Patent Application
20120186306
This application claims the benefit of Korean Patent Application No. 2011-0006210, filed on Jan. 21, 2011 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference.
1. Field
Embodiments of the present disclosure relate to a pump of a washing machine which circulates or drains wash water and a filter which is detachably mounted in the pump.
2. Description of the Related Art
In general, a washing machine is an apparatus which washes laundry by rotating a cylindrical drum in which the laundry and wash water are contained. Washing machines are divided into a drum washing machine which washes laundry by tumbling the laundry through rotation of a drum and a pulsator washing machine which washes laundry by water current generated by rotation of a pulsator.
A washing machine includes a tub to contain wash water, a drum rotatably installed within the tub and provided with spin-drying holes formed on the circumferential surface thereof for spin-drying, and a drive device to drive the drum.
The washing machine further includes a water supply device to supply wash water into the tub, and a pump to drain the wash water in the tub.
Recently, a washing machine having a bubble generator to improve washing performance of the washing machine becomes increasingly popular.
A pump of the washing machine having such a bubble generator is connected to a drain pipe and a circulation pipe in both directions, and is thus provided with a cylindrical pump filter to filter out foreign substances from wash water.
Therefore, it is an aspect of the present disclosure to provide a filter which reduces accumulation and growth of foreign substances while effectively filtering out the foreign substances from wash water, and a washing machine having the same.
Additional aspects of the disclosure will be set forth in part in the description which follows and, in part, will be apparent from the description, or may be learned by practice of the disclosure.
In accordance with one aspect of the present disclosure, a washing machine includes a tub containing wash water, a pump case including an inflow chamber into which the wash water in the tub flows, a circulation pump chamber provided at one side of the inflow chamber to supply wash water to the tub, and a drain pump chamber provided at the other side of the inflow chamber to discharge the wash water to the outside of a main body, and a pump filter installed in the inflow chamber to filter out foreign substances from the wash water, wherein the pump filter includes a first filter part passing wash water flowing into the circulation pump chamber and a second filter part passing wash water flowing into the drain pump chamber, and the first filter part includes a blocking wall preventing the wash water from rectilinearly flowing into the circulation pump chamber and guiding detouring of the wash water.
The pump filter may have a hollow cylindrical shape.
The pump filter may further include an inflow hole formed at one end thereof to enable wash water to be introduced into the pump filter through the inflow hole.
The blocking wall may be formed at the center of the first filter part.
The first filter part may include a plurality of first collection holes formed at both sides of the blocking wall to filter out foreign substances from the wash water detoured via the blocking wall.
The second filter part may include a plurality of second collection holes to filter out foreign substances from the wash water.
The pump filter may further include a direction adjustment groove formed to adjust positions of the first filter part and the second filter part within the inflow chamber.
The second filter part may include an opening to effectively drain the wash water.
The second filter part may include a conical filter part protruding inwardly to effectively drain the wash water.
The pump case may further include a direction adjustment rib protruding to be inserted into the direction adjustment groove of the pump filter.
The pump filter may further include a head provided with a handle, and the head may be rotatably connected to the first filter part and the second filter part.
The pump filter may be detachably connected to the inflow chamber of the pump case.
Bubbles may be generated in wash water in the circulation pump chamber of the pump case and the wash water having the bubbles may be supplied to the tub.
In accordance with another aspect of the present disclosure, a washing machine includes a tub containing wash water, a pump case including an inflow chamber into which the wash water in the tub flows, a circulation pump chamber provided at one side of the inflow chamber to generate bubbles in wash water and to supply the wash water having the bubbles to the tub, and a drain pump chamber provided at the other side of the inflow chamber to discharge the wash water to the outside of a main body, and a pump filter detachably installed in the inflow chamber, wherein the pump filter includes a first filter part including a plurality of first collection holes to filter out foreign substances from wash water flowing into the circulation pump chamber and a second filter part including a plurality of second collection holes having a larger size than the plurality of first collection holes to filter out foreign substances from wash water flowing into the drain pump chamber, and a blocking wall guiding detouring of the wash water to prevent accumulation and growth of foreign substances in the pump filter is formed between the plurality of first collection holes of the first filter part.
