CN217459962U - Put in box and have its put in assembly, clothing treatment facility - Google Patents

Abstract

The utility model discloses a put in box and have its input assembly, clothing treatment facilities, it has outage and through-hole to put in the box, the part that is equipped with overflow channel and overflow channel in the through-hole is located the top of through-hole, inject the outage that communicates with the outage between the periphery wall of overflow channel and the internal perisporium of through-hole, when the liquid level in outage is higher than predetermineeing the height, the part that liquid in the outage is higher than predetermineeing the height is suitable for getting into in the overflow channel and discharges, the high least part at the opening border of putting in box is minimum border, wherein predetermine the height that highly is less than minimum border. According to the utility model discloses a put in the box, the box is put in the high least part outflow of liquid through the opening border of putting in the box in can avoiding the flowing of liquid and the risk that leads to the fact the short circuit with the contact of power consumption device to the liquid that can avoid overflowing flows to the subaerial risk that causes the user to slip, does benefit to the security that promotes clothing treatment facility.

Description

Put in box and have its put in assembly, clothing treatment facility

Technical Field

The utility model belongs to the technical field of the domestic appliance technique and specifically relates to a put in box and have its put in assembly, clothing treatment facility.

Background

With the improvement of the living standard of people, clothes treatment equipment such as a washing machine has become an important living electric appliance in daily life. Among them, the functions of the washing machine are increasing with the continuous development of the industry. In the related art, it is common to put washing articles such as washing powder or laundry detergent into a throwing box and release the washing articles into a washing machine through the throwing box, but in the process of water inflow, for example, the water amount increases to cause the water level in the throwing box to rise and then easily overflow through an opening of the throwing box, with the risk of short circuit of a circuit, and the water is sprinkled on the ground or will cause the risk of slipping of a user.

SUMMERY OF THE UTILITY MODEL

The invention provides a throwing box which has the advantage of improving the use safety of clothes treatment equipment.

The invention further provides a throwing assembly with the throwing box.

The invention also provides a clothes treatment device with the feeding assembly.

According to the utility model discloses put in box of first aspect embodiment, it has flowing back district and through-hole to put in the box, be equipped with overflow channel in the through-hole just overflow channel's part is located the top of through-hole, overflow channel's periphery wall with inject between the internal perisporium of through-hole with the flowing back passageway of flowing back district intercommunication when the liquid level of flowing back district is higher than and predetermines the height, liquid in the flowing back district is higher than predetermine the high part and be suitable for the entering the overflow channel is interior and discharge, the high minimum part at opening border of putting in box is minimum border, wherein predetermine highly being less than the height at minimum border.

According to the utility model discloses put in box of first aspect embodiment, the processing production degree of difficulty is low, the high least part at the opening border of putting in the box is minimum border, predetermine the height that highly is less than minimum border, when the liquid level at the outage is higher than predetermineeing the height, the part that liquid in the outage is higher than predetermineeing the height can discharge through overflow channel, can avoid the liquid in the outage to flow out through the least part of the height at the opening border of putting in the box betterly and put in the box, thereby can avoid liquid outflow and the risk that the electric installation contact caused the short circuit betterly, and can avoid the liquid that spills over to flow to subaerial risk that causes the user to slide better, do benefit to the security that promotes clothing treatment facility.

According to some embodiments of the utility model, put in the box and be formed with the inlet opening, the inlet opening with minimum border is located put in the relative both sides of box, overflow channel is located the inlet opening with between the minimum border, and relative the inlet opening overflow channel is more adjacent minimum border.

According to some embodiments of the invention, the drainage channel extends along a circumference of the overflow channel, the drainage channel surrounding the overflow channel at a circumferential angle not less than 180 °.

According to the utility model discloses a some embodiments, put in the box and include: the through hole is formed in the box body; the overflow baffle is arranged on the through hole, the part of the overflow baffle is positioned above the through hole, the overflow baffle is limited in the overflow channel or the overflow baffle is limited in the overflow channel between the inner peripheral walls of the through hole, the overflow baffle is limited in the liquid discharge area and communicated with the liquid discharge area together with the connection area of the overflow channel, the connection area is positioned above the overflow baffle, and the height of the lowest position of the upper end surface of the overflow baffle is formed into the preset height.

According to some embodiments of the invention, the overflow barrier extends along a circumference of the through hole.

According to some embodiments of the invention, the overflow baffle is connected to the circumferential wall of the box body.

According to some embodiments of the invention, a portion of the peripheral wall of the box body between the two ends in the circumferential direction of the overflow barrier constitutes a part of the peripheral wall of the overflow channel.

According to the utility model discloses a some embodiments, the diapire of flowing back district is formed with the water conservancy diversion face, the water conservancy diversion face by the outer border of flowing back district extremely the slope downwardly extending in the direction of through-hole, the through-hole form in the lowest position of the diapire of flowing back district.

According to the utility model discloses put in assembly of second aspect embodiment, include: in the throwing box, a mounting opening is formed on the throwing box, and the edge of the mounting opening forms the lowest edge; the distributor is arranged in the dispensing box in a drawing mode along the mounting opening, the liquid discharge area is at least partially positioned below the distributor when the distributor is positioned in the dispensing box, and the distributor is suitable for distributing lotion or lotion-water mixed liquid to the liquid discharge area.

According to the utility model discloses put in assembly of second aspect embodiment, the processing production degree of difficulty of putting in the box is low, the border of the installing port of putting in the box constitutes minimum border, predetermine the height that highly is less than minimum border, when the liquid level in the flowing back district is higher than predetermineeing the height, the part that liquid in the flowing back district is higher than predetermineeing the height can discharge through overflow channel, can avoid the border outflow of the liquid in the flowing back district through the installing port to put in the box better, thereby can avoid liquid outflow and the risk that the electric installation contact caused the short circuit better, and can avoid the liquid that spills over to flow to subaerial risk that causes the user to slip better, do benefit to the security that promotes clothing treatment facility.

