KR20170060151A - Washing machine - Google Patents

Abstract

And more particularly, to a washing machine capable of improving detergency while preventing damage to laundry. The washing machine (1) comprises a washing tub (4) for containing the laundry (S); A pumping channel 20 which is pumped at the inlet 25 by the water accumulated in the washing tub 4 and is pumped up through the flow channel 26 and discharged from the outlet 22 into the washing tub 4; A closing member 27 closing the upper end of the flow passage 26; And an impeller (13) for sending the water accumulated in the washing tub (4) to the inlet (25) through rotation; . The outlet 22 is in the form of a vertically elongated slit. The impeller 13 is installed on the bottom portion 4D of the washing tub 4 so as to be separated from the laundry S.

Description

Washing machine {WASHING MACHINE}

The present invention relates to a washing machine.

In the washing machine disclosed in Patent Document 1 below, a washing blade is rotatably installed on the bottom of an inner tank for receiving laundry, and an inner tub and a case are provided inside the inner tub. When the laundry blade rotates, the washing water is pumped up through the water receiving portion of the inner case and the water passage of the passage case, and is then discharged into the inner tub and sprayed onto the laundry. Thereby washing the laundry.

In the washing machine disclosed in the following Patent Document 2, a pulsator is provided on the inner bottom of the washing and dewatering tank, and a laundry-setting net is installed at an intermediate position in the height direction in the washing and dewatering tank.

Prior art literature

Patent literature

Patent Document 1: JP-A-8-309090

Patent Document 2: JP-A-10-235076

In the washing machine of Patent Document 1, there is a problem that the rotating laundry wing rubs the laundry to damage the laundry. Also, in the configuration in which the washed laundry is simply sprayed on the laundry, there is a limit to improve the washing ability of the laundry.

The washing machine of Patent Document 2 is separated from the pulsator by allowing the laundry to be disposed in the laundrette. This eliminates the problem that the rotating pulsator rubs the laundry and damages the laundry. However, since only the area above the nets for laundering is accommodated in the space for accommodating the laundry in the washing and dewatering tank, the capacity of the washing and dewatering tank is reduced. In this case, there is a risk that the laundry can not be sufficiently stirred in the washing and dewatering tank, so that there is a limit in improving the washing ability of the laundry.

An object of the present invention is to provide a washing machine which is capable of improving detergency while preventing damage to laundry.

The present invention relates to a washing machine, and more particularly, to a washing machine which accommodates laundry and accumulates water. A slit-shaped outlet vertically elongated at a position higher than the inlet, and a flow path extending from the inlet to the outlet, wherein the water accumulated in the washing tub is pumped at the inlet A pumping water path that is pumped up through the flow path and discharged from the outlet into the washing tub; A closure member installed in the pumping channel and blocking the upper end of the channel; An impeller installed at a bottom portion of the washing tub so as to be spaced apart from the laundry and sending water accumulated in the washing tub to the inlet through rotation; And a control unit.

According to another aspect of the present invention, there is provided a washing machine, comprising: a separating member, wherein the separating member is installed in a bottom portion of the washing tub and is divided into a first space in which laundry is disposed and a second space in which the impeller is disposed .

Further, the closing member of the present invention is characterized by being located at the upper end of the outlet.

Further, the washing tub of the present invention is a cylindrical washing tub having a longitudinally extending axis, and the outlet of the pumping water channel is deviated toward the circumferential direction with respect to the center of the inlet in the circumferential direction of the washing tub do.

Further, the outlet of the present invention is characterized in that it is arranged to face the circumferential direction.

Further, the outlet of the present invention is characterized in that it is disposed on both sides in the circumferential direction in the pumping water channel.

Further, the outlet of the present invention is installed at one side in the circumferential direction in the pumping channel, and the present invention includes an inclined member, and the inclined member is inclined toward the outlet so that the flow path is close to the outlet from the inlet And is narrowed as a result.

According to the present invention, an impeller for sending the water accumulated in the washing tub to the inlet of the pumping channel is installed on the bottom of the washing tub so that the impeller is separated from the laundry. Therefore, even if the impeller rotates to send water, the laundry is not rubbed by the impeller, so that damage of the laundry can be prevented.

