Patent Grant
7516630
This application claims the benefit of the Korean Application Nos. P2002-0045088 and P2002-0045090, both filed on Jul. 30, 2002, which is hereby incorporated by reference.
1. Field of the Invention
The present invention relates to a washing machine, and more particularly, to a washing machine having an improved circulation apparatus for pumping water in a lower side of the tub and discharging the pumped water from an upper side of the tub.
2. Discussion of the Related Art
In general, a washing machine is an apparatus for eliminating contaminants from laundry by the interaction of detergent and water.
Washing machines are generally classified into agitator type, pulsator type, and drum type washing machines.
The agitator type washing machine washes laundry by rotating a washing rod overtopping at the center of the washing tub in left and right directions. The pulsator type washing machine washes laundry using the frictional force generated between water current and laundry by rotating the disk-shaped pulsator in right and left directions. The drum type washing machine washes laundry by loading water, detergent and laundry into a drum with a plurality of protruded tumbling ribs installed in an inner surface of the drum and rotating the drum at a low speed.
In recent years, in order to enhance the washing efficiency of the agitator type, pulsator type and drum type washing machines, a variety of auxiliary units are additively provided, such as a washing water circulation apparatus, for example. The washing water circulation apparatus allows objects to be washed received in the drum or washing tub to be wet rapidly, and enhances the washing efficiency by increasing the frictional force due to water current.
The washing water circulation apparatus is configured to pump water in an inner lower space of the tub and discharge the pumped water from the upper side to the inner space of the drum or washing tub. The washing water circulation apparatus has a plurality of small injection holes for injecting the pumped water into the inner space of the drum or the washing tub.
However, the water in the tub contains a considerable amount of foreign particles such as lint. Therefore, the foreign particles are pumped along with the water in the tub through the washing water circulation apparatus and then injected through the injection holes. Over a long period of time, the injection holes are choked with the foreign particles, causing problems in the washing machine.
In addition, because the water that is pumped through the washing water circulation apparatus is generally injected only in one direction, the pumped water cannot be uniformly injected into the washing objects received in the drum or washing tub.
Accordingly, all the washing objects cannot be rapidly wet, making it difficult to obtain high washing efficiency.
Accordingly, the present invention is directed to a washing machine that substantially obviates one or more problems due to limitations and disadvantages of the related art.
An advantage of the present invention is to provide an improved washing water circulation apparatus in which clogging due to lint is prevented.
Another advantage of the present invention is to provide an improved washing water circulation apparatus in which water is injected in various directions.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, there is provided a washing water circulation apparatus including a circulation motor, a circulation hose and an injection unit. The circulation motor communicates with a lower side of a tub of a washing machine to pump water in the tub. The circulation hose has one end that is connected with the circulation motor, and guides the pumped water. The injection unit includes a cylindrical connector and a nozzle. The cylindrical connector is installed between a door and the tub and provided so as to penetrate a gasket for preventing water leakage. One end of the cylindrical connector is connected with the circulation hose. The nozzle is provided below the gasket. The nozzle has a facing surface facing an inside of a drum and left and right surfaces of the facing surface, the facing surface and the left and right surfaces being completely opened. The nozzle disperses the water, which is discharged to a lower side from the cylinder, into the inside of the drum to inject the dispersed water.
The present invention is not limited to cylindrical connectors, rather the connectors can have a variety of cross-sectional shapes, such as a square or triangle.
Alternatively, the washing water circulation apparatus of the present invention may be configured to further include an annular rib extending from one side surface of the gasket so as to hold and support an outer surface of the connector.
The connector may further include a projection protruded from an outer circumference of the connector for preventing the connector from dropping under the gasket.
In the washing water circulation apparatus according to the present invention, the injection unit may be comprised of a single body. In this case, the nozzle includes: an upper horizontal part extending from the other end toward the drum; a vertical part extending from an opposite side to a side facing the drum to a lower side; and a lower horizontal part extending from a lower end toward the drum.
Herein, the upper horizontal part has an upper surface, which is supported close to the gasket. The vertical part has a center portion that is formed convex toward the drum. The lower horizontal part has a center portion, which is formed convex upward. The lower horizontal part comprises a guide groove formed in left and right directions. The lower horizontal part has an upper surface inclined downward as it travels from the guide groove toward the drum.
Furthermore, in the washing water circulation apparatus of the present invention, the connector and the nozzle of the injection unit are formed separately from each other. In this case, the connector is formed of an independent single body, and the nozzle is formed extending from the gasket. The nozzle comprises: a vertical part extending downward from a lower surface of the gasket; and a lower horizontal part extending from a lower end of the vertical part toward the drum. The vertical part has a center portion, which is formed convex toward the drum. The lower horizontal part has a center portion, which is formed convex upward. The lower horizontal part comprises a guide groove, which is formed in left and right directions. The lower horizontal part has an upper surface inclined downward as it travels from the guide groove toward the drum.
