The present disclosure relates to the technical field of washing machines, for example, to a drum washing machine.
A drum washing machine in the related art includes an inner drum and an outer drum. A user can keep the inner drum of the washing machine clean in a washing and maintenance process of the washing machine, but the outer drum is sleeved outside the washing drum (i.e., the inner drum), so that an interlayer, namely a washing machine groove, is disposed between the inner drum and the outer drum. The washing machine groove is a harboring site for dirt, and the user cannot remove the inner drum and the outer drum on his/her own to clean an outer wall of the inner drum and an inner wall of the outer drum. Furthermore, the residual water in the inner drum and outer drum that is left from the operation of the washing machine is not easy to clean and evaporate, leading to the growth of a large amount of bacteria on the drum walls. As time proceeds, more and more areas would be attached with dirt, and the dirt also sticks more and more fast to the drum walls. This would cause secondary pollution to the clothes, seriously threatening the health of consumers. Therefore, the user needs to periodically ask a professional technician for professional washing of the washing machine to clean the washing machine, which is time-consuming and labor-consuming.
Therefore, it is a technical problem that needs to be solved by those skilled in the art to provide a washing machine that is able to solve the problem that the washing machine drum in the related art needs to be periodically cleaned.
The present disclosure provides a drum washing machine, which can solve the problem that a washing machine drum in the related art needs to be cleaned periodically.
There is provided drum washing machine that includes a washing machine housing. A washing drum is disposed in the washing machine housing and includes a front washing drum and a rear washing drum. The front washing drum is sealedly connected to the rear washing drum and is operative to rotate relative to the rear washing drum. The front washing drum is operative to rotate along with a motor, and the rear washing drum is at rest when the front washing drum is rotating along with the motor.
The washing drum according to the present disclosure includes a front washing drum and a rear washing drum. The front washing drum can rotate relative to the rear washing drum, and the front washing drum is dynamically and sealedly connected to the rear washing drum. Then clothes and water in the washing drum are driven to rotate to lift clothes, and then let the clothes fall and be beaten, thereby achieving the function of washing clothes. Because the washing drum is not divided into an inner drum and an outer drum, the outer wall of the washing drum cannot be filled with water, especially water after washing. Thus, dirt can be prevented from being accumulated on the outer wall of the washing drum, the outer wall of the washing drum is free from needing cleaning. In addition, water that is present between the inner drum and the outer drum of the original washing drum is also saved, thereby further saving water.
Optionally, the rear washing drum has a length smaller than the front washing drum.
The length of the rear washing drum is less than that the front washing drum so that the rear washing drum can rotate when there is sufficient water, ensuring the washing cleaning rate.
Optionally, the washing machine housing is provided with a loading port, a door and window is disposed at the loading port, and a sealing door is further arranged on a side of the front washing drum adjacent to the door and window and is configured to seal the washing drum. A sealing groove is defined in a side wall of the front washing drum contacting the sealing door or in a side wall of the sealing door contacting the front washing drum, and a first sealing ring is disposed in the sealing groove.
The sealing door, the sealing groove, and the first sealing ring are arranged to seal the front washing drum, so that washing water is prevented from flowing out in a rotating process of the front washing drum. Thus, the washing machine is ensured to complete a washing task and is protected from water leakage, electric leakage, short circuit, and other like faults.
Optionally, the sealing door is connected to the front washing drum.
The sealing door is connected to the front washing drum to separate the sealing door from the door and window. When the washing machine is in a rotating and operating, the sealing door rotates along with the front washing drum, effectively solving the problem of a poor sealing effect between the door window and the front washing drum.
Optionally, a water inlet valve is disposed on the housing of the washing machine and is connected to a detergent box via a water inlet pipeline, and the detergent box is connected to the water inlet hole via a water injection pipe.
Optionally, a central axis of the washing drum is inclined relative to the horizontal plane, and forms an angle α between the central axis and the horizontal plane, where 0≤α<90°.
The inclined-type drum washing machine can better meet user's needs that clothes can be taken out without stooping. The drum has a certain angle of inclination relative to the horizontal plane, thereby making it convenient to take out and put in clothes.
Optionally, the front washing drum is a no-porous structure drum.
Optionally, at least one lifting rib is arranged on an inner side wall of the rear washing drum.