In the pumping channel, the upper end of the flow path extending from the inlet to the outlet is clogged by the closure member, and the outlet is in the form of a vertically elongated slit. Thus, the water pumped at the inlet and pumped through the flow path is accelerated and discharged by the longitudinally elongated outlet after the flow direction is changed by the closing member. As a result, the water discharged from the outlet is sprayed in a longitudinally spread band shape in various directions and is strongly sprayed on the laundry in the washing tub, so that the laundry is washed while being stirred in each direction. Therefore, the cleaning ability can be improved.

According to the present invention, since the separating member divides the internal space of the washing tub into the first space in which the laundry is disposed and the second space in which the impeller is disposed, the impeller can be reliably separated from the laundry.

Further, according to the present invention, since the closing member is located at the top of the outlet, the flow direction of the water pumped through the flow path can be changed immediately before reaching the outlet. Thereby, the water discharged from the outlet can be surely injected in various directions.

Further, according to the present invention, the outlet in the pumping channel is arranged so as to be shifted in the circumferential direction with respect to the center of the inlet in the circumferential direction of the washing tub. Thereby, the water pumped at the inlet and changed by the flow pumped through the flow path can be used to inject the pumped water from the outlet into the washing tub. Therefore, the laundry to which the sprayed water is sprayed can be sufficiently agitated and washed effectively.

Further, according to the present invention, since the outlet is disposed toward the circumferential direction, the water pumped through the flow path can be discharged in the circumferential direction at the outlet. Therefore, the laundry in the washing tub can be cleaned while stirring to rotate the laundry in the circumferential direction by the water discharged in the circumferential direction.

According to the present invention, since the outlets are provided on both sides in the circumferential direction in the pumping water channel, the outlet port of the pumping water channel is adapted to correspond to the rotating direction of the washing tub and to change the direction of the water discharged from the outlet, can do. Therefore, since the water discharged from each outlet can be sprayed onto the laundry in the washing tub in various directions, the laundry can be sufficiently agitated and washed effectively in various directions.

According to the present invention, since the outlet is installed on one side in the circumferential direction in the pumping water channel, when a plurality of pumping water channels are arranged side by side in the circumferential direction, the water discharged from the outlet of the adjacent pumping water path collides with each other, ) Can be prevented.

The flow path of the pumping channel is narrowed by the inclined member from the inlet to the outlet. This allows the flow rate of the water pumped from the inlet and pumped through the flow path to accelerate towards the outlet. Thus, the pumped water can be injected more strongly into the washing tub at the outlet. Therefore, the laundry to which the sprayed water is sprayed can be sufficiently agitated and washed effectively.

1 is a longitudinal sectional view of an internal structure of a washing machine according to an embodiment of the present invention.
2 is a perspective view of an impeller included in a washing machine viewed from above.
3 is a perspective view of the impeller viewed from below.
Fig. 4 is a sectional view taken along the line AA of Fig.
5 is a perspective view of the bottom of the washing tub of the washing machine and the pumping water channel as viewed from above.
FIG. 6 is a perspective view of the bottom of the washing tub and the pumping water channel viewed from above, with a view different from FIG. 5;
7 is a sectional view taken along the line BB of Fig.
8 is a longitudinal sectional view of an internal structure of a washing machine according to a modification of the present invention.
9 is a sectional view taken along the CC direction in Fig.
10 is a sectional view taken along the DD direction in Fig.
11 is a longitudinal sectional view of an internal structure of a washing machine according to a second modification of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a longitudinal sectional view of an internal structure of a washing machine according to an embodiment of the present invention.

First, the outline of the washing machine 1 will be described with reference to the vertical direction X in Fig. The upper side is referred to as the upper side X1 and the lower side is referred to as the lower side X2 in the vertical direction X which is the longitudinal direction. In addition, the washing machine 1 further includes a washer dryer having a drying function for the laundry S,

The washing machine 1 includes a washing machine housing 2, an outer tank 3, a washing tub 4, and a motor 5.