In another aspect of the present invention, there is provided a washing machine provided with the washing water circulation apparatus. The washing machine includes: a case; an outer tub provided within the case and storing water therein; an inner tub provided rotatable within the outer tub and having a plurality of holes communicating with an inner space of the outer tub; and the washing water circulation apparatus mentioned above.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principle of the invention.
In the drawings:
Reference will now be made in detail to an embodiment of the present invention, example of which is illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts, and additional description thereof is omitted.
Hereinafter, construction of the washing machine according to the present invention will be described in more detail with reference to the above drawings. For the convenience of description, the outer tub is referred to as ‘tub’ and the inner tub is referred to as ‘drum’.
Referring to
The base 4 constitutes the bottom of the case 2. On the base, a damper 4a for supporting a tube 10 to be described later is mounted.
The cabinet 6 stands on the base 4 so as to form therein a space where the tub 10 can be installed. On an inner surface of the cabinet 6, springs 6a holding and supporting the tub 10 are connected. In any surface of the cabinet 6 such as the front surface, for example, a loading hole 7a is formed through which laundry (100) is loaded or unloaded. At front, inner, upper and lower sides of the cabinet 6, an upper frame 9a and a lower frame 9b are horizontally arranged as shown in
The door 40 is installed at a front side of the cabinet 6 so as to open and close the loading hole 7a. This door 40 is configured to include a door frame 42 and a door glass 44. The door frame 42 is hinge-coupled at the front side of the cabinet and has a hole formed in the center in which the door glass 44 is installed.
The top plate 8 is mounted on the opened cabinet 6 to seal an inner space formed by the cabinet 6 and the base 4. On a predetermined portion of the top plate 8, a control panel 8a for manipulating the washing machine is equipped.
In the inner space of the case 2, the tub 10 is provided. As described above, the tub 10 is located at a mid portion of the inner space and supported by the springs 6a and the damper 4a. The tub 10 is installed such that the opened front thereof faces the loading hole 7a of the cabinet 6. In the tub 10 installed as above, water is supplied and stored.
In the inner space of the tub 10, a drum 20 is rotatably installed. For this purpose, a motor 28 is installed in the cabinet 6 so as to rotate the drum 20. In
A plurality of water holes 21 are formed in the drum 20. Hence, water stored in the tub 10 comes in and out the inner space of the drum 20 through the water holes 21. On an inner circumference of the drum 20, a plurality of tumbling ribs 22 are protruded as shown in
Between the door 40 and the tub 10, a gasket 30 is installed as shown in
At a lower portion of the tub 10, a drain 15 is formed. A drain bellows tube 51 is connected with the drain 15. A pump unit 50 for pumping the water introduced through the drain 15 and the drain bellows tube 51 and draining the pumped water, or circulating the pumped water into the inside of the drum 20 again is connected to the drain bellows tube 51.
The pump unit 50 is configured to include a pump case 52, a circulation pump 53 and a drain pump 54. Water passing through the drain 15 and the drain bellows tube 51 is introduced into the pump case 52. A drain hose 55 communicating with an outside is connected with the drain pump 54. The drain pump 54 drains the water introduced into the pump case 52 in the drain process of the washing machine to an outside through the drain hose 55. A circulation hose 60 is connected to the circulation pump 53. The circulation hose 60 is arranged so that one end is adjacent to the upper side of the gasket 30. Hence, the circulation pump 53 allows the water to be introduced into the pump case 52 via the circulation hose 60.
In the aforementioned drawings, reference numeral 81 indicates a water feed hose for supplying external clean water to the washing machine, and reference numeral 82 indicates a detergent box. The detergent box 82 functions to mix the water supplied through the water feed hose 81 with previously stored detergent. Reference numeral 83 indicates a feed bellows tube for guiding water discharged from the detergent box 82 to the inside of the tub 10.
The injection unit 70 is inserted into the insertion hole 31 and a rib 32 of the gasket 30. One end of the injection unit 70 is connected with the circulation hose 60 and the other end thereof penetrates the gasket 30 and is located under the gasket 30. The injection unit 70 installed as above disperses and discharges the water via the circulation hose 60 into the inner space of the drum 20. Hereinafter, such a construction will be described in more detail with reference to the accompanying drawings.
Referring to
One end of the connector 72 is, as shown in
In addition, on an outer circumference of the connector 72, an annular projection 73 is protruded as shown in
The nozzle 74 is provided below the gasket 30. A surface of the nozzle 74 facing the inside of the drum 20 and left and right surfaces thereof are completely opened. The nozzle 74 constructed as above disperses water discharged downward from the connector 72 into the inside of the drum 20 through the facing surface and the left and right surfaces of the nozzle 74 and discharges the dispersed water. Hereinafter, for the convenience of description, a side where the drum 20 is located is referred to as ‘rear side of the nozzle 74’ and a side where the door 40 is located is referred to as ‘front side of the nozzle 74’.
The aforementioned nozzle 74 includes an upper horizontal part 75, a vertical part 76, and a lower horizontal part 77.