A plurality of lifting ribs may be arranged inside the rear washing drum, so that the clothes inside the rear washing drum can be better lifted, fall down, and be beaten for washing purposes.
Optionally, the front washing drum is connected to the rear washing drum via a rotary bearing, and a second sealing ring is disposed between the front washing drum and the rear washing drum.
Optionally, a limiting ring having an F-shaped cross-section is disposed at a joint of the front washing drum and the rear washing drum.
The limiting ring includes a first vertical limiting ring body, a first transverse limiting ring body disposed on top of the first vertical limiting ring body, and a second transverse limiting ring body parallel to the first transverse limiting ring body.
The second sealing ring may be disposed between the first transverse limiting ring body and the second transverse limiting ring body, the rotary bearing may be disposed in a space formed by the first vertical limiting ring body, the second transverse limiting ring body, and an outer wall of the rear washing drum.
The sealing ring is arranged between the first transverse limiting ring body and the second transverse limiting ring body, namely the sealing ring is arranged in a rectangular closed space formed by the first transverse limiting ring body, the second transverse limiting ring body, the first vertical limiting ring body, and a lower drum. The rotary bearing is arranged in a space formed by the first vertical limiting ring body, the second transverse limiting ring body, and an outer wall of the lower drum. Such an arrangement not only plays a good sealing role, but also ensures that the rear washing drum is operative to rotate relative to the front washing drum.
Optionally, the second sealing ring is a lip-shaped sealing ring.
The lip-shaped sealing ring has a self-sealing effect. The lip is acted by working pressure to make the lip compress a sealing coupling surface, the abrasion loss can be automatically compensated, and therefore the lip-shaped sealing ring has a better sealing performance.
Optionally, a water inlet hole and a water outlet hole are disposed in the rear washing drum, and the water outlet hole is communicated with a drain valve via a drain connecting pipe.
Because the rear washing drum does not rotate, the problem that the joint cannot be aligned or water leaks after alignment would not occur when the water inlet hole and the water outlet hole are arranged on the rear washing drum.
In the drawings:
1. Washing machine housing; 11. Front panel; 12. Chassis; 13. Ground foot; 14. Upper table panel; 15. Rear backplate; 21. Front washing drum; 211. Lifting rib; 212. Sealing groove; 213. Limiting ring; 2131. First vertical limiting ring body; 2132. First transverse limiting ring body; 2133. Second transverse limiting ring body; 22. Rear washing drum; 221. Water inlet hole; 222. Water outlet hole; 3. Belt; 4. Motor; 5. Drain connecting pipe; 51. Drain valve; 52. Drain pipe; 61. First sealing ring; 62. Second sealing ring; 7. Sealing door; 8. Door and window; 9. Detergent box; 91. Water injection pipe; 92. Water inlet valve; 93. Water inlet pipeline; 10. Rotary bearing.
As illustrated in
In order to make the water in the washing drum rotate with the front washing drum 21, in the present embodiment, the length h of the rear washing drum 22 is less than the length H of the front washing drum 21. The length of the rear washing drum 22 can be as small as possible, but it should be noted that the length of the rear washing drum 22 should not affect the arrangement of the water outlet hole 222 and the water inlet hole 221. The rear washing drum 22 may be flexibly fixed in the washing machine housing 1 by a spring or a damper, or may be firmly fixed in the washing machine housing 1 with complete rigidity.
In the present embodiment, the rear washing drum 22 and the front washing drum 21 are both non-porous drums, that is, no hole is provided in a side wall of both the rear washing drum and the front washing drum, and the rear washing drum 22 is provided with the water inlet hole 221 and the water outlet hole 222. Such structure can ensure that the front washing drum 21 can be filled with water or drained without being positioned after rotation. Dirt is prevented from being accumulated on the wall of the drum due to water flowing out from the side wall holes. Furthermore, the front washing drum 22 and the rear washing drum 21 are not soaked by water, so that the front washing drum 21 is not subjected to resistance of water passing through holes in the rotating process, providing smoother rotation.
In addition, the front washing drum 21 may be a non-porous structure drum. After water inflow is finished, the drain pump or the drain valve is not started and is in a sealed state. Detergent and washing water are sealed in the front washing drum and the rear washing drum, and clothes to be washed are also placed in the front washing drum and the rear washing drum. Such structure can realize the integrated design of the water drum and the laundry drum, preventing water from flowing out of the outer wall of the washing drum to cause dirt to be accumulated on the outer wall, thereby further saving water.
