CN113403809B

CN113403809B - Pulsator washing machine

Info

Publication number: CN113403809B
Application number: CN202110671433.XA
Authority: CN
Inventors: 刘彦峰; 肖魏魏; 刘迪; 许学三; 商庆振; 曹明磊; 伍旭东
Original assignee: Hisense Refrigerator Co Ltd
Current assignee: Hisense Refrigerator Co Ltd
Priority date: 2021-06-17
Filing date: 2021-06-17
Publication date: 2023-01-20
Anticipated expiration: 2041-06-17
Also published as: CN113403809A

Abstract

The invention provides a pulsator washing machine, which comprises a box body, an inner barrel, a pulsator, a power unit, a first planetary gear train and a power conversion unit, wherein the box body is internally provided with an outer barrel; the first planetary gear train comprises a first sun gear fixedly connected with the washing input shaft, a first inner gear ring connected with the dehydration input shaft through a key and a first planet carrier; the washing input shaft drives the washing output shaft to rotate in the same direction; the power conversion unit drives the first planet carrier to move along the washing input shaft so as to fixedly connect the first planet carrier with one of the outer barrel or the washing input shaft; the inner barrel and the impeller rotate reversely during washing, so that the washing power is effectively increased during washing, and the clothes are prevented from being wound.

Description

Pulsator washing machine

Technical Field

The invention belongs to the technical field of household washing machines, and particularly relates to a pulsator washing machine.

Background

At present, washing machines enter thousands of households to become necessities in life, washing modes of the washing machines are various, the washing modes are mainly single-impeller rotating washing modes in the market, and clothes are easy to be wound.

The invention is provided in view of the above.

Disclosure of Invention

The invention provides a pulsator washing machine aiming at the technical problems.

In order to achieve the purpose, the invention adopts the technical scheme that:

pulsator washing machine, it includes:

a box body;

an outer tub disposed in the case;

an inner barrel arranged in the outer barrel; the inner barrel is fixedly connected with a dehydration output shaft;

the impeller is arranged at the bottom of the inner barrel; the impeller is fixedly connected with a washing output shaft;

the power unit is arranged at the bottom of the box body and is used for driving the washing input shaft to rotate; a dehydration input shaft is sleeved outside the washing input shaft, and the washing input shaft drives the washing output shaft to rotate in the same direction;

the first planetary gear train comprises a first sun gear fixedly connected with the washing input shaft, a first inner gear ring in key connection with the dehydration input shaft and a first planet carrier; the dehydration input shaft is fixedly connected with the dehydration output shaft;

a power conversion unit for driving the first planet carrier to move along the washing input shaft so as to fixedly connect the first planet carrier with one of the washing input shaft or the outer tub;

when the first planet carrier is fixedly connected with the outer barrel, the first inner gear ring and the first sun gear rotate in the opposite direction, and the inner barrel and the impeller rotate in the opposite direction;

when the first planet carrier is fixedly connected with the washing input shaft, the first inner gear ring and the first sun gear rotate in the same direction, and the inner barrel and the impeller rotate in the same direction.

As an implementation mode, a mounting seat fixedly connected with the outer barrel is arranged in the box body; a second matching tooth is arranged at one end, close to the first planetary gear train, of the mounting seat, and first connecting teeth which are circumferentially distributed are formed at one end, close to the mounting seat, of the first planet carrier; when the first connecting teeth are meshed with the second matching teeth, the first planet carrier is fixedly connected with the outer barrel.

As a practical mode, a clutch sleeve is fixedly connected to the washing input shaft; the first planetary gear train is arranged on one side, far away from the power unit, of the clutch sleeve; one end of the clutch sleeve, which is close to the first planetary gear train, is provided with first matching teeth, and one end of the first planet carrier, which is close to the clutch sleeve, is provided with second connecting teeth which are circumferentially distributed; when the second connecting teeth are meshed with the first matching teeth, the first planet carrier is fixedly connected with the washing input shaft.

As an implementation manner, a connecting convex ring is formed by extending one side of the first inner gear ring close to the mounting seat, and the connecting convex ring is in key connection with the dehydration input shaft.

As a practical way, the mounting seat is fixedly connected with the outer barrel through an outer shell; the mounting seat is fixed at one end of the outer shell close to the clutch sleeve;

the mounting seat is of a hollow structure and sleeved outside the connecting convex ring, and a spring sleeved outside the dehydration input shaft is arranged between the connecting convex ring and the outer shell.

As an implementation manner, the first planet carrier includes a first housing accommodating the first sun gear, the first planet gear, and the first ring gear, and a boss is provided on an outer periphery of the first housing.