The washing machine housing 2 is formed in a box shape. The outer tub 3, the washing tub 4 and the motor 5 are arranged in the washing machine housing 2. [

The outer tub 3 is made of, for example, a resin and is formed into a cylindrical shape having a bottom. The outer tub 3 has a substantially cylindrical circumferential wall 3B having an opening 3A at the upper end and a circular bottom wall 3C covering the hollow portion of the circumferential wall 3B at the lower side X2 . The opening 3A is opened and closed by a cover 6 connected to the circumferential wall 3B. In the outer tank (3), water such as tap water, bath liquid and liquid in which detergent is dissolved accumulates.

The washing tub 4 is formed in a cylindrical shape having a bottom circumference smaller than the outer tub 3 and accommodates the laundry S therein. The washing tub 4 has a substantially cylindrical cylindrical wall 4B having an entrance 4A at the upper end and a circular bottom wall 4C covering the hollow portion of the cylindrical wall 4B at the lower side X2 . For example, the circumferential wall 4B is made of metal, and in the bottom wall 4C, the centrifugal part is made of metal and the outer part is made of resin. In the bottom wall 4C and the circumferential wall 4B, a lower end portion connected to the bottom wall 4C constitutes the bottom portion 4D of the washing tub 4. The washing tub 4 is accommodated in the outer tub 3 in a coaxial state. The washing tub 4 housed in the outer tub 3 can rotate around the central axis 7 extending in the vertical direction X which is the axis thereof. The washing machine 1 is a vertical type washing machine in which the washing tub 4 is arranged in the longitudinal direction.

The entrance 4A is communicated with the opening 3A at the lower side X2 and the opening 3A and the entrance 4A are opened and closed together by the cover 6. [ The user of the washing machine 1 can take out or insert the laundry S from the washing tub 4 through the open entrance 4A. A through hole 4E is formed in each of the circumferential wall 4B and the bottom wall 4C so that the water in the outer tub 3 can flow between the outer tub 3 and the washing tub 4 through the through hole 4E. have. Thus, the washing tub 4 stores water having a water level equal to that of the outer tub 3.

An annular damper 8 is mounted on the upper end of the inner circumferential surface 4F of the circumferential wall 4B. The damper 8 is a member for reducing the vibration when the washing tub 4 rotates, and the hollow 8A inside the damper 8 receives liquid for assisting reduction of vibration.

A concave portion 4G recessed downward is formed on the top surface of the bottom wall 4C. The recess 4G is a vertically flat cylindrical space having a coaxial shape with the bottom wall 4C. The washing tub 4 includes a separating member 9 provided on the bottom portion 4D. The separating member 9 is a disk-shaped cover for covering the concave portion 4G from above, and a plurality of through holes 9A are formed concentrically on the centrifugal side thereof. The separating member 9 separates the inner space 10 of the washing tub 4 into a first space 11 communicating with the entrance 4A and a first space 11 in which the laundry S is disposed and a second space 12).

The motor 5 is disposed on the lower side X2 of the bottom wall 4C of the outer tub 3 in the washing machine housing 2. [ The output shaft of the motor 5 branches to a first output shaft 5A having a tubular shape extending to the upper side X1 and a second output shaft 5B to which the first output shaft 5A is inserted with sufficient space. The motor 5 can selectively output the driving force from the first output shaft 5A or the second output shaft 5B through the transmission mechanism 15. [

The first output shaft 5A extends to the upper side X1 and successively penetrates the centrifugal center of the bottom wall 3C and the centrifugal center of the bottom wall 4C of the washing tub 4. The first output shaft 5A has a flange portion 5C protruding in a hat-like shape between the bottom wall 3C and the bottom wall 4C and the flange portion 5C is fixed to the bottom wall 4C, (4). When the motor 5 is driven and a driving force is transmitted to the first output shaft 5A, the washing tub 4 rotates.

The impeller 13 is mounted on the upper end exposed from the second output shaft 5B to the upper side X1 than the flange portion 5C.