According to the utility model discloses a some embodiments, the clothing treatment facility includes the urceolus and locates inner tube in the urceolus, the urceolus with inject between the inner tube and hold the chamber, be equipped with drainage component on the urceolus, put in the assembly and include: an overflow pipe connected to the through hole, the overflow pipe having a first channel and a second channel therein, the first channel being adapted to communicate the overflow channel and the receiving cavity; the liquid outlet pipe is connected to the second channel, the second channel is communicated with the liquid discharge channel and the liquid outlet pipe, and the liquid outlet pipe is suitable for being communicated with the inner barrel.

According to the utility model discloses a some embodiments, the second passageway is including the first intercommunication section and the second intercommunication section of intercommunication, first intercommunication section is around the periphery side of first passageway, first intercommunication section connect in the through-hole, second intercommunication section connect in the radial outside of first intercommunication section, the drain pipe with second intercommunication section is connected.

According to some embodiments of the utility model, the first passageway includes third intercommunication section and the fourth intercommunication section of intercommunication, the third intercommunication section connect in overflow channel and with the overflow channel intercommunication, first intercommunication section centers on the periphery side of third intercommunication section, at least part of fourth intercommunication section is the U-shaped.

According to some embodiments of the present invention, a liquid replenishing hole communicating the third communicating section with the first communicating section is formed on a peripheral wall of the third communicating section.

According to some embodiments of the invention, the overflow pipe is plugged into the through hole; and/or the liquid outlet pipe is inserted in the second channel.

According to some embodiments of the invention, at least a portion of at least one of the outlet tube and the overflow tube is U-shaped.

According to some embodiments of the present invention, at least a portion of the first passage is U-shaped, and a fluid replenishing hole communicating the first passage and the second passage is formed in a peripheral wall of the first passage.

According to some embodiments of the invention, the flow area of the fluid infusion hole is smaller than the flow area of the fluid drainage channel.

According to the utility model discloses clothes treatment equipment of third aspect embodiment includes: the releasing assembly is arranged.

According to the utility model discloses clothing treatment facility of third aspect embodiment, the processing production degree of difficulty of puting in the box is low, the border of the installing port of puting in the box constitutes minimum border, predetermine the height that highly is less than minimum border, when the liquid level in the flowing back district is higher than predetermineeing the height, liquid in the flowing back district is higher than the part of predetermineeing the height and can pass through overflow channel and discharge, can avoid the border outflow that the liquid in the flowing back district passes through the installing port betterly and put in the box, thereby can avoid liquid outflow and the risk that the electric installation contact caused the short circuit betterly, and can avoid the liquid that spills over to flow to subaerial risk that causes the user to slip better, do benefit to the security that promotes clothing treatment facility.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic view of a drop box according to an embodiment of the invention;

fig. 2 is a schematic view of another perspective of a drop box according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a dispensing assembly according to an embodiment of the present invention;

fig. 4 is a partial cross-sectional view of a dispensing assembly according to an embodiment of the present invention;

fig. 5 is a partial structure view of a laundry treating apparatus according to an embodiment of the present invention;

fig. 6 is a partial sectional view of a laundry treating apparatus according to an embodiment of the present invention;

fig. 7 is a side view of a portion of the garment treatment device of fig. 5.

Reference numerals:

a laundry treating apparatus 1000; a feeding assembly 100;

a delivery box 10; a liquid discharge region 10 a; a through hole 10 b; an overflow channel 101 b; a liquid discharge passage 102 b; a lowermost edge 10 c; a flow guide surface 10 d; an engagement region 10 e;

a case 11; a mounting opening 111; an overflow baffle 12;

a dispenser 20;

an overflow pipe 30; a first channel 31; a third communicating section 311; a fourth communicating section 312; a fluid replenishment hole 313; a second channel 32; the first communication section 321; a second communicating section 322;

a liquid outlet pipe 40;

an outer tub 200; a housing chamber 210; an inner barrel 300; a door seal ring 400; the water inlet pipe 410 is sealed.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. In addition, the present disclosure may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present disclosure provides examples of various specific processes and materials, but one of ordinary skill in the art may recognize the applicability of other processes and/or the use of other materials.

A drop box 10 according to an embodiment of the present invention is described below with reference to the drawings.

As shown in fig. 1-4, the dispensing box 10 according to the embodiment of the present invention has a liquid discharge area 10a and a through hole 10b, an overflow channel 101b is disposed in the through hole 10b, and a portion of the overflow channel 101b is located above the through hole 10b, and a liquid discharge channel 102b communicating with the liquid discharge area 10a is defined between an outer peripheral wall of the overflow channel 101b and an inner peripheral wall of the through hole 10 b. That is, the upper end of the overflow path 101b is higher than the drain path 102b, and the drain path 102b is located at least in part of the outer peripheral side of the overflow path 101b, for example, the drain path 102b completely surrounds the outer peripheral side of the overflow path 101b so that the drain area 10a surrounds the outer peripheral side of the overflow path 101b, or the drain path 102b surrounds only in part of the outer peripheral side of the overflow path 101b so that the drain area 10a surrounds the outer peripheral side of the overflow path 101 b. In addition, the overflow channel 101b and the liquid discharge channel 102b are both located in the through hole 10b, so that the number of open holes in the feeding box 10 can be reduced well, and the difficulty in production and processing of the feeding box 10 is reduced. Further, when the liquid level in the liquid discharge area 10a is higher than the preset height, the part of the liquid in the liquid discharge area 10a higher than the preset height is suitable for entering the overflow channel 101b and discharging, and the lowest part of the height of the opening edge of the dispensing box 10 is the lowest edge 10c, wherein the preset height is lower than the height of the lowest edge 10 c.