In accordance with a further aspect of the present disclosure, a pump filter having a cylindrical shape and connected to a pump case of a washing machine includes an inflow hole formed at one end of the pump filter to enable wash water to be introduced into the pump filter through the inflow hole, a first filter part formed at a part of the circumferential surface of the pump filter to pass the wash water introduced through the inflow hole, and including a blocking wall to change a flow of the wash water and a plurality of first collection holes formed at both sides of the blocking wall to filter out foreign substances from the wash water, and a second filter part formed at the remaining part of the circumferential surface of the pump filter to pass the wash water introduced through the inflow hole, and including a plurality of second collection holes to filter out foreign substances from the wash water.
The plurality of first collection holes may have a smaller size than the plurality of second collection holes.
An opening to effectively drain the wash water may be formed at the second filter part.
A conical filter part protruding inwardly to effectively drain the wash water may be formed at the second filter part.
These and/or other aspects of the disclosure will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the embodiments of the present disclosure, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.
As shown in
An inlet 13 through which laundry is put into the drum 12 and a door 14 to open and close the inlet 13 are formed on the front surface of the main body 10.
A water supply device 20 to supply wash water and a detergent supply device 30 to supply detergent are installed at the upper portion of the inside of the main body 10.
The water supply device 20 includes a water supply valve 21 to control supply of wash water and a water supply pipe 22 connecting the water supply valve 21 to the detergent supply device 30.
Wash water having passed through the detergent supply device 30 is guided to the inside of the tub 11 through a connection pipe 23.
A drive motor 41 to rotate the drum 12 is installed on the outer surface of the rear portion of the tub 11, and a drive shaft 42 to transmit drive force of the drive motor 41 to the drum 12 is installed between the drum 12 and the drive motor 41. Further, a bearing housing 43 to rotatably support the drive shaft 42 is installed on a rear plate of the tub 11, and bearings 44 are installed between the bearing housing 43 and the drive shaft 42.
A pump 90 to pump the wash water contained in the tub 11 is installed at the lower portion of the inside of the main body 10, and a bubble generator (not shown) to generate bubbles is provided within the pump 90.
The pump 90 is connected to a plurality of connection pipes. The plural connection pipes include a first drain pipe 50 connected to a drain hole 17 of the tub 11, a second drain pipe 60 pumping wash water to discharge the wash water to the outside of the main body 10, a circulation pipe 80 connected to the upper surface of the tub 11 to generate bubbles within the wash water to supply the wash water having the bubbles to the inside of the tub 11, and an air supply pipe 70 connected to the upper portion of the tub 11 to supply air to the bubble generator (not shown) within the circulation pipe 80.
As shown in
The pump case 100 includes a circulation pump chamber 123, an inflow chamber 113 and a drain pump chamber 133. The circulation pump chamber 123 and the drain pump chamber 133 are opposite each other across the inflow chamber 113.
The inflow chamber 113 is provided with an inflow port 114 so as to communicate with the first drain pipe 50. During operation of the pump 90, the wash water in the tub 11 flows into the inflow chamber 113 via the first drain pipe 50 and the inflow port 114.
The filter 150 is mounted in the inflow chamber 113 and removes foreign substances from the wash water flowing from the tub 11.
An entrance hole 102 through which the filter 150 enters and exits the inflow chamber 113 is provided at the front portion of the inflow chamber 113, and a screw thread 103 to which the filter 150 is screw-connected is formed on the inner circumferential surface of the entrance hole 102.
A direction adjustment rib 104 to adjust the direction of the pump filter 150, which will be described later, protrudes from one side of the inner surface of the inflow chamber 113.
Impellers 121 and 131 to forcibly intake and discharge the wash water in the inflow chamber 113 are respectively installed within the circulation pump chamber 123 and the drain pump chamber 133, and pump motors 122 and 132 are respectively connected to the impellers 121 and 131. The respective impellers 121 and 131 are rotated by drive force transmitted from the pump motors 122 and 132, intake the wash water in the inflow chamber 113 in the axial direction, and discharge the wash water in the radial direction.
A circulation port 124 is formed at the circulation pump chamber 123 so as to communicate with the circulation pipe 80.
The bubble generator (not shown) generating bubbles is provided within the circulation pipe 80, and an air supply pipe 70 to supply air within the tub 11 to the circulation pipe 80 communicates with the circulation pipe 80.
The bubble generator (not shown) is of a venturi pipe type formed within a part of the circulation pipe 80. The bubble generator (not shown) mixes air, introduced through the air supply pipe 70 using a pressure difference due to pressure lowering caused by a flow of wash water, with wash water, thereby generating bubbles.
