Abstract
A drum washing machine comprising: a casing (1), an outer cylinder (2) disposed in the casing (1), an inner cylinder (3) disposed in the casing (1), a door (4) provided on the casing (1), and a window gasket (5) for sealing provided between the casing (1) and the outer cylinder (2); wherein comprises: an inner cylinder front flange (32); a flow guiding structure (323) extending forward, which is provided on the inner cylinder front flange (32) and configured to introduce air into the inner cylinder (3) when entering into a spin phase; and a plurality of vents (541) opened at the window gasket (5) which are communicated with a space between the inner cylinder front flange (32) and the outer cylinder (2). When the drum washing machine enters into a spin phase to dewater, with the configuration of disposing the flow guiding structure (323) on the inner cylinder front flange (32), air in front of the inner cylinder front flange (32) could be introduced to the back side of it, and a negative pressure space could be created between the inner cylinder front flange (32) and the outer cylinder (2), and additionally, air around the window gasket (5) could enter into the space between the inner cylinder front flange (32) and the outer cylinder (2) by the vent (541) to create a high volume airflow circulating around the inner surface of the window gasket 5 to dry it quickly, which could speed up drying time, prevent the breeding of bacteria and eliminate the odor.
Claims
1. A drum washing machine comprising: a casing, an outer cylinder disposed in the casing, an inner cylinder disposed in the casing and including a front flange, a door provided on the casing, a window gasket for sealing provided between the casing and the outer cylinder; a flow guiding structure extending forward, which is provided on the inner cylinder front flange and configured to introduce air into the inner cylinder when entering into a spin phase; and a plurality of vents opened at the window gasket which are communicated with a space between the inner cylinder front flange and the outer cylinder; wherein the flow guiding structure comprises: a first end surface and a second end surface which protrude forward and are inclined toward each other, and the projection of an intersection line between the first end surface and the second end surface onto the front flange coincides a radius of the front flange.
2. The drum washing machine of claim 1, wherein the drum washing machine comprises: one or more guiding holes opened on a windward surface of the flow guiding structure when entering into a spin phase.
3. The drum washing machine according to claim 1, wherein the drum washing machine comprises: a laundry access formed on a front panel of the casing where the door capable of be opened is installed; the window gasket comprises: an inner lip sealing at the outer cylinder, a fold extending forward from the inner lip, a rib extending inward from the inner lip along a radial direction, at which a vent is opened, and a cavity formed between the rib and the fold.
4. The drum washing machine according to claim 3, wherein the window gasket comprises: a blocking portion extending rearward which is provided at an inner end of the rib and is configured to prevent air from flowing into via a gap between the rib and the front flange.
5. The drum washing machine according to claim 4, wherein the inner cylinder front flange comprises: an inner cylinder edge extending toward the laundry access, an outer flange provided at a front end of the inner cylinder edge; and a rear part of the blocking portion is located at the outside of the outer flange.
6. The drum washing machine according to claim 5, wherein the blocking portion has a curving surface extending along a rearward-backward direction from the rib.
7. The drum washing machine according to claim 3, wherein the fold has a first inclined portion extending forward from the inner lip and a second inclined portion which is bent and extends from a front end of the first inclined portion toward the inner end of the rib.
8. The drum washing machine according to claim 7, wherein the drum washing machine comprises: a guiding portion extending along a forward-outward direction which is provided at the rib and is in parallel with the second inclined portion.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) Various aspects of this disclosure may be better understood upon reading the following detailed description and upon reference to the drawings in which:
(2) FIG. 1 is a perspective view of a drum washing machine according to one aspect of the present invention;
(3) FIG. 2 is a partial enlarged view of FIG. 1;
(4) FIG. 3 is a partial enlarged view of a window gasket shown in FIG. 2;
(5) FIG. 4 is a partial enlarged view of an inner cylinder front flange shown in FIG. 2;
(6) FIG. 5 is a main view of the inner cylinder front flange;
(7) FIG. 6 is an enlarged cross-section view of the FIG. 5 along line A-A;
(8) FIG. 7 is an enlarged view of an area B of the FIG. 5.
DETAILED DESCRIPTION OF SPECIFIC EMBODIMENTS
(9) One or more specific embodiments will be described below. In an effort to provide a concise description of these embodiments, not all features of an actual implementation are described in the specification.