Fig. 2 is a perspective view of the impeller 13 viewed from the upper side X1, and Fig. 3 is a perspective view of the impeller 13 viewed from the lower side X2.

2 and 3, the impeller 13 includes a pair of circular plates 13A arranged in parallel in the vertical direction and a pair of circular plates 13A, And integrally includes a plurality of vanes 13B extending radially as a reference. A circular through hole 13C is formed in the circular plate 13A on the upper side X2 of the pair of circular plates 13A so as to penetrate the circular portion of the circular plate 13A 13A are formed with a plurality of circular through holes 13D surrounding the centrifugal portion (see Fig. 3). Each blade 13B extends straightly from the edge of the through hole 13C toward the edge of the circular plate 13A.

1, the impeller 13 is disposed in the second space 12 (the concave portion 4G of the above-described bottom wall 4C) of the bottom portion 4D of the washing tub 4. The second space 12 is blocked from the first space 11 on the upper side X1 where the laundry S is disposed by the separation member 9 so that the impeller 13 is separated from the laundry S And is disposed on the bottom portion 4D so as to be spaced apart. The water accumulated in the washing tub 4 flows through the pair of circular plates 13A through the through holes 9A of the separating member 9 and the through holes 13C and 13D of the pair of circular plates 13A of the impeller 13, Lt; / RTI >

The upper end of the second output shaft 5B of the motor 5 is mounted on the centrifugal part of the circular plate 13A on the lower side X2. When the motor 5 is driven and a driving force is transmitted to the second output shaft 5B, the impeller 13 rotates. When the impeller 13 rotates, the washing tub 4 is in a stopped state.

4 is a sectional view taken along the line A-A in Fig. In Fig. 4, the above-described separation member 9 is not shown for convenience of explanation. 4, the circumferential direction of the inner circumferential surface 4F of the washing tub 4 is referred to as a circumferential direction Y, and the radial direction of the inner circumferential surface 4F is referred to as a radial direction Z. The circumferential direction (Y) and the radial direction (Z) are both directions along the horizontal direction (H). The clockwise direction when viewed downward in the circumferential direction (Y) is referred to as a clockwise direction (Y1), and the counterclockwise direction as viewed downward is referred to as a counterclockwise direction (Y2). One side toward the center axis 7 in the radial direction Z is referred to as the radially inner side Z1 and one side away from the center axis 7 is referred to as the radially outer side Z2.

A pumping channel (20) is mounted on the inner peripheral surface (4F) of the washing tub (4). The quantity of the pumping channel 20 may be set arbitrarily, and may be a single channel or a plurality of channels. In the present embodiment, three pumping channels 20 of the same shape and the same size are seated on the inner circumferential surface 4F in a state in which they are arranged in the circumferential direction (Y). It should be noted that in FIG. 4, only one pumping channel 20 is shown for convenience of explanation. The spacing between the adjacent pumping channels 20 in the circumferential direction Y may be fixed or may vary depending on the different pumping channels 20 between all two of the pumping channels 20. The following describes the details of the pumping channel 20 based on the state of being mounted on the washing tub 4.

The pumping channel 20 includes a body portion 21 made of resin. The body portion 21 has a shape of a long cover in the vertical direction X and is interposed between the damper 8 and the bottom wall 4C of the washing tub 4 and extends in the vertical direction from the radially inner side Z1 And is seated on the inner circumferential surface 4F of the washing tub 4. The body portion 21 has a back surface 21A facing the inner circumferential surface 4F of the washing tub 4 and a surface 21B facing the one side of the central axis 7 lying on the opposite side of the back surface 21A .

5 and 6 are perspective views of the bottom portion 4D of the washing tub 4 and the pumping water passage 20 viewed from the upper side X1 at different times. 5 and 6, both end portions in the circumferential direction Y of the body portion 21 are bent at almost the entire region of the up-and-down direction X in the radially outward direction Z2, ). Each bent portion 21C is formed so as to be inclined with respect to each of the circumferential direction Y and the radial direction Z and the surface 21B of each bent portion 21C is in the state of being oriented in the circumferential direction Y. [ In addition, the upper end portion 21D of the body portion 21 is curved toward the radially outer side Z2 and is straddled between the bent portions 21C on both sides.

