CN210368344U

CN210368344U - Novel washing machine

Info

Publication number: CN210368344U
Application number: CN201920824605.0U
Authority: CN
Inventors: 黄锴瀚
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-03
Filing date: 2019-06-03
Publication date: 2020-04-21
Anticipated expiration: 2029-06-03

Abstract

A novel washing machine solves the problems that the existing washing machine is low in washing power and large in water consumption, and inner tub vibrates or collides with a machine shell to generate noise during washing. The utility model comprises a casing, an outer barrel, a motor, a cover, an inner barrel, a rolling shaft, a lower bearing and an upper bearing; the outer cylinder is arranged on an inner seat of the shell, the lower bearing is arranged in a shaft hole on the inner seat of the shell, and the motor is arranged at the lower part of the inner seat of the shell; a transmission shaft at the lower part of the inner barrel penetrates through the lower bearing and then is connected with the motor to form the relation that the inner barrel is arranged in the outer barrel; the rotating shaft of the inner barrel cover penetrates through the positioning shaft hole of the inner barrel, and the rotating shaft of the machine cover penetrates through the positioning shaft hole of the machine shell; the machine cover is provided with a positioning shaft, the inner barrel cover is provided with a shaft hole, the matching part of the positioning shaft and the shaft hole is provided with an upper bearing, and the axes of the positioning shaft, the shaft hole, the upper bearing, the lower bearing and the rotating shaft of the inner barrel are superposed with the axis of the inner barrel; the roller is arranged on the inner side wall of the inner barrel, and the inner barrel is designed into a cone shape with a barrel opening larger than a barrel bottom.

Description

Novel washing machine

Technical Field

A novel washing machine is suitable for the field of washing machines.

Background

Along with the needs of daily life of people, the use of various household electrical appliances is developed towards the direction of practicality and convenience. The washing machines on the market generally adopt modes such as impeller type, drum type, stirring type and the like. The impeller type is to change the action mode of water to wash by rotating the impeller at the bottom, the extrusion force directly acting on the clothes is small, and the washing effect is not ideal enough; the drum type is that the clothes are beaten by the action of the leaning force when the clothes rotate to the upper part of the drum, but the clothes are difficult to disperse, and the defects are made up for in a long time. The washing machines on the market are easy to vibrate or impact a machine shell to generate noise due to uneven clothes distribution when rotating. The existing washing machine has large water consumption because of insufficient washing power and incapability of circulating water.

SUMMERY OF THE UTILITY MODEL

The technical problem is as follows: the existing washing machine has small washing power and large water consumption, and the inner barrel vibrates or impacts the machine shell to generate noise during washing.

The technical scheme is as follows: a novel washing machine comprises a machine shell, an outer barrel, a motor, a machine cover, an inner barrel, a rolling shaft, a lower bearing and an upper bearing. The outer cylinder is arranged on an inner seat of the shell, the lower bearing is arranged in a shaft hole on the inner seat of the shell, and the motor is arranged at the lower part of the inner seat of the shell; a transmission shaft at the lower part of the inner barrel penetrates through the lower bearing and then is connected with the motor to form the relation that the inner barrel is arranged in the outer barrel; the rotating shaft of the inner barrel cover penetrates through the positioning shaft hole of the inner barrel to form the relation that the inner barrel cover is arranged at the upper part of the inner barrel, and the rotating shaft of the cover penetrates through the positioning shaft hole of the machine shell to form the relation that the cover is arranged at the upper part of the machine shell; the machine cover is provided with a positioning shaft, the inner barrel cover is provided with a shaft hole, the positioning shaft is matched with the shaft hole to form a relation that the inner barrel and the inner barrel cover rotate around the positioning shaft when the machine cover and the inner barrel cover are closed, the matching part of the positioning shaft and the shaft hole is provided with an upper bearing, and the axes of the positioning shaft, the shaft hole, the upper bearing, the lower bearing and the rotating shaft of the inner barrel are superposed with the axis of the inner barrel; the roller is arranged on the inner side wall of the inner barrel, the inner barrel is designed into a conical shape with a barrel opening larger than the barrel bottom, the bottom of the inner barrel is provided with a water through hole communicated with the outer barrel, and the side wall of the inner barrel is not provided with a through hole.

Preferably, the upper bearing is arranged on the positioning shaft of the cover in a penetrating way.

Preferably, the upper bearing is arranged in a shaft hole of the inner barrel cover.

Preferably, a chute is provided on the surface of the roller.

Preferably, the surface of the roller is provided with a convex hull.

Preferably, the roller is provided with swing bearings (5) at both ends thereof so that the roller can swing left and right.

Furthermore, a groove is arranged on the shell of the oscillating bearing, an oscillating ball is arranged in the groove, and one end of the oscillating ball is connected with the rolling shaft.

