case is formed so to be slip case is also rotated only dehydration jochuk 6 is not rotated pulsator shaft 7.

On the other hand, in the dehydration mode, the driving pulley 9 of the motor 8 always rotates right, so the clutch spring 16 is operated in a winding direction, so that the clutch spring 16 and the spring block 13 are in close contact with each other. At this time, the valve actuation magnet 18 is turned on to disengage the cam 20 of the brake lever 19 from the teeth 17a of the clutch boss 17, and at the same time, the brake band 23 of the gear housing 14 By deviating from the outer circumferential surface of), the rotational force of the spring block 13 is transmitted to the lower shaft 15 of the gear housing 14 to rotate the gear housing 14 at a high speed without deceleration, and thus the pulsator shaft 7 And rotating the dewatering tank 6 in one direction at a high speed to perform a conventional dehydration process.

Then, after the dehydration mode is completed, when the valve actuation magnet 18 is turned off to release the brake lever 19, the cam 20 is caught between the teeth 17a of the clutch boss 17 and at the same time the brake band. 23 is pressed against the outer circumferential surface of the gear housing 14 to stop the rotation operation of the gear housing 14.

However, the power transmission device of the fully automatic washing machine as described above has a motor 8 and the clutch 5 are separately installed, the power of the motor 8 is transmitted to the clutch 5 through the V belt (11). Not only is the overall configuration complicated, but there is a disadvantage in that power is lost due to power transmission by the V-belt 11, and also in order to operate the brake band 23, there is a large capacity to overcome the elastic force of the torsion spring 24. There was a problem in that the valve driving magnet 18 should be used.

The main object of the present invention is to provide a power transmission device for a fully automatic washing machine that does not have various problems as described above.

It is another object of the present invention to provide a power transmission device for a fully automatic washing machine, in which a clutch is directly coupled to a motor on the same axis to further simplify the configuration.

Still another object of the present invention is to provide a power transmission device for a fully automatic washing machine which can prevent power loss by excluding a power transmission system by a V-belt.

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

3 is a cross-sectional view showing a power transmission device of a fully automatic washing machine according to the present invention, FIG. 4 is a front view of the clutch housing removed in FIG. 3 and viewed from the A direction, and FIGS. 5 and 6 are fully automatic washing machines according to the present invention. An enlarged view of portion B of FIG. 4 showing the constitution and operation of the power transmission device, as shown in the lower portion of the rotation shaft 32 of the motor 31, with a horizontal flange portion 33a formed at a predetermined height at an outer periphery thereof. The rotor 33 is fixed, and a horizontal flange portion 34a is formed in the middle of the rotating shaft 32 to maintain a constant distance from the horizontal flange portion 33a of the rotor 33, and the yaw of the rotor 33 is formed. A cylindrical body 34b inserted into the mouth part 33b is formed, and a dehydration tank shaft 34 in which a shaft hole 34c is formed in the center thereof is rotatably installed through the bearing 35.

The center gear 36 is fixed to the upper end of the rotating shaft 32, several fixed shafts 37 are fixed to the bottom of the cylindrical body 34b, respectively, the center gear 36 to the fixed shaft 37 ) Is always rotatably coupled to the planetary gear (38).

The pulsator shaft 39 is coaxially erected through the shaft hole 34c of the dehydration tank 34, and the diameter of the cylindrical body 34b of the dehydration tank 34 is located below the pulsator shaft 39. The gear supporter (39a) having a structure is formed, the internal gear (39b) is formed on the inner circumferential wall of the gear supporter (39a) so that several planetary gears (38) are always engaged.

In addition, between the shaft hole 34c of the dehydration tank 34 and the pulsator shaft 39, several bushings 40 and 40 ′ are inserted, and a clutch housing is fixed to the upper portion of the motor 31. A bearing 42 is interposed between the 41 and the dehydration shaft 34 to serve to smoothly rotate the dehydration shaft 34 and the pulsator shaft 39.

On the other hand, between the rotor 33 and the horizontal flange portions 33a, 34a of the dehydration tank 34, a power transmission means by a magnetic induction action is installed, and in the washing mode, the power of the motor 31 It is to be transmitted to the pulsator shaft 39 after being decelerated by the planetary gear 38, and in the dehydration mode, the power of the motor 31 is directly transmitted to the dehydration tank 34 through the rotor 33.

The power transmission means by the magnetic induction action is between the magnetic induction coil 43 fixed to the upper periphery of the upper surface of the motor 31 and the horizontal flange portion 34a of the magnetic induction coil 43 and the dehydration shaft 34. The upper elastic member 44, the upper and lower lining 45, 46, and the lower elastic member 47 are sequentially inserted into the.

The upper and lower elastic members 44 and 47 are plate springs of steel material drawn by the magnetic force of the magnetic induction coil 43, and the front shape thereof is preferably corrugated as shown in FIG.

The upper and lower linings 44 and 47 are always kept in contact with a predetermined input by the elastic force of the lower elastic members 44 and 47, and the lower lining 46 and the lower elastic members ( 47), when the electromotive force is generated in the magnetic induction coil 43 due to its short length, the lower lining 46 is deposited on the horizontal flange portion 34a of the dehydration tank 34 as shown in FIG. The lower linings 45 and 46 are spaced apart from each other.