That is, in the process of filling water into the laundry treating apparatus 1000, for example, the laundry treating apparatus 1000 includes the outer tub 200 and the inner tub 300, a washing chamber is formed in the inner tub 300, the liquid discharge passage 102b is communicated with the washing chamber, when the liquid level in the liquid discharge region 10a is not higher than a preset height, that is, the internal liquid level of the liquid discharge region 10a is lower than the preset height or is level with the preset height, the liquid in the liquid discharge region 10a can be directly discharged from the input box 10 into the washing chamber through the liquid discharge passage 102b, thereby achieving water addition to the washing chamber, when the liquid level in the liquid discharge region 10a is higher than the preset height, the liquid higher than the preset height can enter the overflow passage 101b from the upper end of the overflow passage 101b through the portion of the liquid discharge region 10a adjacent to the overflow passage 101b, thereby timely discharging the liquid higher than the preset height in the liquid discharge region 10a out of the input box 10 through the overflow passage 101b, to control the liquid level in the liquid discharge region 10a to a position not higher than a preset height, i.e., to control the liquid level in the liquid discharge region 10a to be maintained at a position lower than the height of the lowermost edge 10 c. Therefore, the liquid in the liquid discharge area 10a can be better prevented from flowing out of the feeding box 10 through the lowest part with the highest height of the opening edge of the feeding box 10, so that the risk of short circuit caused by the contact of the liquid flowing out and an electric device can be better avoided, the risk of slipping of a user caused by the fact that the overflowed liquid flows to the ground can be better avoided, and the safety of the clothes treatment equipment 1000 is favorably improved.

According to the throwing box 10 provided by the embodiment of the invention, the processing and production difficulty is low, the lowest part of the opening edge of the throwing box 10 is the lowest edge 10c, the preset height is lower than the height of the lowest edge 10c, when the liquid level of the liquid discharge area 10a is higher than the preset height, the part, higher than the preset height, of the liquid in the liquid discharge area 10a can be discharged through the overflow channel 101b, the liquid in the liquid discharge area 10a can be better prevented from flowing out of the throwing box 10 through the lowest part of the opening edge of the throwing box 10, the risk of short circuit caused by the fact that the liquid flows out to contact with an electric device can be better avoided, the risk of slipping of a user caused by the fact that the overflowed liquid flows onto the ground can be better avoided, and the safety of the clothes treatment equipment 1000 is favorably improved.

According to some embodiments of the utility model, put in box 10 and be formed with the inlet opening (not shown), the inlet opening is located the relative both sides of putting in box 10 with minimum border 10c, and overflow channel 101b is located between inlet opening and the minimum border 10c, and for the inlet opening, overflow channel 101b more closes on minimum border 10 c. That is to say, outside water can get into in the flowing back district 10a of putting in box 10 through the inlet opening, for example, the inlet end of inlet opening can with water piping connection, rivers are suitable for from the inlet opening to through-hole 10b flows, the inlet opening is located one side of overflow passageway 101b, and minimum border 10c is located the other side of the inlet opening that overflow passageway 101b deviates from, and the distance between overflow passageway 101b and the inlet opening is less than the distance between minimum border 10c and the inlet opening.

Therefore, during the water inlet process, the water flowing into the drainage region 10a through the water inlet hole flows to the overflow channel 101b at a shorter distance than the lowest edge 10c, therefore, for example, when the water inflow is suddenly increased, the water level rising speed on the outer peripheral side of the overflow path 101b is faster, that is, the water level in the area adjacent to the overflow path 101b in the drain area 10a is higher than the water level in the area adjacent to the lowermost edge 10c in the drain area 10a, and therefore, when the liquid level in the area of the liquid discharge area 10a adjacent to the overflow path 101b is higher than a preset level, the liquid exceeding the preset level can be discharged through the overflow path 101b in time, so that the liquid level in the area of the liquid discharge area 10a adjacent to the overflow channel 101b is not higher than a preset level, thereby guarantee that the water level in the region that drain region 10a is close to minimum border 10c is less than predetermineeing the height all the time, do benefit to the anti-overflow effect that promotes to put in box 10. And, through setting up overflow channel 101b near minimum border 10c, when the minimum border 10c that the liquid level in controlling the outage 10a through overflow channel 101b is less than, the direct water waste that leads to through overflow channel 101b loss of intaking that can avoid the inlet opening betterly and to the influence of water inlet efficiency to can avoid overflow channel 101 b's lateral wall to the resistance of intaking flow betterly, do benefit to and promote water inlet efficiency.

Furthermore, the drainage channel 102b is also located between the overflow channel 101b and the lowermost edge 10c, and the drainage channel 102b is closer to the lowermost edge 10c than to the inlet opening. In the process of water inlet of the laundry treatment apparatus 1000, the liquid flows from the water inlet hole to the liquid discharge channel 102b, and enters the washing cavity through the liquid discharge channel 102b, and as the water body is continuously discharged, the liquid level of the region of the liquid discharge region 10a adjacent to the liquid discharge channel 102b is lower than the liquid level of the region of the liquid discharge region 10a adjacent to the water inlet hole, so that the liquid can be further prevented from overflowing through the lowest edge 10 c.

According to some embodiments of the present invention, the drainage channel 102b extends along the circumference of the overflow channel 101b, and the axial angle of the drainage channel 102b around the overflow channel 101b is not less than 180 °. For example, the liquid discharge region 10a may be provided entirely around the overflow path 101b, or the liquid discharge region 10a may be provided only around a portion on the outer peripheral side of the overflow path 101b, a connection line between one end of a contour line of a portion of the overflow path 101b adjacent to the liquid discharge region 10a and the center of the overflow path 101b is a first line segment, a connection line between the other end of a contour line of a portion of the overflow path 101b adjacent to the liquid discharge region 10a and the center of the overflow path 101b is a second line segment, and an angle between a projection of the first line segment on a horizontal plane and a projection of the second line segment on the horizontal plane on a side toward the side wall of the overflow path 101b is equal to or larger than 180 °.

After the liquid level in the liquid discharge area 10a is higher than the preset height, the liquid higher than the preset height can enter the overflow channel 101b through the part of the liquid discharge area 10a around the outer periphery of the overflow channel 101b, so that the area of the overflow channel 101b adjacent to the liquid discharge area 10a in the circumferential direction can be increased well, and after the liquid level in the liquid discharge area 10a is higher than the preset height, the liquid higher than the preset height can quickly enter the overflow channel 101b from multiple positions in the circumferential direction of the overflow channel 101b and be discharged out of the dispensing box 10, which is beneficial to improving the efficiency of discharging the liquid higher than the preset height in the liquid discharge area 10a into the overflow channel 101b, and further reducing the risk that the liquid in the liquid discharge area 10a overflows through the lowest edge 10 c. In a specific example, the outer peripheral profile of the overflow channel 101b may include an arc-shaped section and a straight line section, the arc-shaped section is formed into a preferred arc shape, that is, the central angle of the arc-shaped section is greater than 180 °, two ends of the arc-shaped section are respectively connected with two ends of the straight line section, and the arc-shaped section is located between the overflow channel 101b and the liquid discharge area 10 a. Therefore, when the liquid level in the liquid discharge area 10a is higher than the height of the arc-shaped section, the liquid higher than the arc-shaped section can flow into the overflow channel 101b through the upper end of the arc-shaped section, and the overflow-preventing effect is good.