The vertically elongated slit-shaped outlet 22 is formed in each bent portion 21C. In other words, the outlets 22 are installed on both sides of the circumferential direction Y in the pumping channel 20. For example, two outlets 22 are arranged side by side in the vertical direction X on each of the bent portions 21C, and the bent portions 21A and 21B are exposed on both sides of the back surface 21A and the surface 21B of the body portion 21, 21C. Each outlet 22 is disposed in the circumferential direction Y at the surface 21B of the bent portion 21C (see Fig. 4).

The lower side X2 of the outlet 22 located on the upper side X1 and the lower side X2 of the outlet 22 located on the upper side X1 between the upper and lower adjacent outlets 22 in the bent portions 21C respectively have a radius And the projections 23 extending in the direction inner side Z1 are integrally provided. The protrusion 23 protrudes radially inwardly from the surface 21B of the body portion 21. As shown in Fig. 6, a threaded hole 23A is formed in the end face of the radially outer side Z2 of the projection 23. The threaded hole 23A is also formed in the upper end 21D of the body portion 21. [ A screw (not shown) inserted at the radially outer side Z2 of the washing tub 4 is assembled in the screw hole 23A to fix the pumping channel 20 to the washing tub 4.

The threaded hole 23A in the back surface 21A of each bent portion 21C is disposed on the outer side closer to the circumferential direction Y than the outlet 22. [ Ribs 21E projecting radially outwardly Z2 and extending linearly along the vertical direction X are provided on both sides of the circumferential direction Y on the back surface 21A of the body portion 21 . The rib 21E is formed in a relatively thin plate shape in the circumferential direction Y. The rib 21E is formed in the bent portion 21C between the screw hole 23A and the outlet 22 in the circumferential direction Y, 21D to the lower side X2. The rib 21E is disposed adjacently to the outlet 22 so as to surround the outskirts in the circumferential direction Y from the outlet 22.

7 is a sectional view taken along the line B-B in Fig. Referring to FIG. 7, an inlet member 24 is integrally provided at the lower end of the rear surface 21A of the body portion 21. As shown in FIG. The inlet member 24 is formed in a substantially U-shaped bent plate bulging toward the radially outer side Z2 when viewed downward (see FIG. 4). The width of the inlet member 24 in the circumferential direction Y is gradually narrowed toward the upper side X1. The lower portion 24A of the inlet member 24 is disposed so as to protrude further downward than the lower end of the body portion 21. [ The region surrounded by the approximately U-shaped lower portion 24A is the inlet 25 of the pumping channel 20. The inlet 25 is at a lower position than the outlet 22 in the pumping channel 20. All the outlets 22 in each pumping channel 20 are arranged to be shifted in the circumferential direction Y with respect to the center 25A of the inlet 25 in the circumferential direction Y. [

The bottom wall 4C of the washing tub 4 is formed with a number of bosses 4H recessed in the radially outer side Z2 from the second space 12 in which the impeller 13 is disposed by the number of the pumping channels 20 5), the bulky 4H can accommodate the inlet member 24 of any pumping channel 20. The inlet 25 is located at the bottom portion 4D of the washing tub 4 and in the state of communicating with the second space 12 at the radially outer side Z2 in the state where the pumping channel 20 is mounted on the washing tub 4, (See FIG. 5).

On the back surface 21A of the body portion 21, a flow path 26 is provided. The flow path 26 is a space of a long length surrounded by the two side ribs 21E in the circumferential direction Y in the circumferential direction Y of the rear face 21A and extending vertically And is clogged at the radially outer side Z2 by the inner circumferential surface 4F. The lower end of the flow passage 26 is surrounded by the back surface 21A of the body portion 21 and the inlet member 24 in the radial direction Z. [ The flow passage 26 extends upward from the inlet 25 to the outlet 22 so as to communicate with the inlet 25 at the lower end and with the outlet 22 at the upper end.