(10) In the description of the present invention, it should be noted that the orientation or positional relationship defined by the terms “inner”, “upper”, “lower”, “left”, “right”, etc. is based on the positional relationship shown in one of more of the drawings in an effort to provide a concise description, which is not to be construed that the device or the elements should have specified orientation or be operated along a specified orientation. Moreover, it should be understood that the terms “first”, “second” and “third” are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
(11) A drum washing machine according to the present invention is shown in FIGS. 1 to 7. As shown in FIG. 1, the drum washing machine comprises a casing 1 within which an outer cylinder 2 and an inner cylinder 3 are disposed. Both of a laundry access and a door 4 configured to open or close the laundry access are provided on a front panel of the casing 1. A window gasket 5 for sealing is provided between the laundry access and the outer cylinder 2. The door 4, together with the window gasket 5, seals the laundry access as being closed. As shown in FIG. 2, the inner cylinder 3 has a cylindrical inner cylinder body 31 and an inner cylinder front flange 32 provided at a front end of the inner cylinder body 31. A plurality of vents 541 are opened on the window gasket 5 thereby allowing air to flow through the inner surface of the window gasket 5. The airflow passing through the inner surface of the window gasket 5 backwardly enters into a space between the outer cylinder 2 and the inner cylinder 3 which is particularly enclosed by the inner cylinder front flange 32 and the outer cylinder 2 through the vent 541. As shown in FIG. 4 and
(12) FIG. 5, the inner cylinder front flange 32 is provided with one or more flow guiding structures 323 which extend forward and protrude from the inner cylinder front flange 32. The flow guiding structure 323 is configured to introduce air between the inner cylinder front flange 32 and the outer cylinder 2 to move to the inside of the inner cylinder 3; that is to say to introduce air in front of the inner cylinder front flange 32 to the back side of the inner cylinder front flange 32.
(13) When the drum washing machine enters into a spin phase to dewater, the inner cylinder 3 will rotate at a very high speed. With the configuration of disposing the flow guiding structure 323 on the inner cylinder front flange 32 and opening the vent 541 on the window gasket 5, air in front of the inner cylinder front flange 32 could be introduced to the back side of it, namely to the inside of the inner cylinder 3, and a negative pressure space could be created between the inner cylinder front flange 32 and the outer cylinder 2, and additionally, air around the window gasket 5 could enter into the space between the inner cylinder front flange 32 and the outer cylinder 2 through the vent 541 to create a high volume airflow circulating around the inner surface of the window gasket 5 to dry it quickly. The air circulation among the flow guiding structure 323, the window gasket 5 and the vent 541 could speed up drying time, prevent the breeding of bacteria and eliminate the odor.
(14) Referring to FIG. 2 and FIG. 7, one or more guiding hole 3231 are opened on a windward surface of the flow guiding structure 323, with which when the drum washing machine enters into a spin phase and the inner cylinder 3 rotates at a high speed wind resistance on the windward surface is relatively enforced so as to increase air flowing into the inner cylinder 3 through the guiding hole 3231 to be favorable for creating the negative pressure space between the inner cylinder front flange 32 and the outer cylinder 2. Preferably, a plurality of flow guiding structures 323 are evenly disposed circumferentially around the inner cylinder front flange 32 on one side close to the inner cylinder body 31. Due to the fact that the farther a point away from the axis the greater the linear velocity when the inner cylinder 3 rotates, the arrangement of the flow guiding structures 323 on the side of the inner cylinder front flange 32 close to the inner cylinder body 31 could increase the velocity at the flow guiding structure, so that it is beneficial in speeding up the airflow through the flow guiding structures 323, the overall air circulation and the drying process. Additionally, both of the evenly distribution of the flow guiding structures 323 on the circumference of the inner cylinder front flange 32 and the vents 541 are advantageous for creating an evenly distributed airflow on the inner surface of the window gasket 5 so as to carry away the moisture thereon and further speed up the drying process.
(15) As shown in FIG. 6, a flow guiding structure 323 has a first end surface 3232 and a second end surface 3233 which protrude forward and are inclined toward each other. The projection of an intersection line between the first end surface 3232 and the second end surface 3233 onto the inner cylinder front flange 32 is coincides a radius of the inner cylinder front flange 32. The first end surface 3232 and the second end surface 3233 protrude forward from the inner cylinder front flange 32, that is to say enter into the space between the outer cylinder 2 and the inner cylinder front flange 32. The inner cylinder 3 is typically arranged to rotate counterclockwise in the spin phase and the first end surface 3232 serves as the windward surface of the flow guiding structure 323. The guiding hole 3231 could be opened on the first end surface 3232 to allow air to enter into the inner cylinder 3. The inverted V-shaped connection of the inclined first end surface 3232 and second end surface 3233 could ensure air between the outer cylinder 2 and the inner cylinder front flange 32 enter into the inner cylinder 3 while controlling wind resistance thereon at an acceptable level.