According to some embodiments of the utility model, put in box 10 includes: the overflow device comprises a box body 11 and an overflow baffle 12, wherein a through hole 10b is formed in the box body 11, the overflow baffle 12 is arranged in the through hole 10b, part of the overflow baffle 12 is positioned above the through hole 10b, the overflow baffle 12 defines an overflow channel 101b, for example, the cross section of the overflow baffle 12 can be formed into a closed ring consisting of annular or irregular lines so as to form the overflow channel 101b in the overflow baffle 12; or, the overflow baffle 12 may define the overflow channel 101b with the inner peripheral wall of the through hole 10b, for example, both ends of the extending direction of the overflow baffle 12 are connected with the inner peripheral wall of the through hole 10b, that is, the overflow channel 101b is defined while the overflow baffle 12 is connected with the inner peripheral wall of the through hole 10b, which is beneficial to reducing the difficulty in forming the overflow channel 101b, and can better reduce the installation space occupied by the overflow baffle 12 in the through hole 10b, and is beneficial to ensuring the flow area of the overflow channel 101b and the liquid discharge channel 102 b.

Further, a drain passage 102b is defined between the overflow baffle 12 and the inner peripheral wall of the through-hole 10 b. That is to say, the overflow baffle 12 is located between the overflow channel 101b and the liquid discharge channel 102b, the liquid discharge channel 102b is defined between the side wall of the overflow baffle 12 far away from the overflow channel 101b and the inner peripheral wall of the through hole 10b, and the overflow baffle 12 is located between the overflow channel 101b and the liquid discharge channel 102b, that is, the overflow channel 101b and the liquid discharge channel 102b can be simultaneously defined by the cooperation of the overflow baffle 12 and the inner peripheral wall of the through hole 10b, which is beneficial to reducing the difficulty in forming the overflow channel 101b and the liquid discharge channel 102b, and the space in the through hole 10b can be fully utilized by the overflow channel 101b and the liquid discharge channel 102b, and the layout is reasonable.

Further, overflow baffle 12 and box 11 are defined in liquid discharge region 10a and junction region 10e connecting liquid discharge region 10a and overflow passage 101b, and junction region 10e is located above overflow baffle 12, and the height of the lowest position of the upper end face of overflow baffle 12 constitutes a preset height. That is, overflow barrier 12 is located between drain region 10a and overflow passage 101b, and the height of the lowest position of the upper end face of overflow barrier 12 is lower than the height of lowest edge 10 c. Specifically, when the liquid level in the liquid discharge region 10a is not higher than a preset level, that is, a level not higher than the lowest position of the upper end surface of the overflow baffle 12, the liquid in the liquid discharge region 10a is directly discharged through the liquid discharge passage 102 b; when the liquid level of the liquid discharge region 10a is higher than the preset level, that is, the level higher than the lowest position of the upper end surface of the overflow baffle 12, the liquid higher than the lowest position of the upper end surface of the overflow baffle 12 flows into the engagement region 10e and flows into the overflow path 101b by engagement, so that the liquid level of the liquid discharge region 10a is controlled at a position not higher than the preset level, thereby preventing the liquid in the liquid discharge region 10a from overflowing through the lowest edge 10 c.

As shown in fig. 1 and 2, the overflow barrier 12 extends in the circumferential direction of the through hole 10 b. For example, the overflow barrier 12 is formed in an arc shape, and both ends of the overflow barrier 12 in the extending direction are connected to the inner circumferential wall of the through hole 10 b; alternatively, the overflow barrier 12 may be formed in a ring shape, and the overflow barrier 12 is inserted into the through hole 10 b. The area of the overflow channel 101b which can be defined by the arc-shaped or annular overflow baffle 12 under the same extension length is larger, so that the drainage area of the overflow channel 101b can be better increased, the overflow channel 101b can be ensured to quickly drain the liquid exceeding the preset height in the liquid drainage area 10a, and the overflow risk can be better reduced. Further, when the liquid in the liquid discharge region 10a flows through the overflow baffles 12, the flow resistance of the liquid by the overflow baffles 12 arranged in an arc or ring shape is small.

Further, both ends of the overflow barrier 12 in the circumferential direction are connected to the circumferential wall of the case 11. Therefore, the connection stability of the overflow baffle 12 and the box body 11 can be better enhanced, and meanwhile, the liquid can be better prevented from flowing away through the gap between the overflow baffle 12 and the peripheral wall of the box body 11.

Further, a portion of the peripheral wall of the box body 11 between both ends in the circumferential direction of the overflow barrier 12 constitutes a partial peripheral wall of the overflow passage 101 b. That is, the overflow barrier 12 is adapted to cooperate with the peripheral wall of the box body 11 to define part of the overflow passage 101 b. In a specific example, as shown in fig. 1, both ends in the circumferential direction of the portion of the overflow barrier 12 protruding upward from the through hole 10b are connected to one side wall in the box body 11, thereby forming a portion of the overflow passage 101b located above the through hole 10 b. The side wall of the box body 11 can be fully utilized by forming the overflow channel 101b, so that the material of the overflow baffle 12 can be saved, and the weight and the production cost of the throwing box 10 can be reduced. In addition, the space occupied by overflow baffle 12 in liquid discharge area 10a is small, so that the capacity of liquid discharge area 10a can be better increased, the overflow prevention effect of throwing box 10 is improved, and the water inflow of throwing box 10 is increased.