A closure member 27 is integrally provided on an upper portion of the back surface 21A of the body portion 21 (see Fig. 6). The closing member 27 is formed in a plate shape extending in the thin horizontal direction H in the vertical direction X and is interposed between the ribs 21E on both sides of the body portion 21. [ The closing member 27 is located at the upper end of the uppermost outlet 22 of each bent portion 21C. The lower surface 27A of the closing member 27 is flat in the horizontal direction H and the upper end of the flow path 26 is closed at the upper side X1 by the lower surface 27A of the closing member 27. [ Therefore, the upper end of the flow path 26 is at the end.

1, when the impeller 13 rotates, the water accumulated in the bottom portion 4D of the washing tub 4 flows into the inlet 25 of each pumping channel 20 by the impeller 13B of the impeller 13 And is pumped into the flow passage 26 at the inlet 25. [ The water pumped into the flow path 26 is pumped up to the outlet 22 of the upper side X1 through the flow path 26 and discharged into the washing tub 4 at each outlet 22 as indicated by a thick arrow.

As described above, the upper end of the flow path 26 extending from the inlet 25 to the outlet 22 in the pumping channel 20 to the upper side X1 is blocked by the closing member 27 as shown in Fig. 7 , And the outlet 22 is a vertically long slit shape. Thus, the water pumped at the inlet 25 and pumped through the flow path 26 is accelerated and discharged by the longitudinally elongated outlet 27 after the flow direction is changed by the closing member 27.

The outlet 22 on the downstream side of the both side outlets 22 of the pumping channel 20 in the circumferential direction Y in the rotational direction of the impeller 13 is referred to as a downstream side outlet 22A and the outlet 22 on the upstream side 22 is referred to as an upstream-side outlet 22B. Hereinafter, the phenomenon that water is discharged from the outlet 22 will be described in detail. In Fig. 7, the right outlet 22 is regarded as the downstream side outlet 22A, and the left outlet 22 is regarded as the upstream side outlet 22B.

When the impeller 13 rotates in the clockwise direction Y1, the water pumped in the flow path 26 of the pumping channel 20 rises in the clockwise direction Y1. The water that has reached the downstream side outlet 22A before reaching the closing member 27 flows upward from the downstream side outlet 22A toward the clockwise direction Y1 in a state in which the flow velocity is accelerated by the downstream side outlet 22A And is strongly ejected in an oblique direction (see a thick solid arrow).

On the other hand, the water hitting the closing member 27 is rebounded downwardly in the counterclockwise direction Y2 by the closing member 27 and reaches the upstream outlet 22B. Since the closing member 27 is positioned at the upper end of the outlet 22 as described above, the flow direction of the water pumped through the flow path 26 can be changed before arriving at the upstream outlet 22B. The water arriving at the closing member 27 is strongly discharged in a direction inclined downward from the upstream outlet 22B toward the counterclockwise direction Y2 with the flow velocity being accelerated by the upstream outlet 22B See the dotted arrow).

Further, when the impeller 13 rotates in the counterclockwise direction Y2, there is a phenomenon that the impeller 13 is opposite to the case where the impeller 13 rotates in the clockwise direction Y1. In other words, when the positions of the downstream-side outlet 22A and the upstream-side outlet 22B in the circumferential direction Y are changed, the water pumped in the flow passage 26 flows counterclockwise from the downstream-side outlet 22A Y2, and is strongly ejected from the upstream-side outlet 22B in a direction inclined downward toward the clockwise direction Y1 (not shown).

According to the present invention, since the outlets 22 are provided on both sides of the circumferential direction Y in the pumping channel 20, the outlets 22 of the two outlets 22 22 and the outlet 22 on the other side, the direction of the water discharged from the outlet 22 can be changed. The water discharged from each outlet 22 is sprayed in a longitudinally spreading band shape in various directions and is sprayed strongly on the laundry S in the washing tub 4 so that the laundry S is agitated in various directions . Therefore, the cleaning ability can be improved. In addition, the flow of water discharged from the outlet 22 can be complicated as compared with the case where the vertically elongated outlet 22 is horizontally elongated.