The upper horizontal part 74, as shown in
The vertical part 76 extends with a predetermined length downward from the front side of the upper horizontal part, i.e., an opposite side to the side facing the drum 20.
The lower horizontal part 77 extends toward the rear side, i.e., toward the drum 20 from the lower side of the vertical part. Hence, as shown in
In the nozzle 74 constructed as above, the vertical part 76 has a center portion, which is formed convex toward the front side, i.e., toward the drum 20 with respect to both sides of the left and right, as shown in
As shown in
In addition, a guide groove 78 is formed in the lower horizontal part 77. The guide groove 78 is, as shown in
As shown in
In the meanwhile, as shown in
Hereinafter, another embodiment of the injection unit will be described in more detail with reference to
In the embodiment shown in
As shown in
The nozzle 74 is configured to include a vertical part 76 and a lower horizontal part. The vertical part 76 extends downward from the lower surface of the gasket 30. Also, the lower horizontal part 77 extends from the lower end to the rear side of the vertical part, i.e., toward the inside of the drum 20.
The nozzle 74 in the embodiment shown in
As aforementioned, the inventive injection unit 70 shown in
Hereinafter, operations of the washing machine and the washing water circulation apparatus will be described.
A user opens the door 40 and loads laundry (100) into the inside of the drum 20. As the door 40 is closed and the washing machine is operated, external water is fed to the detergent box 82 through the water feed hose 81. The detergent prepared in advance in the detergent box 82 is dissolved by supplied water, and the water in which detergent is dissolved is fed to the tub through the feed bellows tube 83.
Once a certain amount of water is supplied to the tub 10, the drum 20 is rotated by the motor 28. The water stored in the tub 10 is naturally introduced into the drum 20 through water holes 21. If the drum 20 is rotated, the laundry (100) is raised by the tumbling ribs 22 and then dropped. Hence, due to the chemical interaction of the detergent, impact energy of when water is dropped by the tumbling ribs 22, frictional force of water current generated by the rotation of the drum 20, and the like, contaminant is separated from the laundry (100) to perform the washing.
Meanwhile, while the washing process is performed with the rotation of the drum 20, the circulation pump 53 is operated. The circulation pump 53 pumps the water, which was introduced into the pump case 52 through the drain 15 and the drain bellows tube 51 arranged below the tub 10, from the tub 10 to the circulation hose 60.
The pumped water is introduced into the connector 72 of the injection unit 70 via the circulation hose 60, and is then dropped to the lower horizontal part 77 of the nozzle 74 through the connector 72. At this time, the rear side and the left and right directions of the nozzle 74 are completely opened. Hence, water is uniformly dispersed in the left and right directions and the rear side by guidance of the vertical part 76, guide groove 78 and lower horizontal part 77, and then discharged to the inside of the drum 20.
The uniformly dispersed and discharged water rapidly wets the laundry (100) received in the drum 20 in an initial stage of the washing process. While the washing is performed, friction and impact energies due to the drop of water are uniformly transferred to the laundry (100) to thereby obtain uniform washing capability.
After the washing process is performed with the drum 20 being rotated for a certain time, the drum 20 and the circulation pump 53 are stopped. After the washing process is completed, the contaminated water is drained to the outside. In the drain process, the drain pump 54 is operated and the water in the tub 10 is discharged to the outside through the drain hose 55.
After the drain process is completed, the drain pump 54 is stopped, new water is fed to the inside of the tub 10 and the drum 20 is rotated to perform rinsing process. During the rinsing process, the drum 20 is rotated and the circulation pump 53 is operated to perform the rinsing process through a similar process with the washing process.
After the washing of the laundry (100) completed by the repeating rinsing and draining processes, the laundry (100) is dewatered by rotating the drum 20 at a high speed. Meanwhile, if a case heater, blower and the like are provided in the washing machine, dewatered laundry is completely dried using hot air.
The washing machine according to the present invention has the following advantages.
First, if the washing machine of the present invention is used, the blockage or clogging of the circulation passage by lint or debris can be prevented. In other words, because the nozzle 74 that discharges the circulating washing water is completely opened in the rear side, and disperses water in the left and right directions, unlike the conventional structure having a small opening, even though the washing machine is used for a very long period of time, the blockage or clogging of the nozzle 74 by lint are prevented.
Second, if the inventive washing machine is used, washing performance can be improved and uniform washing result can be obtained in successive washings. In other words, the washing water passing through the circulation hose 60 is uniformly dispersed in the rear side and the left and right directions from the nozzle 74 and is discharged into the drum 20, so that laundry is rapidly wet in an initial stage of the washing process. As a result, substantial washing time is lengthened and thus the washing performance is enhanced. Also, since energy due to the water dropping from the nozzle 74 for a long-term period is uniformly transferred, a uniform washing result can be obtained with respect to all the laundry.
It will be apparent to those skilled in the art that various modifications and variation can be made in the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2002-0045088 | Jul 2002 | KR | national |
| 10-2002-0045090 | Jul 2002 | KR | national |
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