In a specific example, an anti-clogging member is provided in the overflow passage 101 b. Therefore, when liquid flowing into the overflow channel 101b from the liquid discharge area 10a has detergent powder and the like agglomerated, the anti-blocking member can better intercept the detergent powder and the like agglomerated into the overflow channel 101b, so that the detergent powder and the like agglomerated into the overflow channel 101b can be better prevented from blocking the overflow channel 101b, the liquid exceeding the preset height in the liquid discharge area 10a can be timely discharged through the overflow channel 101b, and the liquid overflow caused by the blockage of the overflow channel 101b can be better avoided.

When the liquid level in the liquid discharge area 10a is higher than the preset height, the liquid exceeding the preset height enters the overflow channel 101b through the upper end of the overflow baffle 12, and the anti-blocking piece is arranged close to the upper end of the overflow baffle 12, so that when the liquid in the liquid discharge area 10a enters the overflow channel 101b, the detergent and the like condensed into a mass in the liquid can be blocked in time from entering the overflow channel 101b, the inlet of the overflow channel 101b can be prevented from being blocked by the detergent and the like condensed into a mass, and the anti-blocking effect is good.

According to some embodiments of the present invention, the bottom wall of liquid discharge area 10a is formed with flow guiding surface 10d, flow guiding surface 10d inclines downward in the direction from the outer edge of liquid discharge area 10a to through-hole 10b, and through-hole 10b is formed at the lowest position of the bottom wall of liquid discharge area 10 a. That is, the liquid in the liquid discharge area 10a has a tendency to flow toward the through hole 10b, so that the water body entering the liquid discharge area 10a through the water inlet hole can flow along the diversion surface 10d to the position of the liquid discharge channel 102b under the action of gravity, so that the liquid in the liquid discharge area 10a can be rapidly discharged into the washing cavity through the liquid discharge channel 102b, and the residual liquid in the liquid discharge area 10a can be completely discharged by arranging the through hole 10b at the lowest position of the bottom wall, so that the liquid can be better prevented from remaining in the liquid discharge area 10a to cause bacterial growth or dirt generation.

A dispensing assembly 100 according to an embodiment of the second aspect of the present invention is described below with reference to the drawings.

As shown in fig. 3 to 5, the putting assembly 100 according to the embodiment of the present invention is used for a clothes treating apparatus 1000, and the putting assembly 100 includes: the dispenser comprises a throwing box 10 and a dispenser 20, wherein a mounting opening 111 is formed on the throwing box 10, and the edge of the mounting opening 111 forms a lowest edge 10 c. That is, the preset height is lower than the height of the rim of the mounting port 111, and therefore, the liquid higher than the preset height in the liquid discharge area 10a can be discharged out of the drop box 10 through the overflow passage 101b in time to control the liquid level in the liquid discharge area 10a at a position not higher than the preset height, that is, to control the liquid level in the liquid discharge area 10a to be maintained at a height lower than the rim of the mounting port 111. Therefore, the liquid in the liquid discharge area 10a can be better prevented from flowing out of the feeding box 10 through the edge of the mounting port 111, so that the risk of short circuit caused by the contact of the liquid flowing out and the electric device can be better avoided, the risk of slipping of a user caused by the fact that the overflowed liquid flows to the ground can be better avoided, and the safety of the clothes treatment equipment 1000 is favorably improved.

Furthermore, the dispenser 20 is provided to the launch box 10 in a manner that it is drawable along the mounting opening 111, and the dispenser 20 is located inside the launch box 10. That is, the dispenser 20 may be drawn out from the dispensing box 10, and after washing powder, laundry detergent, or the like is put into the dispensing box 10, the dispenser 20 may be pushed into the dispensing box 10, so that the difficulty of dispensing and replenishing the washing powder may be reduced. Wherein the drain region 10a is at least partially located below the dispenser 20, the dispenser 20 being adapted to dispense a lotion or lotion-water mixture to the drain region 10 a. Therefore, the difficulty of distributing the lotion or the lotion-water mixed liquid into the liquid discharge area 10a can be well reduced, and in addition, the distributor 20 can accurately control the putting amount of the lotion or the lotion-water mixed liquid, so that the waste of the lotion can be well avoided, and meanwhile, the difficulty of rinsing the clothes can be favorably reduced.

The lotion-water mixed liquid refers to a mixed liquid generated after the external water body and the lotion are fused, for example, the external water body can directly enter the dispenser 20, and is mixed with the lotion in the dispenser 20 to form the lotion-water mixed liquid, and then the lotion-water mixed liquid flows into the liquid discharge area 10a and is discharged into the washing cavity through the liquid discharge channel 102b to be contacted with clothes; it is also possible that the dispenser 20 directly dispenses the lotion into the drain region 10a, introduces the external water body directly into the drain region 10a through the water inlet hole to mix with the lotion in the drain region 10a, and finally discharges into the laundry cavity through the drain passage 102b to contact with the laundry.

According to the throwing assembly 100 provided by the embodiment of the invention, the difficulty in processing and production of the throwing box 10 is low, the edge of the mounting port 111 of the throwing box 10 forms the lowest edge 10c, the preset height is lower than the height of the lowest edge 10c, when the liquid level of the liquid discharge area 10a is higher than the preset height, the part, higher than the preset height, of the liquid in the liquid discharge area 10a can be discharged through the overflow channel 101b, the liquid in the liquid discharge area 10a can be better prevented from flowing out of the throwing box 10 through the edge of the mounting port 111, the risk of short circuit caused by contact of the liquid flowing out and an electric device can be better avoided, the risk of slipping of a user caused by the fact that the overflowed liquid flows onto the ground can be better avoided, and the safety of the clothes treatment equipment 1000 is favorably improved.

In one embodiment, the dispenser box 10 further includes a cover (not shown) detachably attached to the box body 11, and a water inlet hole is formed in the cover, and the water inlet hole is disposed opposite to the storage area of the lotion in the dispenser box 20.