As an implementation manner, the power conversion unit includes a retractor and a shift lever fixed on the mounting seat; the deflector rod is used for interacting with the boss.

As a practical manner, the dehydration input shaft and the washing output shaft are fixedly connected through a second shell; the second shell defines a mounting cavity, and a second planetary gear train is arranged in the mounting cavity;

the second planetary gear train comprises a second sun gear fixedly connected with the washing input shaft, a second planetary carrier fixedly connected with the washing output shaft, and a second internal gear fixedly connected with the second outer shell.

As an implementable manner, a brake band is provided adjacent to the second housing.

As an implementation manner, gear teeth are arranged on the outer peripheral wall of one end of the washing input shaft far away from the power unit to form the second sun gear.

Compared with the prior art, the invention has the advantages and positive effects that:

the invention provides a pulsator washing machine, which comprises a box body, an inner barrel, a pulsator, a power unit, a first planetary gear train and a power conversion unit, wherein the box body is internally provided with an outer barrel; the first planetary gear train comprises a first sun gear fixedly connected with the washing input shaft, a first inner gear ring connected with the dehydration input shaft through a key and a first planet carrier; the washing input shaft drives the washing output shaft to rotate in the same direction; the power conversion unit drives the first planet carrier to move along the washing input shaft so as to enable the first planet carrier to be fixedly connected with one of the outer barrel or the washing input shaft; the inner barrel and the impeller rotate reversely during washing, so that the washing power is effectively increased during washing, and the clothes are prevented from being wound.

Drawings

FIG. 1 is a partial structural view of a pulsator washing machine according to the present invention in a washing mode;

FIG. 2 is a partial schematic structural view of another view angle of the pulsator washing machine in a washing mode according to the present invention;

FIG. 3 isbase:Sub>A cross-sectional view taken along A-A of FIG. 2;

FIG. 4 is a schematic view of a part of the structure of the pulsator washing machine in a dehydration mode according to the present invention;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4;

FIG. 6 is another schematic structural diagram of the pulsator washing machine in a dehydration mode according to the present invention;

FIG. 7 is a cross-sectional view taken along the line C-C of FIG. 6;

FIG. 8 is another schematic structural diagram of the pulsator washing machine in a dehydration mode.

In the above figures: a power unit 1; the input shaft 11 is washed; washing the output shaft 12; a dehydration input shaft 13; a dehydration output shaft 14; an outer shell 10; a mounting seat 6; the second mating teeth 60; a second housing 7; a brake band 8; a spring 9; a first planetary gear train 2; a first sun gear 21; a first planet wheel 22; the first ring gear 23; a first carrier 24; a connection convex ring 25; a boss 26; the first coupling tooth 28; the second coupling tooth 27; a first housing 20; a second planetary gear train 3; the second sun gear 31; the second planet wheels 32; the second ring gear 33; the second carrier 34; a clutch sleeve 4; a first mating tooth 40; a deflector rod 50.

Detailed Description

The present invention is further described below in conjunction with specific examples to enable those skilled in the art to better understand the present invention and to practice it, but the scope of the present invention as claimed is not limited to the scope described in the specific embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

It should be noted that the description relating to "first", "second", etc. in the present invention is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

An impeller washing machine, as shown in fig. 1-8, comprises a box body for forming appearance, an outer barrel arranged in the box body, an inner barrel rotatably arranged in the outer barrel; the bottom center of the inner barrel is provided with a rotatable impeller, wherein the impeller and the inner barrel rotate together.

The pulsator washing machine is provided with a power unit 1, a first planetary gear train 2, a second planetary gear train 3, a clutch sleeve 4 and a power conversion unit.

Specifically, the power unit 1 is arranged at the bottom of a box body of the pulsator washing machine; in this embodiment, the power unit 1 is configured such that the motor outputs power through the pulley. It should be noted that the arrangement of the power unit 1 is not limited to the above arrangement, and it may be implemented by arranging a variable frequency direct drive unit as a power source. The power unit 1 is connected with and drives a washing input shaft 11, one end of the washing input shaft 11, which is far away from the power unit, is connected with a washing output shaft 12 through a second planetary gear train 3, so that the output rotating speed of the power unit 1 is transmitted to the washing output shaft 12 after being decelerated by the second planetary gear train 3. Wherein, the washing output shaft 12 is connected with the pulsator to drive the pulsator to rotate.