Referring to the effect of the automatic washing machine power transmission device according to the present invention configured as described above are as follows.

First, in the washing mode, since no current is applied to the magnetic induction coil 43, as illustrated in FIGS. 3 and 5, the upper and lower linings are formed by the upper and lower elastic members 44 and 47. 45 and 46 are in contact with a predetermined pressure, so that the horizontal flange portion 33a of the upper lining 45 and the rotor 33 is maintained at a predetermined interval.

Accordingly, when the rotating shaft 32 is rotated by the driving of the motor 31, the rotor 33 is idling, and the planetary gear 38 is engaged with the center gear 36 of the rotating shaft 32, so that the speed is reduced. The power is transmitted to the pulsator shaft 39 through the internal tooth 39b to perform the washing process.

At this time, the dehydration tank 34 is to maintain a stopped state because the upper, lower lining 45, 46 is compressed by the elastic force of the upper, lower elastic members 44, 47.

On the other hand, in the dehydration mode, the current is applied to the magnetic induction coil 43, and as shown in FIG. 6, the upper and lower elastic members 44 and 47 of the steel material are in the direction of arrow C as shown in FIG. The lower linings 45 and 46 are lowered accordingly.

At this time, since the upper lining 45 is formed longer than the lower lining 46, the upper lining 45 is no longer lowered and is compressed by the horizontal flange portion 33a of the rotor 33 to be separated from the lower lining 46 by a predetermined interval.

When the rotating shaft 32 is rotated by the driving of the motor 31 in this state, the rotational force of the rotor 33 is transmitted to the pulsator shaft 39 through the upper lining 45 and the upper elastic member 44 The washing and dewatering tank is rotated at high speed, and at the same time, the pulsator shaft 39 is also rotated at high speed in the same direction to rotate the pulsator.

Subsequently, when the dehydration mode is completed to cut off the current of the magnetic induction coil 43, the upper and lower linings 45 and 46 are compressed by the elastic restoring force of the upper and lower elastic members 44 and 47. The rotation of 34 will be stopped.

As described above, the present invention not only simplifies the configuration by integrally configuring the clutch in the motor, but also prevents the power loss by eliminating the use of the V-belt, and also eliminates the use of the brake lever as in the prior art to operate the valve. There is an effect such as reducing the capacity of the magnetic magnet.

Claims (7)

In the power transmission device of a fully automatic washing machine, a center gear 36 is fixed to the rotation shaft 32 of the motor 31, and a rotor which is formed on the outer periphery of the horizontal flange portion 33a is coupled to the center gear 36 (33), the dehydration tank 34 rotatably installed on the rotary shaft 32 of the motor 31, and the motor 31 is inserted and decelerated through the shaft hole 34c of the dehydration tank 34 It is installed between the pulsator shaft 39 which is rotated by the power of the rotor, and the horizontal flanges 33a, 34a of the rotor 33 and the dehydration tank 34. The dehydration shaft 34 and the pulsator are inductively induced. Power transmission device for a fully automatic washing machine, characterized in that consisting of a power transmission means for transmitting power to the shaft (39), respectively. The washing machine according to claim 1, wherein the dehydration tank (34) has a horizontal flange portion (34a) formed at an outer circumferential edge thereof, a cylindrical body (34) formed at a lower portion thereof, and a shaft hole (34c) formed at a central portion thereof. Power train. The inner peripheral wall of the gear supporter (39a) of the pulsator shaft (39) according to claim 1 or 2, wherein the planetary gear (38) is rotatably coupled to the fixed shaft (37) of the cylindrical body (34b). The inner gear (39b) is meshed with the planetary gear (38) is formed, the power transmission device for a fully automatic washing machine, characterized in that configured to transmit the reduced power to the pulsator shaft (39). 3. The bushing 40 or 40 'is described between the shaft hole 34c of the dewatering tank shaft 34 and the pulsator shaft 39, and the motor 31 according to claim 1 or 2. The bearing 42 is installed between the clutch housing 41 and the dehydration tank shaft 34 to be fixed to the upper portion of the, so that the rotation operation of the dehydration tank shaft 34 and the pulsator shaft 39 is supported. Power transmission device of automatic washing machine. The method of claim 1, wherein the power transmission means between the magnetic induction coil 43 is fixed to the upper periphery of the motor 31, the magnetic induction coil 43 and the horizontal flange portion 34a of the dehydration tank 34 An upper elastic member 44, the upper and lower lining 45, 46 and the lower elastic member 47 is sequentially inserted into the power transmission device of the automatic washing machine. The power transmission device of a fully automatic washing machine according to claim 5, wherein the lower lining (46) and the lower elastic member (47) are formed shorter than the upper leaf spring (44) and the upper lining (45). The power transmission device of a fully automatic washing machine according to claim 5 or 6, wherein the upper and lower elastic members (44) (47) are leaf springs having a corrugated front face shape.