According to some embodiments of the present invention, as shown in fig. 4-6, the laundry treating apparatus 1000 includes an outer tub 200 and an inner tub 300 disposed in the outer tub 200, a containing cavity 210 is defined between the outer tub 200 and the inner tub 300, a drainage assembly is disposed on the outer tub 200, and the dispensing assembly 100 includes: the overflow pipe 30, the overflow pipe 30 is connected to the through hole 10b, the overflow pipe 30 has a first channel 31 and a second channel 32 therein, the first channel 31 is adapted to communicate the overflow channel 101b and the receiving cavity 210. That is, one end of the first channel 31 is communicated with the drainage end of the overflow channel 101b (for example, the peripheral wall of the first channel 31 is inserted into the overflow channel 101 b), and the other end of the first channel 31 is communicated with the accommodating chamber 210, so that the liquid with the liquid level higher than the preset height in the liquid discharge region 10a can be discharged into the accommodating chamber 210 through the overflow channel 101b and the first channel 31 and discharged through the drainage assembly, thereby better avoiding the liquid overflow caused by the blockage of the overflow channel 101b and the first channel 31.

Further, the dispensing assembly 100 further includes a liquid outlet pipe 40, the liquid outlet pipe 40 is connected to the second channel 32, the second channel 32 communicates with the liquid outlet channel 102b and the liquid outlet pipe 40, and the liquid outlet pipe 40 is adapted to communicate with the inner barrel 300. That is to say, one end of the second channel 32 is communicated with the drainage end of the drainage channel 102b, the other end of the second channel 32 is communicated with the water inlet end of the liquid outlet pipe 40, and the inner cylinder 300 at the drainage end of the liquid outlet pipe 40 is communicated, so that the liquid in the drainage region 10a, such as lotion, lotion-water mixed liquid and external water, can be directly drained into the inner cylinder 300 through the drainage channel 102b, the second channel 32 and the liquid outlet pipe 40, that is, in the process of adding water into the inner cylinder 300, the liquid does not need to flow through the accommodating cavity 210, thereby better avoiding the dirt in the accommodating cavity 210 from being brought into the inner cylinder 300 by the liquid, and in addition, better avoiding the waste caused by directly flushing the lotion or the lotion-water mixed liquid into the drainage component.

According to some optional embodiments of the present invention, second channel 32 includes first intercommunication section 321 and second intercommunication section 322 of intercommunication, and first intercommunication section 321 centers on the periphery side of first channel 31, and first intercommunication section 321 is connected in through-hole 10b, and second intercommunication section 322 is connected in the radial outside of first intercommunication section 321, and drain pipe 40 is connected with second intercommunication section 322. That is, the liquid in the overflow channel 101b can be directly discharged into the accommodating chamber 210 through the first channel 31, the water inlet end of the first communication section 321 is communicated with the water outlet end of the liquid discharge channel 102b, and the liquid in the liquid discharge channel 102b firstly flows into the first communication section 321 positioned at the outer peripheral side of the first channel 31, and flows to the connection position of the first communication section 321 and the second communication section 322 around the circumferential direction of the first channel 31, and then flows into the inner barrel 300 through the second communication section 322 and the liquid outlet pipe 40. Therefore, the layout of the first communication section 321 and the first channel 31 can be better adapted to the layout of the drainage channel 102b and the overflow channel 101b, which is beneficial to reducing the connection difficulty of the overflow pipe 30 and the dispensing box 10 and is convenient for realizing the communication between the drain pipe 40 and the drainage channel 102 b. The peripheral wall of the first communicating section 321 is suitable for being sleeved on the peripheral side of the through hole 10b, and the water inlet end of the liquid outlet pipe 40 is sleeved on the peripheral side of the peripheral wall of the second communicating section 322, so that the flowing area of the liquid drainage channel 102b and the second communicating section 322 can be prevented from being blocked, the smooth flowing of liquid can be ensured, and the water inlet efficiency of the putting box 10 can be improved.

Further, the first channel 31 includes a third communicating section 311 and a fourth communicating section 312 which are communicated, the third communicating section 311 is connected to the overflow channel 101b and communicated with the overflow channel 101b, the first communicating section 321 surrounds an outer circumferential side of the third communicating section 311, that is, one end of the third communicating section 311 is communicated with the water discharging end of the overflow channel 101b, the other end of the third communicating section 311 is communicated with one end of the fourth communicating section 312, and the other end of the fourth communicating section 312 is communicated with the accommodating chamber 210, so that when the liquid in the liquid discharging area 10a with a liquid level higher than the preset height can be discharged into the accommodating chamber 210 through the overflow channel 101b, the third communicating section 311 and the fourth communicating section 312. For example, the upper end of the peripheral wall of the third communication section 311 may be inserted into the overflow passage 101 b.

Wherein at least a portion of the fourth communicating section 312 is U-shaped, for example, the fourth communicating section 312 may be partially formed into U-shape, or the fourth communicating section 312 may be entirely formed into U-shape. Therefore, when the liquid in the liquid discharge area 10a is discharged into the accommodating cavity 210 through the overflow channel 101b, the third communicating section 311 and the fourth communicating section 312, a certain amount of liquid can be stored in at least a part of the U-shaped fourth communicating section 312, so as to form a water seal in the fourth communicating section 312, that is, the liquid remaining in the fourth communicating section 312 can block the communication between the accommodating cavity 210 and the feeding box 10. From this for the produced foam of clothing washing's in-process lotion can't get into through overflow pipe 30 and put in box 10, thereby can avoid the foam to spill over through the installing port 111 of putting in box 10, in addition, in the in-process of high temperature steam washing and stoving, the water seal of formation can prevent better that the high temperature gas flow direction that holds in the chamber 210 from putting in box 10 and flow, thereby can prevent that the high temperature gas from meeting the condition emergence of cold condensation water droplet on the installing port 111 of putting in box 10 when putting in box 10 and discharging, do benefit to and promote security and user experience that clothing processing apparatus 1000 used.

Further, a fluid replacement hole 313 communicating the third communicating section 311 and the first communicating section 321 is formed on the peripheral wall of the third communicating section 311. Therefore, in the process of adding water into the inner barrel 300, when the liquid level in the liquid discharge area 10a is not higher than the preset height all the time, the liquid in the liquid discharge area 10a flows into the inner barrel 300 through the liquid discharge channel 102b, the first communicating section 321, the second communicating section 322 and the liquid outlet pipe 40, that is, when no liquid flows to the third communicating section 311 in the overflow channel 101b, part of the liquid in the first communicating section 321 can be introduced into the third communicating section 311 through the liquid supplementing hole 313 and further flows into the U-shaped part of the fourth communicating section 312 to form a water seal, and the water seal failure in the fourth communicating section 312 caused by the evaporation of the liquid can be better avoided.