(16) Referring to FIG. 3, a window gasket 5 preferably includes an outer lip 51 sealing at the laundry access, an inner lip 52 sealing at the outer cylinder 2, a fold 53 extending forward from the inner lip 52, a rib 54 extending inward from the inner lip 52 along a radial direction and a connecting portion 55 between the outer lip 51 and the fold 53 which extends along an axis direction. A cavity 56 is formed between the rib 54 and the fold 53, within which the residual water on the window gasket 5 mainly remain. The vent 541 is preferably opened at the rib 54. With these configurations, when the drum washing machine enters into a spin phase to dewater and the inner cylinder 3 rotates at a high speed, for one aspect, the first end surface 3232 is the windward surface and the air between the inner cylinder front flange 32 and the outer cylinder 2 enters into the inner cylinder 3 via the guiding hole 3231 on the first end surface 3232 to create negative pressure in the space between the inner cylinder front flange 32 and the outer cylinder 2, and for another aspect air within the cavity 56 also enters into the space between the inner cylinder front flange 32 and the outer cylinder 2 via the vent 541 and a negative pressure environment also be created within the cavity 56 as the air flowing out; air also could enter into the cavity 56 through an inlet of the cavity which is formed between the rib 54 and the fold 53 so that an air circulation path could be formed among the flow guiding structure 323, the cavity 56 and the vent 541 to dry the residual water on inner wall of the cavity 56.
(17) As shown in FIG. 3, a blocking portion 542 extending rearward is provided at an inner end of the rib 54, which is configured to prevent air from flowing into the space between the inner cylinder front flange 32 and the outer cylinder 2 via a gap between the rib 54 and the inner cylinder front flange 32, to ensure that the circulated air could flow through the inner surface of the window gasket 5 and enter into the space between the inner cylinder front flange 32 and the outer cylinder 2 merely via the vent 541 and the volume of air flowing through the window gasket 5 is sufficient to dry the window gasket 5 at a short time period.
(18) As shown in FIG. 4, the inner cylinder front flange 32 is preferably provided with an inner cylinder edge 321 extending toward the laundry access, and an outer flange 322 is provided at a front end of the inner cylinder edge 321 and a rear part of the blocking portion 542 is located at the outside of the outer flange 322. Since the inner cylinder 3 is a rotating component but the window gasket 5 is a fixed component, the blocking portion 542 and the outer flange 322 could not be in close contact with each other. With the arrangement of the rearward extending blocking portion 542 with the rear portion located outside of the outer flange 322, the gap between the rib 54 and the inner cylinder front flange 32 could be blocked to prevent air from flowing through. An inner end surface of the rib 54 is in alignment with the inner cylinder edge 321. Preferably, the blocking portion 542 has a curving surface which is bent along a rearward-backward direction from the inner end of the rib 54 so as to block air while keeping the blocking portion being apart from the outer flange 322.
(19) As shown in FIG. 3, the fold 53 has a first inclined portion 531 extending forward from the inner lip 52 and a second inclined portion 532 which is bent and extends from an front end of the first inclined portion 531 toward the inner end of the rib 54, thereby enclosing the cavity 56 of small top and big bottom within which the residual water may not be volatilized quickly. Hence, a guiding portion 543 extending along a forward-outward direction is provided at the rib 54, which is in parallel with the second inclined portion 532, specifically the forward-outward extending guiding portion 543 is disposed at a position of the rib 54 corresponding to at the entrance of the cavity 56 and has the same inclination direction as the fold 53 at the entrance of the cavity 56, and thereby allowing air to enter into the cavity 56 along an inner wall of the second inclined portion 532 in parallel. The direction of the airflow will be adjusted as flowing at the intersection of the second inclined portion 532 and the first inclined portion 531 and flow to the vent 541 along the first inclined portion 531, and the airflow along the inner wall of the cavity 56 will further improve drying effect on the window gasket 5.
(20) The specific embodiments described above have been shown by way of example, and it should be understood that these embodiments may be susceptible to various modifications and alternative forms. It should be further understood that the claims are not intended to be limited to the particular forms disclosed, but rather to cover all modifications, equivalents, and alternatives falling within the spirit and scope of this disclosure.