Specifically, an outer shell 10 fixedly connected with the outer barrel is arranged in the box body; and a mounting seat 6 is fixed at one end of the outer shell 10 close to the power unit 1. One end of the mounting seat 6 close to the power unit 1 is provided with a second mating tooth 60. A second housing 7 is provided within the mounting seat 6, and the second housing 7 defines a mounting cavity for receiving the second planetary gear set 3. Wherein, a brake band 8 is arranged outside the second shell 7 for braking.

The second planetary gear train 3 includes a second sun gear 31, second planet gears 32, a second carrier 34, and a second ring gear 33. Wherein, the washing input shaft 11 drives the second sun gear 31 to rotate; the second planet carrier 34 is fixedly connected with the wash output shaft 12. In this embodiment, the outer peripheral wall of the washing input shaft 11 at the end away from the power unit 1 is provided with gear teeth to form the second sun gear 31 of the second planetary gear set 3. I.e. the second sun gear 31 is the end of the wash input shaft 11. In the present embodiment, the second carrier 34 is connected to the wash output shaft 12 by spline fitting. The second ring gear 33 is fixed to the second housing 7.

The clutch sleeve 4 is fixedly connected with the washing input shaft 11 and is driven by the washing input shaft 11 to rotate. The end of the clutch sleeve 4 remote from the power unit 1 is provided with a second engagement tooth 60. Wherein, the clutch sleeve 4 is connected with the washing input shaft 11 in a spline fit way.

The first planetary gear train 2 is arranged between the mounting seat 6 and the clutch sleeve 4 and can move along the washing input shaft 11 under the action of the power conversion unit so as to be fixedly connected with one of the clutch sleeve 4 or the mounting seat 6. The first planetary gear train 2 includes a first carrier 24, a first sun gear 21, a first planetary gear 22, and a first ring gear 23. The first carrier 24 is provided with a first planet post for fastening the first planet wheel 22, and the first planet wheel 22 can freely rotate around the first planet post. And the first planetary gears 22 simultaneously mesh with the external teeth of the first sun gear 21 and the internal teeth of the first ring gear 23. In addition, a connecting convex ring 25 is formed by extending the first inner gear ring 23 to one side close to the mounting seat 6, and the connecting convex ring 25 is connected with the dehydration input shaft 13 in a key mode. One end of the dehydration input shaft 13 far away from the connecting convex ring 25 is fixedly connected with the dehydration output shaft 14 through the second shell 7. That is, the dehydration input shaft 13, the second housing 7 and the dehydration output shaft 14 are fixed as one body and rotate at the same time. In addition, the mounting seat 6 is of a hollow structure and is sleeved outside the connecting convex ring 25, and a spring 9 sleeved outside the dehydration input shaft 43 is arranged between the connecting convex ring and the outer shell 10.

In the above, the first sun gear 21 is fixedly connected to the washing input shaft 11, and the washing input shaft 11 drives the first sun gear 21 to rotate. One end of the first carrier 24 close to the mounting seat 6 is formed with circumferentially arranged first coupling teeth 28, and one end of the first carrier 24 close to the power unit 1 is formed with circumferentially arranged second coupling teeth 27. Wherein the first coupling teeth 28 are intended to engage with the second mating teeth 60 on the mounting seat 6 and the second coupling teeth 27 are intended to engage with the first mating teeth 40 on the clutch sleeve 4. In addition, the first carrier 24 includes a first casing 20 accommodating the first sun gear 21, the first planet gear 22, and the first ring gear 23, and the first casing 20 is provided with a boss 26 disposed along a circumferential direction thereof. The dewatering input shaft 13 is sleeved outside the washing input shaft 11.

In this embodiment, the connection convex ring 25 is connected with the dehydration input shaft 13 by spline fitting. The first sun gear 21 is connected with the washing input shaft 11 by spline fitting.

The dehydration output shaft 14 is sleeved outside the washing output shaft 12, and the washing output shaft 12 and the dehydration output shaft 14 are connected through a bearing so as to ensure that the two can rotate circumferentially mutually. Similarly, the dewatering input shaft 13 is sleeved outside the washing output shaft 12, and the washing input shaft 11 and the dewatering input shaft 13 are connected through a bearing so as to ensure that the two can rotate circumferentially relative to each other.