According to some alternative embodiments of the present invention, the overflow pipe 30 is inserted into the through hole 10 b. Therefore, the connection structure of the overflow pipe 30 and the throwing box 10 is simple, the assembly difficulty of the throwing assembly 100 is reduced, and the later-stage replacement, cleaning and other maintenance work of the overflow pipe 30 is facilitated.

According to some alternative embodiments of the present invention, drain 40 is plugged into second channel 32. From this for drain pipe 40 is simple with overflow pipe 30's connection structure, does benefit to the assembly degree of difficulty that reduces drain pipe 40 and overflow pipe 30, in addition, through setting up drain pipe 40 and the 30 components of a whole that can function independently of overflow pipe, does benefit to the production degree of difficulty that reduces drain pipe 40 and overflow pipe 30, and be convenient for carry out maintenance work such as the change, the cleanness in drain pipe 40 later stage.

According to some alternative embodiments of the present invention, a portion of at least one of the outlet tube 40 and the overflow tube 30 is U-shaped. For example, at least a portion of outlet conduit 40 may be U-shaped, at least a portion of overflow conduit 30 may be U-shaped, or both outlet conduit 40 and overflow conduit 30 may be at least partially U-shaped. Therefore, in the process of adding water into the inner barrel 300, when the liquid level in the liquid discharge area 10a is not higher than the preset height, the liquid in the liquid discharge area 10a directly flows into the inner barrel 300 through the liquid discharge channel 102b, the second channel 32 and the liquid outlet pipe 40, after the water adding is completed, at least part of the liquid outlet pipe 40 arranged in the U shape can store a part of liquid, so that a water seal is formed in the U-shaped part of the liquid outlet pipe 40, namely, the residual liquid in the liquid outlet pipe 40 can block the communication between two ends of the liquid outlet pipe 40, thereby blocking the communication between the inner barrel 300 and the dispensing box 10. When the liquid level in the liquid discharge area 10a is higher than the preset height, the liquid higher than the preset height enters the overflow channel 101b and flows to the accommodating cavity 210 through the overflow pipe 30, and at least a part of the U-shaped overflow pipe 30 can store a part of the liquid to form a water seal in the U-shaped part of the overflow pipe 30, that is, the residual liquid in the overflow pipe 30 can block the communication between the two ends of the overflow pipe 30, thereby blocking the communication between the accommodating cavity 210 and the throwing box 10.

From this, make the abluent in-process of clothing produced foam can't get into through overflow pipe 30 or drain pipe 40 and put in box 10, thereby can avoid the foam to overflow through the installing port 111 of putting in box 10, in addition, in the in-process of high temperature steam washing and drying, the water seal of formation can be better ground the high temperature gas flow direction in holding chamber 210 and inner tube 300 and put in box 10, thereby can prevent that high temperature gas from taking place the condition of the water droplet that condenses on the installing port 111 of putting in box 10 when putting in box 10 and discharging, do benefit to security and the user experience that promote clothing processing apparatus 1000 and use.

According to some alternative embodiments of the present invention, at least a portion of the first channel 31 is U-shaped, and the peripheral wall of the first channel 31 is formed with a fluid infusion hole 313 communicating the first channel 31 and the second channel 32. Therefore, in the process of adding water into the inner barrel 300, when the liquid level in the liquid discharge area 10a is not higher than the preset height all the time, the liquid in the liquid discharge area 10a flows into the inner barrel 300 through the liquid discharge channel 102b, the second channel 32 and the liquid outlet pipe 40, that is, when no liquid flows into the first channel 21 in the overflow channel 101b, part of the liquid in the second channel 32 can enter the U-shaped part of the first channel 31 through the liquid supplementing hole 313 to form a water seal, so that the water seal failure in the first channel 31 due to the evaporation of the liquid can be avoided.

Further, the flow area of the fluid replenishment hole 313 is smaller than the flow area of the liquid discharge passage 102 b. Therefore, the liquid can be supplemented into the first channel 31 through the liquid supplementing hole 313, and the influence of the diversion of the liquid supplementing hole 313 on the water amount in the second channel 32 can be reduced, so that the water injection efficiency of the inner cylinder 300 is ensured. For example, the flow area of the fluid replenishment hole 313 may be smaller than a quarter of the flow area of the liquid discharge passage 102b, and is not particularly limited herein.

A laundry treating apparatus 1000 according to an embodiment of a third aspect of the present invention is described below with reference to the accompanying drawings.

According to the utility model discloses clothing treatment equipment 1000 of third aspect embodiment includes: the dispensing assembly 100 described above.

When water is injected into the inner cylinder 300 and lotion is added, the distributor 20 distributes a set amount of lotion or lotion-water mixed liquid into the liquid discharge area 10a, the water inlet holes discharge water into the liquid discharge area 10a, and when the liquid level in the liquid discharge area 10a is not higher than a preset height, the liquid in the liquid discharge area 10 is discharged into the inner cylinder 300 through the liquid discharge channel 102b to be contacted with clothes; when the water level in the drainage area 10a is higher than the preset height due to a sudden increase in the amount of water in the drainage area 10a or clogging of the drainage channel 102b, the liquid exceeding the preset height is discharged out of the drop box through the overflow channel to control the liquid level in the drainage area 10a to a position not higher than the preset height, that is, to control the liquid level in the drainage area 10a to be maintained at a height lower than the edge of the mounting port 111. Therefore, the liquid in the liquid discharge area 10a can be better prevented from flowing out of the feeding box 10 through the edge of the mounting port 111, so that the risk of short circuit caused by the contact of the liquid flowing out and the electric device can be better avoided, the risk of slipping of a user caused by the fact that the overflowed liquid flows to the ground can be better avoided, and the safety of the clothes treatment equipment 1000 is favorably improved.