As described above, the outlet 22 in each pumping channel 20 is arranged to be shifted in the circumferential direction Y with respect to the center 25A of the inlet 25 in the circumferential direction Y. Thereby, the water pumped at the inlet 25 can be changed and the water pumped up through the flow path 26 can be changed so that the pumped water can be jetted strongly from the outlet 22 into the washing tub 4. Therefore, the laundry S to which the sprayed water is sprayed can be sufficiently agitated and cleaned effectively.

All the outlets 22 are disposed in the circumferential direction Y so that the water pumped through the flow path 26 can be discharged in the circumferential direction Y from the outlet 22. [ The laundry S of the washing tub 4 can be cleaned while being stirred to rotate in the circumferential direction Y by the water discharged in the circumferential direction Y. [

As described above, the impeller 13 in the washing machine 1 is installed separately from the laundry S at the bottom portion 4D of the washing tub 4, as shown in Fig. Particularly, since the separating member 9 divides the internal space 10 of the washing tub 4 into the first space 11 in which the laundry S is disposed and the second space 12 in which the impeller 13 is disposed It is possible to reliably separate the impeller 13 from the laundry S. Therefore, even if the impeller 13 rotates to convey water, the laundry S is not rubbed by the impeller 13, so that the laundry S can be prevented from being damaged.

The impeller 13 can be rotated at a high speed through the structure for isolating the impeller 13 from the laundry S via the separating member 9 so that the impeller 13 is pushed up in the flow path 26 of the pumping channel 20 It is possible to sufficiently agitate the laundry S by increasing the energy of the water and spraying the water more strongly into the washing tub 4 from the outlet 22. The second space 12 is a narrow recess 4G formed in the bottom wall 4C of the washing tub 4 so that the first space 11 (the capacity of the laundry S) As much as possible.

As described above, the washing machine 1 uses the strong and complicated flow of the water discharged from the pumping channel 20 of the simple structure rather than the conventional pulsator, so that the laundry S is rubbed and damaged Exercise to clean. As a result, the laundry S can be effectively cleaned while preventing the laundry S from being damaged. In addition, since water in the washing tub 4 is circulated through the flow path 26 of the pumping channel 20 and repeatedly used for washing, washing with less water is also possible.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the claims.

8 is a longitudinal sectional view of an internal structure of a washing machine according to a modification of the present invention. In FIG. 8, for convenience of explanation, the above-described separation member 9 is omitted. 9 is a sectional view taken along the line C-C in Fig. 10 is a sectional view taken along the line D-D in Fig.

For example, in the above embodiment, the outlet 22 is provided on both sides of the circumferential direction Y in each pumping channel 20, but the outlet 22 is different from the first modification shown in Figs. 8 to 10 Likewise, it may be provided only on one side in the circumferential direction (Y). In this case, the bending portion 21C on one side where the outlet 22 is omitted from the body portion 21 of the pumping channel 20 is bent in the up and down direction so as to approach the outlet 22 when viewed from the radially inner side Z1 X) of the slant member 40. [0053]

The outlet 22 is installed on one side of the pumping channel 20 in the circumferential direction Y so that the outlet 22 of the adjacent pumping channel 20 can be connected to the pumping channel 20 when the plurality of pumping channels 20 are arranged side by side in the circumferential direction Y. [ It is possible to prevent the water ejected from the ink jet head from colliding with each other and losing energy. Of course, in this case, the outlet 22 in each pumping channel 20 needs to be provided on the same side.

The flow path 26 of the pumping channel 20 becomes narrower from the inlet 25 to the outlet 22 by the inclined member 40 as shown in Fig. Whereby the flow rate of the water pumped through the inlet 25 and pumped through the flow path 26 can be accelerated toward the outlet 22. [ Thus, the pumped water can be injected more strongly into the washing tub 4 at the outlet 22. Therefore, the laundry S to which the sprayed water is sprayed can be sufficiently agitated and cleaned effectively.