Has the advantages that: the inner cylinder wall is provided with a swingable roller, water is injected into the inner cylinder in the washing process, the rotating motor generates centrifugal force to simultaneously act water and clothes on the inner wall, and the swingable roller on the inner cylinder wall generates rubbing force for rubbing the clothes with the clothes and the water. Because the inner wall of the inner barrel adopts a structure mode of big end up, clothes and water move upwards along the inner wall, and the water below the outer barrel also enters the inner barrel through the hole below the inner barrel, thereby increasing the pushing force of the clothes to move upwards. When the clothes move to the upper part of the inner drum, the motor stops working, and the clothes are beaten at the bottom of the inner wall, so that the washing force is increased. When the motor drives the inner barrel to rotate, the upper part and the lower part of the inner barrel at the axial lead are provided with the upper bearing and the lower bearing for limiting, and the inner barrel can rotate around the axial lead stably without generating vibration or impacting a shell to generate noise after swinging. Because the inner wall of the inner barrel adopts a structure mode of big top and small bottom, the clothes and the water move upwards along the inner wall and flow out of the outer barrel; water below the outer cylinder can also enter the inner cylinder through the hole below the inner cylinder to form a circulating water flow, so that water is saved.

Drawings

FIG. 1 is a sectional view of the novel washing machine;

FIG. 2 is a schematic view of the upper bearing of the novel washing machine being arranged on the inner barrel cover;

FIG. 3 is a schematic view of the upper bearing of the novel washing machine arranged on the cover;

FIG. 4 is a schematic view of a roller surface of the novel washing machine with a chute;

FIG. 5 is a schematic view of a roller with convex hulls on its surface;

fig. 6 is a schematic view of a swing bearing of the novel washing machine.

In the figure, 1 is a machine cover, 1-1 is a positioning shaft, 2 is a machine shell, 3 is an inner barrel cover, 3-1 is a shaft hole, 4 is an inner barrel, 5 is a rolling shaft, 5-1 is a swinging bearing, 6 is an outer barrel, 7 is a lower bearing, 8 is a motor, and 9 is an upper bearing.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The first embodiment is as follows: as shown in fig. 1, 2, 4 and 6. A novel washing machine comprises a machine shell 2, an outer barrel 6, a motor 8, a machine cover 1, an inner barrel cover 3, an inner barrel 4, a rolling shaft 5, a lower bearing 7 and an upper bearing 9. The outer cylinder 6 is arranged on the inner seat of the shell 2, the lower bearing 7 is arranged in a shaft hole on the inner seat of the shell 2, and the motor 8 is arranged at the lower part of the inner seat of the shell 2; a transmission shaft at the lower part of the inner barrel 4 is arranged in the lower bearing 7 in a penetrating way and then is connected with a motor 8 to form the relation that the inner barrel 4 is arranged in the outer barrel 6; the rotating shaft of the inner barrel cover 3 penetrates through the positioning shaft hole of the inner barrel 4 to form the relation that the inner barrel cover 3 is arranged at the upper part of the inner barrel 4, and the rotating shaft of the cover 1 penetrates through the positioning shaft hole of the shell 2 to form the relation that the cover 1 is arranged at the upper part of the shell 2; the machine cover 1 is provided with a positioning shaft 1-1, the inner barrel cover is provided with a shaft hole 3-1, the positioning shaft 1-1 is matched with the shaft hole 3-1 to form the relation that the inner barrel 4 and the inner barrel cover 3 rotate around the positioning shaft 1-1 when the machine cover 1 and the inner barrel cover 3 are closed, the matching part of the positioning shaft 1-1 and the shaft hole 3-1 is provided with an upper bearing 9, and the axes of the positioning shaft 1-1, the shaft hole 3-1, the upper bearing 9, the lower bearing 7 and the axis of the rotating shaft of the inner barrel are superposed with the axis of the inner barrel; the roller 5 is arranged on the inner side wall of the inner barrel 4, the inner barrel 4 is designed into a cone shape with a barrel mouth larger than the barrel bottom, the bottom of the inner barrel is provided with a water through hole communicated with the outer barrel 6, and the side wall of the inner barrel is not provided with a through hole.

The upper bearing 9 is arranged on the positioning shaft 1-1 of the cover 1 in a penetrating way. The surface of the roller 5 is provided with an inclined groove.

Swing shaft shafts 5-1 are arranged at two ends of the rolling shaft 5 to form a relation that the rolling shaft 5 can swing left and right around the swing bearings 5-1 at the two ends. A groove 5-2 is arranged on the shell of the oscillating bearing 5-1, an oscillating ball 5-3 is arranged in the groove 5-2, and one end of the oscillating ball 5-3 is connected with the roller 5.

The inner cylinder wall is provided with a swingable roller 5, water is injected into the inner cylinder 4 in the washing process, the rotating motor 8 generates centrifugal force to simultaneously act water and clothes on the inner wall, and the swingable roller 5 on the inner cylinder wall generates rubbing force for rubbing the clothes with the clothes and the water. Because the inner wall of the inner barrel adopts a structure mode of big end up, clothes and water move upwards along the inner wall, and the water below the outer barrel 6 also enters the inner barrel through the hole below the inner barrel 4, thereby increasing the pushing force of the clothes to move upwards. When the clothes move to the upper part of the inner barrel, the motor 8 stops working, the clothes are beaten at the bottom of the inner wall, and then the motor 8 is started to rotate in the opposite direction, so that the operation process is repeated, and repeated cleaning is carried out. After the cleaning is finished, the electromagnetic valve at the bottom of the outer cylinder 6 is started to discharge water out of the cylinder. Then clean water is put in to repeat the above operation process to achieve the purpose of cleaning.