A side of the washing machine housing 1 is provided with a loading port, and a door and window 8 is arranged at the loading port. A side of the front washing drum 21 adjacent to the door and window 8 is further provided with a sealing door 7 for sealing the washing drum, and the sealing door 7 is hingedly connected to the front washing drum 21 so as to ensure that the sealing door 7 is able to be opened. A sealing groove 212 is defined in the side wall of the front washing drum 21 contacting the sealing door 7 or in a side wall of the sealing door 7 contacting the front washing drum 21, and a first sealing ring 61 (referring to
In other embodiments, the sealing door 7 may also be connected to the door and window 8, and can rotate relative to the door and window 8, that is, the sealing door 7 is connected to the door and window 8 via a shaft, and can block a front end of the front washing drum 21 to make the sealing door 7 and the front washing drum 21 form a sealing chamber to prevent washing water from flowing out. Therefore, the sealing door 7 can be opened by opening the door and window 8, and the clothes can be put in and taken out, providing a more convenient washing machine for the user.
At least one lifting rib 211 is arranged on an inner side wall of the front washing drum 21. The lifting ribs 211 are provided for the purpose of lifting the clothes to allow the clothes to then rapidly fall during the washing process, so that the clothes inside can be better lifted, and fall so as to be beaten for washing purposes.
To ensure that the rear washing drum 22 can rotate relative to the front washing drum 21, in the present embodiment, the rear washing drum 22 is connected to the front washing drum 21 via a rotary bearing 10. The rear washing drum 22 is sleeved on an inner ring of the rotary bearing 10, the front washing drum 21 is engaged with an outer ring of the rotary bearing 10, and a second sealing ring 62 is disposed between the front washing drum 21 and the rear washing drum 22.
As illustrated in
The front washing drum 21 is connected to the rear washing drum 22 via the rotary bearing 10, so that the front washing drum 21 can be effectively ensured to rotate relative to the rear washing drum 22. Furthermore, the sealing ring is arranged between the rear washing drum 22 and the front washing drum 21, so that water in the washing drum can be prevented from flowing out of the washing drum to affect the operation of the washing machine.
When the front washing drum 21 rotates and is in low-speed washing, the rotating speed is 0-200 r/min; and when in high-speed dewatering and drying, the rotating speed is 600-1800 rpm. The second sealing ring 62 may be a lip-shaped sealing ring, and such sealing ring has a self-sealing effect. The lip is acted by working pressure to make the lip compress a sealing coupling surface, and the abrasion loss can be automatically compensated. The working pressure originated from the pre-compression force of the front washing drum 21 and the rear washing drum 22, the self-gravity of the front washing drum 21, and the working pressure of the internal liquid. The second sealing ring 62 may be the shape of Y, V, U, J or L.
The rotary connection (dynamic connection) between the front washing drum 21 and the rear washing drum 22 is a bearing connection, the front washing drum 21 and the rear washing drum 22 are respectively connected to an outer ring and an inner ring of the bearing. The rotary bearing can be selected from various types, and the rotary bearing 9 includes all bearings, such as ball bearings and roller bearings. The bearing type in the present embodiment may be a tapered roller bearing, a cylindrical roller bearing, a ball roller bearing, or the like. The tapered roller bearing is selected in the present embodiment, and the tapered ball bearing includes a bearing inner ring, a bearing bracket, tapered rollers, and a bearing outer ring.
As illustrated in
The bottom of the washing machine housing 1 is further provided with a chassis 12, the bottom of the chassis 12 is provided with ground feet 13 for supporting the whole washing machine, and the top of the washing machine housing 1 is provided with an upper table panel 14.
The difference between the present embodiment and Embodiment 1 is that a central axis of a washing drum is arranged inclined relative to the horizontal plane.
As illustrated in
As illustrated in
The drum washing machine in the present disclosure does not need periodical cleaning of dirt on an outer wall or an inner wall of a washing drum, so that it is more water-saving.
Number | Date | Country | Kind |
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201710065692.1 | Feb 2017 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2018/075364 | 2/6/2018 | WO | 00 |