Specifically, when the impeller 13 rotates in the counterclockwise direction Y2 and the outlet 22 is the downstream outlet 22A in FIG. 10, the water pumped through the flow passage 26 is supplied to the closing member 27 In the counterclockwise direction Y2 from the downstream-side outlet 22A (see a thick solid line arrow). On the other hand, when the outlet 22 shown in FIG. 10 is the upstream side outlet 22B, the water pumped through the flow path 26 strikes the closing member 27, And is strongly ejected in a downwardly inclined direction toward the clockwise direction Y2 (see a thick dashed line arrow).

11 is a longitudinal sectional view of an internal structure of a washing machine according to a second modification of the present invention. 11, when the outlet 22 is provided on one side of the pumping channel 20 as in the first modification, the separating member 9 may be omitted and the impeller 13 may be replaced with a pulsator 45 may be provided. The rear wings 45A corresponding to the wings 13B of the impeller 13 are provided on the lower surface of the pulsator 45. When the pulsator 45 rotates, the rear wings 45A are stored in the washing tub 4 And sends the water to the inlet 25 of the pumping channel 20.

It is preferable that the pulsator 45 is rotated at a lower speed than the impeller 13 so as not to damage the laundry S because the pulsator 45 contacts the laundry S of the washing tub 4. [ In this case, the laundry S is agitated by the water (see a thick solid line) discharged from the pumping channel 20 in addition to being smoothly stirred by the pulsator 45 rotating at low speed. As a result, the laundry S can be effectively cleaned while preventing the laundry S from being damaged by the pulsator 45. Of course, the outlet 22 may be provided on both sides of the pumping channel 20 as shown in Fig.

The main body 21 of the pumping channel 20 is in the form of a cover and the flow path 26 is formed in the rear surface 21A of the body portion 21 and the pair of ribs 21 of the rear surface 21A, And the inner circumferential surface 4F of the inner circumferential surface 4F. In other words, the flow path 26 is strictly constituted by the cooperation of the pumping channel 20 and the inner peripheral surface 4F of the washing tub 4. Alternatively, the body portion 21 is a hollow body, and the hollow portion constitutes the flow path 26, so that the pumping path 20 may constitute the flow path 26 alone.

1: Washing machine 4: Washing machine
4D: bottom part 7: center axis
9: separating member 10: inner space
11: first space 12: second space
13: impeller 20: pumping channel
22: exit 25: entrance
25A: center 26:
27: closing member 40: inclined member
S: Laundry X1: Upper side
Y: circumferential direction

Claims (7)

A washing tub for containing laundry and accumulating water;
A slit-shaped outlet vertically elongated at a position higher than the inlet, and a flow path extending from the inlet to the outlet, wherein the water accumulated in the washing tub is pumped at the inlet A pumping water path that is pumped up through the flow path and discharged from the outlet into the washing tub;
A closure member installed in the pumping channel and blocking the upper end of the channel; And
An impeller installed at a bottom portion of the washing tub so as to be spaced apart from the laundry and sending water accumulated in the washing tub to the inlet through rotation; Wherein the washing machine comprises a washing machine. The method according to claim 1,
Wherein the washing machine includes a separating member installed at a bottom of the washing tub and dividing an inner space of the washing tub into a first space in which laundry is disposed and a second space in which the impeller is disposed. 3. The method according to claim 1 or 2,
Wherein the closing member is located at the top of the outlet. 4. The method according to any one of claims 1 to 3,
Wherein the washing tub is a cylindrical washing tub having an axis extending in the longitudinal direction,
Wherein in the pumping channel, the outlet is deviated toward the circumferential direction with respect to the center of the inlet in the circumferential direction of the washing tub. 5. The method of claim 4,
And the outlet is disposed to face the circumferential direction. The method according to claim 4 or 5,
And the outlet is disposed on both sides in the circumferential direction in the pumping water channel. The method according to claim 4 or 5,
Wherein the outlet is installed at one side in the circumferential direction in the pumping channel,
Wherein the washing machine includes an inclined member that is inclined to approach the outlet and narrows as the flow path approaches the outlet from the inlet.

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