The inner barrel cover is provided with a shaft hole 3-1, and the positioning shaft 1-1 is matched with the shaft hole 3-1 to form a relation that the inner barrel 4 and the inner barrel cover 3 rotate around the positioning shaft 1-1 when the machine cover 1 and the inner barrel cover 3 are closed; an upper bearing 9 is arranged at the matching part of the positioning shaft 1-1 and the shaft hole 3-1, and the axes of the positioning shaft 1-1, the shaft hole 3-1, the upper bearing 9, the lower bearing 7 and the rotating shaft of the inner barrel are superposed with the axis of the inner barrel. When the motor 8 drives the inner barrel 4 to rotate, because the upper part and the lower part of the inner barrel 4 at the axial lead are provided with the limit of the upper bearing 9 and the lower bearing 7, the inner barrel can rotate around the axial lead stably without generating vibration or impacting a shell to generate noise after swinging.

Because the inner wall of the inner barrel adopts a structure mode of big top and small bottom, the clothes and the water move upwards along the inner wall and flow out of the outer barrel 6. The water below the outer cylinder 6 can also enter the inner cylinder 4 through the hole below the inner cylinder 4 to form a circulating water flow path. Because the inner wall of the inner barrel 4 adopts a structure mode of big top and small bottom, water moves upwards along the inner wall and flows out of the outer barrel 6, the bottom end of the outer barrel 6 is provided with an electromagnetic valve, and after the electromagnetic valve is opened, the water flows out of the outer barrel through the reserved hole to form a dewatering function.

Example two: as shown in fig. 3 and 5. The upper bearing is arranged in the shaft hole of the inner barrel cover, and the surface of the rolling shaft is provided with a convex hull. The rest is as described in the first embodiment.

Claims

1. The utility model provides a novel washing machine, contains casing (2), urceolus (6), motor (8), its characterized in that: the device also comprises a cover (1), an inner barrel cover (3), an inner barrel (4), a rolling shaft (5), a lower bearing (7) and an upper bearing (9); the outer cylinder (6) is arranged on an inner seat of the shell (2), the lower bearing (7) is arranged in a shaft hole on the inner seat of the shell (2), and the motor (8) is arranged at the lower part of the inner seat of the shell (2); a transmission shaft at the lower part of the inner barrel (4) penetrates through the lower bearing (7) and then is connected with the motor (8) to form the relation that the inner barrel (4) is arranged in the outer barrel (6); a rotating shaft of the inner barrel cover (3) penetrates through a positioning shaft hole of the inner barrel (4) to form a relation that the inner barrel cover (3) is arranged at the upper part of the inner barrel (4), and a rotating shaft of the cover (1) penetrates through a positioning shaft hole of the shell (2) to form a relation that the cover (1) is arranged at the upper part of the shell (2); the inner barrel cover is characterized in that a positioning shaft (1-1) is arranged on the machine cover (1), a shaft hole (3-1) is formed in the inner barrel cover, the positioning shaft (1-1) and the shaft hole (3-1) are matched to form the relation that the inner barrel (4) and the inner barrel cover (3) rotate around the positioning shaft (1-1) when the machine cover (1) and the inner barrel cover (3) are closed, an upper bearing (9) is arranged at the matching position of the positioning shaft (1-1) and the shaft hole (3-1), the axis of the positioning shaft (1-1), the axis of the shaft hole (3-1), the axis of the upper bearing (9), the axis of the lower bearing (7) and the axis of a rotating shaft of the inner barrel are; the roller (5) is arranged on the inner side wall of the inner barrel (4), the inner barrel (4) is designed into a conical shape with a barrel mouth larger than the barrel bottom, the bottom of the inner barrel is provided with a water through hole communicated with the outer barrel (6), and the side wall of the inner barrel is not provided with a through hole.

2. The novel washing machine as claimed in claim 1, characterized in that: the upper bearing (9) is arranged on the positioning shaft (1-1) of the cover (1) in a penetrating way.

3. The novel washing machine as claimed in claim 1, characterized in that: the upper bearing (9) is arranged in the shaft hole (3-1) of the inner barrel cover (3).

4. The novel washing machine as claimed in claim 1, characterized in that: the surface of the roller (5) is provided with an inclined groove.

5. The novel washing machine as claimed in claim 1, characterized in that: the surface of the roller (5) is provided with a convex hull.

6. The novel washing machine as claimed in claim 1, characterized in that: swing bearings (5-1) are arranged at two ends of the rolling shaft (5) to form a relation that the rolling shaft (5) can swing left and right around the swing bearings (5-1) at the two ends.

7. The novel washing machine as claimed in claim 6, characterized in that: a groove is arranged on the shell of the oscillating bearing (5-1), an oscillating ball is arranged in the groove, and one end of the oscillating ball is connected with the rolling shaft (5).