The power conversion unit includes a retractor and a shift lever 50 fixed to the mount 6. The retractor controls the shift lever 50 to move so as to control the position of the first planetary gear train 2 on the washing input shaft 11 through the shift lever 50, so that the first planetary gear train 2 is fixed with one of the mounting seat 6 or the clutch sleeve 4, thereby realizing power conversion. In this example, a cam-type retractor is adopted, the shift lever 50 is connected with the traction cam through a tension spring, the tension spring is connected with the shift lever 50 through a tension spring shaft, and the shift lever 50 is connected with the mounting seat 6 through a pin shaft. As another practical way, the output end of the tractor is set as a traction rope, and a motor inside the tractor drives the traction rope to extend and retract after speed reduction, so as to control the shift lever 50. As another practical way, the output end of the retractor is a rotating shaft type, one end of the tension spring is directly fixed on the rotating shaft, the other end of the tension spring is fixed on the shift lever 50, and the shift lever 50 is controlled to stop at different positions through the rotating angle of the rotating shaft. When the pulsator washing machine system is in an initial state, the control retractor is in an initial position, the deflector rod 50 is in an open state, the deflector rod 50 does not interact with the boss 26 on the outer side of the first planet carrier 24, at the moment, the first planet carrier 24 is separated from the mounting seat 6 under the action of the spring 9, and the second connecting teeth 27 on the first planet carrier 24 are meshed with the first matching teeth 40 on the clutch sleeve 4.

In a washing mode, as shown in fig. 1-3, the shift lever 50 rotates a certain angle, and after the shift lever 50 contacts with the boss 26 on the first planet carrier 24, the shift lever 50 continues to rotate, so that the shift lever 50 drives the first planet carrier 24 to move towards the mounting seat 6 against the elastic force of the spring 9, the second coupling teeth 27 on the first planet carrier 24 are separated from the second mating teeth 60 on the clutch sleeve 4, and the first coupling teeth 28 on the first planet carrier 24 are engaged with the second mating teeth 60 on the mounting seat 6. With the mounting block 6 fixed to the outer housing 10, the first carrier 24 is locked after the first coupling teeth 28 on the first carrier 24 engage with the second mating teeth 60 on the mounting block 6.

The power unit 1 is operated, and the washing input shaft 11 is rotated and rotates the first sun gear 21 and the second sun gear 31. The first sun gear 21 drives the first planet gear 22 to rotate, and the first planet gear 22 only rotates because the first planet carrier 24 and the mounting base 6 are fixed and immovable; according to the planetary gear train transmission principle, the first sun gear 21 transmits power to the first ring gear 23 through the first planet gears 22, and the first sun gear 21 is rotated in the opposite direction to the first ring gear 23. Meanwhile, the first inner gear ring 23 synchronously transmits the rotation to the dehydration input shaft 13, the second outer shell 7 and the dehydration output shaft 14, and finally the dehydration output shaft 14 drives the inner barrel to rotate in the same direction. In addition, the first sun gear 21 and the second sun gear 31 rotate in the same direction, and drive the second planet carrier 34 to rotate in the same direction, and the second planet carrier 34 drives the washing output shaft 12 to rotate in the same direction. In this way, the dehydration output shaft 14 and the first ring gear 23 rotate in the same direction, and the washing output shaft 12 and the first sun gear 21 rotate in the same direction. Namely, when the first planet carrier 24 is matched and connected with the mounting seat 6, the dehydration output shaft 14 and the washing output shaft 12 rotate reversely. The inner tub and the pulsator rotate in opposite directions to enhance washing power, thereby reducing twisting.

Dehydration mode, as shown in fig. 4-8, release lever 50, retractor in initial position; the shift lever 50 is separated from the boss 26 on the first carrier 24 and has no interaction force. Under the action of gravity and the restoring force of the spring 9, the first planet carrier 24 moves towards the direction close to the clutch sleeve 4, the first connecting teeth 28 on the first planet carrier 24 are separated from the second matching teeth 60 on the mounting seat 6, the second connecting teeth 27 on the first planet carrier 24 are meshed with the second matching teeth 60 on the clutch sleeve 4, and the first planet carrier 24 is fixedly connected with the clutch sleeve 4.