According to the utility model discloses clothing treatment facility 1000 of third aspect embodiment, the processing production degree of difficulty of puting in box 10 is low, the border of puting in installing port 111 of box 10 constitutes minimum border 10c, predetermine the height that highly is less than minimum border 10c, when liquid level at outage 10a is higher than predetermineeing the height, liquid in outage 10a is higher than the part of predetermineeing the height and can discharge through overflow channel 101b, can avoid liquid in outage 10a better to flow out through the border of installing port 111 and put in box 10, thereby can avoid liquid outflow and the risk that leads to the fact the short circuit with the electric installation contact better, and can avoid the liquid that spills over to flow to subaerial risk that leads to the fact the user to slip better, do benefit to the security that promotes clothing treatment facility 1000.

According to some embodiments of the present invention, as shown in fig. 5 to 7, the laundry treating apparatus 1000 further includes a door sealing ring 400, the door sealing ring 400 is ring-shaped and disposed on an end surface of an outer side of the inner drum 300, a sealing ring water inlet pipe 410 is disposed on the door sealing ring 400, the laundry treating apparatus 1000 further includes a connecting pipe, one end of the connecting pipe is communicated with one end of the sealing ring water inlet pipe 410, the other end of the connecting pipe is communicated with one end of the liquid outlet pipe 40 away from the first liquid outlet hole, the other end of the sealing ring water inlet pipe 410 is communicated with the inner drum 300, and the sealing ring water inlet pipe 410 and the door sealing ring 400 are integrally formed.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (18)

1. The utility model provides a throw in box, its characterized in that, it has flowing back district and through-hole to throw in the box, be equipped with overflow path in the through-hole just the part of overflow path is located the top of through-hole, overflow path's periphery wall with inject between the internal perisporium of through-hole with the flowing back passageway of flowing back district intercommunication when the liquid level of flowing back district is higher than predetermineeing the height, liquid in the flowing back district is higher than predetermineeing the part of height and being suitable for the entering in the overflow path and discharging, the high minimum part at opening border of throwing in box is minimum border, wherein predetermine the height and be less than the height at minimum border.

2. A drop box according to claim 1, wherein the drop box is formed with a water inlet opening, the water inlet opening and the lowermost edge being located on opposite sides of the drop box, the overflow channel being located between the water inlet opening and the lowermost edge and being located closer to the lowermost edge than the water inlet opening.

3. Dosing cartridge according to claim 1, characterized in that the drainage channel extends in the circumferential direction of the overflow channel, the drainage channel having a circumferential angle around the overflow channel of not less than 180 °.

4. The drop box of claim 1, comprising:

the through hole is formed in the box body;

the overflow baffle is arranged on the through hole, the part of the overflow baffle is positioned above the through hole, the overflow baffle is limited in the overflow channel or the overflow baffle is limited in the overflow channel between the inner peripheral walls of the through hole, the overflow baffle is limited in the liquid discharge area and communicated with the liquid discharge area together with the connection area of the overflow channel, the connection area is positioned above the overflow baffle, and the height of the lowest position of the upper end surface of the overflow baffle is formed into the preset height.

5. The drop box of claim 4, wherein the overflow baffle extends circumferentially of the through hole.

6. The dosing cassette according to claim 5, characterized in that both ends of the overflow barrier in the circumferential direction are connected to a peripheral wall of the cassette body.

7. The dispensing box according to claim 6, characterized in that a portion of the peripheral wall of the box body between both ends in the circumferential direction of the overflow barrier constitutes a part of the peripheral wall of the overflow passage.

8. The dispensing box according to claim 2, wherein a flow guide surface is formed on a bottom wall of the drain area, the flow guide surface extending obliquely downward in a direction from an outer edge of the drain area to the through hole, and the through hole is formed at a lowest position of the bottom wall of the drain area.

9. A dispensing assembly for a garment treatment device, comprising:

the throwing box according to any one of claims 1 to 8, wherein a mounting opening is formed in the throwing box, and the edge of the mounting opening forms the lowest edge;

the distributor is arranged in the dispensing box in a drawing mode along the mounting opening, the liquid discharge area is at least partially positioned below the distributor when the distributor is positioned in the dispensing box, and the distributor is suitable for distributing lotion or lotion-water mixed liquid to the liquid discharge area.

10. The dispensing assembly of claim 9, wherein the garment treatment device includes an outer drum and an inner drum disposed within the outer drum, the outer drum and the inner drum defining a receiving chamber therebetween, the outer drum having a drain assembly disposed thereon, the dispensing assembly comprising:

an overflow pipe connected to the through hole, the overflow pipe having a first channel and a second channel therein, the first channel being adapted to communicate the overflow channel and the receiving cavity;

the liquid outlet pipe is connected to the second channel, the second channel is communicated with the liquid discharge channel and the liquid outlet pipe, and the liquid outlet pipe is suitable for being communicated with the inner barrel.

11. The dispensing assembly of claim 10, wherein the second passage includes a first communicating section and a second communicating section that communicate with each other, the first communicating section surrounding an outer circumferential side of the first passage, the first communicating section being connected to the through hole, the second communicating section being connected to a radially outer side of the first communicating section, and the drain pipe being connected to the second communicating section.

12. The dosing assembly according to claim 11, wherein the first passage includes a third communicating portion and a fourth communicating portion that communicate with each other, the third communicating portion being connected to the overflow passage and communicating with the overflow passage, the first communicating portion surrounding an outer peripheral side of the third communicating portion, and at least a portion of the fourth communicating portion having a U-shape.

13. The dispensing assembly of claim 12 wherein the peripheral wall of the third communicating section has a fluid replenishing hole formed therein for communicating the third communicating section with the first communicating section.

14. A dosing assembly according to claim 10, wherein the overflow pipe is plugged into the through hole; and/or the liquid outlet pipe is inserted in the second channel.

15. A dosing assembly according to claim 10, wherein at least part of at least one of the outlet pipe and the overflow pipe is U-shaped.

16. The dispensing assembly of claim 15 wherein the first channel is at least partially U-shaped, and wherein a fluid replenishment hole is formed in a peripheral wall of the first channel to communicate the first channel with the second channel.

17. Dosing assembly according to claim 16, wherein the flow area of the refill opening is smaller than the flow area of the drainage channel.

18. A laundry treating apparatus, comprising: a dosing assembly according to any of claims 9-17.

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