Further, a drain port 134 is formed at the drain pump chamber 133 so as to communicate with the second drain pipe 60 to discharge wash water to the outside of the main body 10.
The pump filter 150 to filter out foreign substances from wash water is detachably mounted in the pump case 100.
The pump filter 150 is formed in an approximately hollow cylindrical shape, and includes a head 160 and a body 170, one end of which is connected to the head 160. An inflow hole 172 through which wash water is introduced into the pump filter 150 is formed at the other end of the body 170 (with reference to
When the pump filter 150 is mounted in the pump case 100, the body 170 of the pump filter 150 is accommodated within the inflow chamber 113 of the pump case 100.
A screw thread 162 enabling the pump filter 150 to be screw-connected to the pump case 100 is formed on the outer circumferential surface of the head 160. Further, a handle 161 gripped by a user to rotate the head 160 is provided on the front surface of the head 160.
The circumferential surface of the body 170 formed to filter out foreign substances from wash water is divided into a first filter part 180 and a second filter part 190. This will be described later.
Further, the head 160 and the body 170 are mutually rotatably connected.
As shown in
Further, as shown in
Plural first collection holes 182 and 183 to filter out foreign substances from wash water are formed at both ends of the first filter part 180. A blocking wall 181 to change a flow of wash water introduced through the inflow hole 172 is formed at the center of the first filter part 180.
Plural second collection holes 191, 192 and 193 are formed on the entirety of the second filter part 190, and have a size slightly larger than the first collection holes 182 and 183. Therefore, the second collection holes 191, 192 and 193 may pass relatively larger foreign substances, as compared to the first collection holes 182 and 183.
Wash water flowing into the circulation pump chamber 123 through the first filter part 180 is blocked by the blocking wall 181 formed at the center of the first filter part 180, and thus does not flow rectilinearly and detours to pass through the first collection holes 182 and 183 (shown by the arrow C).
Wash water flowing into the circulation pump chamber 123 through the first filter part 180 detours in such a manner and moves, and thus both accumulation and growth of foreign substances at the first collection holes 182 and 183 are reduced.
In accordance with the embodiment of the present disclosure, the first filter part 180 filtering wash water flowing toward the circulation pump chamber 123 is provided with the blocking wall 181 to detour the wash water, and the second filter part 190 filtering wash water flowing toward the drain pump chamber 133 is provided with the second collection holes 191, 192 and 193 having a relatively large size, and thereby, the pump filter 150 reduces accumulation and growth of foreign substances while effectively filtering out foreign substances from the wash water.
As shown in
The direction adjustment rib 104 protrudes from one side of the inner surface of the inflow chamber 113, as described above, so as to be inserted into the direction adjustment groove 173.
The direction adjustment groove 173 and the direction adjustment rib 104 are respectively provided at proper positions such that the first filter part 180 of the pump filter 150 faces the circulation pump chamber 123 of the pump case 100.
When the pump filter 150 enters the inflow chamber 113 of the pump case 100 and the head 160 of the filter 150 is rotated, the direction adjustment rib 104 of the pump case 100 is inserted into the direction adjustment groove 173 of the pump filter 150 at one position. Then, from this time, the body 170 of the pump filter 150 is fixed under the condition that the first filter part 180 faces the circulation pump chamber 123 of the pump case 100 and the second filter part 190 faces the drain pump chamber 133 of the pump case 100, and only the head 160 of the pump filter 150 is continuously rotated.
Through such a configuration, wash water flowing toward the circulation pump chamber 123 passes through the first filter part 180 of the pump filter 150, and wash water flowing toward the drain pump chamber 133 passes through the second filter part 190 of the pump filter 150.
In the same manner as the earlier embodiment, wash water flowing toward a drain pump chamber 133 passes through a second filter part 190.
As shown in
Further, as shown in
Such a conical filter part 351 has an approximately conical shape and includes a first frame part 353 contacting the circumferential surface of the pump filter 350 and a second frame part 352 formed opposite the first frame part 353, as shown in
Through such a configuration, the pump filter 350 filters out foreign substances having a relatively large volume from wash water flowing toward the drain pump chamber 133 while passing foreign substances having a relatively small volume, thereby increasing filtering effects.
Although a few embodiments of the present disclosure have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2011-0006210 | Jan 2011 | KR | national |