The power unit 1 works, the washing input shaft 11 rotates, and the clutch sleeve 4, the first sun gear 21 and the second sun gear 31 are driven to rotate in the same direction. At this time, the first carrier 24 and the washing input shaft 11 are fixed by the clutch sleeve 4, the first carrier 24 and the washing input shaft 11 rotate in the same direction, the first planetary gear 22 revolves around the washing input shaft 11 on one hand and rotates in the other direction, and the first ring gear 23 is driven to rotate. According to the transmission principle of a planetary gear train, the first inner gear ring 23, the first planet carrier 24 and the first sun gear 21 keep rotating in the same direction and at the same speed; therefore, the dehydration input shaft 13 rotates in the same direction as the washing input shaft 11. The first inner gear ring 23 synchronously transmits the rotation to the dehydration input shaft 13, the second outer shell 7 and the dehydration output shaft 14, and finally the dehydration output shaft 14 drives the inner barrel to rotate in the same direction. The first sun gear 21 and the second sun gear 31 rotate in the same direction and drive the second planet carrier 34 to rotate in the same direction, and the second planet carrier 34 drives the washing output shaft 12 to rotate in the same direction. In the above, the dehydration output shaft 14 and the first ring gear 23 rotate at the same speed and in the same direction, and the washing output shaft 12 and the first sun gear 21 rotate in the same direction. Namely, when the first planetary gear train 2 is fixedly connected with the clutch sleeve 4, the dehydration output shaft 14 and the washing output shaft 12 rotate in the same direction, and the inner barrel and the wave wheel rotate in the same direction. At the moment, the power unit 1 rotates unidirectionally at a high speed to drive the inner barrel and the impeller to rotate at a high speed so as to realize the dewatering and spin-drying effects.

The invention provides a pulsator washing machine, which comprises a box body, an inner barrel, a pulsator, a power unit, a clutch sleeve, a first planetary gear train, a second planetary gear train and a power conversion unit, wherein a mounting seat is fixed in the box body; the first planetary gear train comprises a first sun gear fixedly connected with the washing input shaft, a first inner gear ring fixedly connected with the dewatering input shaft and a first planet carrier; wherein, the dehydration input shaft is fixedly connected with the dehydration output shaft; the second planetary gear train comprises a second sun gear fixedly connected with the washing input shaft and a second planet carrier fixedly connected with the washing output shaft; the power conversion unit drives the first planet carrier to move along the washing input shaft so as to fixedly connect the first planet carrier with one of the clutch sleeve or the mounting seat; the inner barrel and the impeller are reversed during washing, so that the washing power during washing is effectively increased, and the clothes are prevented from being wound.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention.

Claims

1. Pulsator washing machine, its characterized in that includes:

a box body;

an outer tub disposed in the case;

a second planetary gear train including a second sun gear fixedly connected with the washing input shaft, and a second planet carrier fixedly connected with the washing output shaft;

2. The pulsator washing machine as claimed in claim 1, wherein: a mounting seat fixedly connected with the outer barrel is arranged in the box body; a second matching tooth is arranged at one end, close to the first planetary gear train, of the mounting seat, and first connecting teeth which are circumferentially distributed are formed at one end, close to the mounting seat, of the first planet carrier; when the first connecting teeth are meshed with the second matching teeth, the first planet carrier is fixedly connected with the outer barrel.

3. The pulsator washing machine according to claim 2, wherein: the washing input shaft is fixedly connected with a clutch sleeve; the first planetary gear train is arranged on one side, far away from the power unit, of the clutch sleeve; one end of the clutch sleeve, which is close to the first planetary gear train, is provided with first matching teeth, and one end of the first planet carrier, which is close to the clutch sleeve, is provided with second connecting teeth which are circumferentially distributed; when the second connecting teeth are meshed with the first matching teeth, the first planet carrier is fixedly connected with the washing input shaft.

4. The pulsator washing machine according to claim 3, wherein: one side of the first inner gear ring, which is close to the mounting seat, extends to form a connecting convex ring, and the connecting convex ring is in key connection with the dehydration input shaft.

5. The pulsator washing machine as claimed in claim 4, wherein: the mounting seat is fixedly connected with the outer barrel through an outer shell; the mounting seat is fixed at one end of the outer shell close to the clutch sleeve;

6. The pulsator washing machine as claimed in claim 2 or 3, wherein: the first planet carrier comprises a first shell containing a first sun gear, a first planet gear and a first inner gear ring, and a boss is arranged on the periphery of the first shell.

7. The pulsator washing machine according to claim 6, wherein: the power conversion unit comprises a tractor and a deflector rod fixed on the mounting seat; the deflector rod is used for interacting with the boss.

8. The pulsator washing machine as claimed in claim 1, 2 or 3, wherein:

the dehydration input shaft is fixedly connected with the dehydration output shaft through a second shell; the second shell defines a mounting cavity, and a second planetary gear train is arranged in the mounting cavity;

the second planetary gear train comprises a second inner gear ring fixedly connected with the second outer shell.

9. The pulsator washing machine as claimed in claim 8, wherein: and a brake band is arranged at the adjacent position of the second shell.

10. The pulsator washing machine according to claim 8, wherein: and the washing input shaft is far away from the outer peripheral wall of one end of the power unit and is provided with gear teeth to form the second sun gear.