CN111920358A - Container apparatus - Google Patents

Abstract

The embodiment of the application provides container equipment, which comprises a base body, an accommodating body, a first water guide piece and a second water guide piece; the accommodating body is at least partially arranged in the seat body, a cleaning space for accommodating objects is formed in the accommodating body, and the accommodating body can move relative to the seat body; the first water guide piece is connected with the seat body; the second water guide piece is connected with the accommodating body, and the second water guide piece and the first water guide piece can be spliced and matched in a pluggable manner; under the condition that the second water guide piece and the first water guide piece are in splicing fit, the first water guide piece and the second water guide piece form a water flow channel communicated with the cleaning space. According to the containing device, the water channel is communicated and interrupted by the pluggable insertion and matching of the first water guide piece and the second water guide piece, the problem that a telescopic pipeline or a bent pipeline in the prior art is easy to damage is solved, and the service lives of the first water guide piece and the second water guide piece are prolonged; the motion stroke of the accommodating body is not influenced by the water path connection, and the design flexibility of the container equipment can be improved.

Description

Container apparatus

Technical Field

The application relates to the technical field of household appliances, in particular to container equipment.

Background

When some mechanisms with relative motion need to be connected by a water path, a telescopic or bendable water pipe is usually arranged for water inlet or water discharge so as to meet the requirement of relative displacement between the two mechanisms with relative motion, but the bent water pipe or the telescopic water pipe is easily damaged due to frequent relative motion of the mechanisms, so that the water leakage phenomenon is generated, and the service life of the water path connection part is short; furthermore, the bent or telescopic water pipe also occupies a large space.

Disclosure of Invention

In view of this, the present application is directed to a container device with a long service life at a waterway connection.

In order to achieve the above object, an embodiment of the present application provides a container apparatus, including a base, a receiving body, a first water guide, and a second water guide; the accommodating body is at least partially arranged in the seat body, a cleaning space for accommodating objects is formed in the accommodating body, and the accommodating body can move relative to the seat body; the first water guide piece is connected with the seat body, and a first through hole is formed in the first water guide piece; the second water guide piece is connected with the accommodating body, a second through hole is formed in the second water guide piece, and the second water guide piece and the first water guide piece can be spliced and matched in a pluggable manner; and under the condition that the second water guide piece is in splicing fit with the first water guide piece, the first through hole is communicated with the second through hole to form a water flow channel communicated with the cleaning space.

Further, the container apparatus includes a sealing ring; the sealing ring is sleeved on the first water guide piece or the second water guide piece and is in sealing butt joint between the first water guide piece and the second water guide piece.

Further, a mounting groove is formed in the circumferential surface of the first water guide piece or the second water guide piece, and the sealing ring is clamped in the mounting groove.

Further, the first water guide is formed with a first guide surface for guiding the second water guide; and/or the second water guide is formed with a second guide surface for guiding the first water guide.

Further, the first water guide piece is a water inlet joint, a first through hole is formed in the water inlet joint, and the first through hole is a part of the water flow channel; the second water guide spare is the adapter, be formed with the second through-hole in the adapter, the second through-hole is some of rivers passageway, the adapter includes the axial region, the sealing washer cover is located on the axial region, the axial region stretches into in the first through-hole.

Further, the seal ring extends along the length direction of the shaft portion, an annular convex shoulder is formed on the inner wall of the first through hole, and the circumferential direction of the seal ring is in sealing contact with the annular convex shoulder.

Further, the container apparatus includes a wash control valve connected to the adapter; the adapter including set up in the axial part is close to the flange of washing control valve one end, the second through-hole runs through the flange, the one end of washing control valve stretches into in the second through-hole, and with flange fastening connection.

Further, a step surface facing the washing control valve is formed on an inner wall of the first through hole, and the flange abuts against the step surface.

Further, the first water guide is a first water drainage pipe; the accommodating body is provided with a drain hole, the second water guide piece is a collecting pipe communicated with the drain hole, and the first drain pipe is in inserted fit with the collecting pipe.

Further, the container equipment comprises an overflow pipe, an overflow hole is formed in the accommodating body, one end of the overflow pipe is communicated with the overflow hole, and the other end of the overflow pipe is communicated with the collecting pipe; the position of the overflow hole is higher than that of the drain hole.

Further, the container device is a drawing device, the first side of the seat body is open, and the accommodating body can be installed in the seat body or drawn out of the seat body from the open position of the seat body; the first water guide piece is arranged on a second side of the seat body opposite to the first side, and the second water guide piece is arranged on one side of the accommodating body corresponding to the second side of the seat body.

Furthermore, the container device is a shoe washing machine, the cleaning space comprises a washing cavity and a water storage cavity, liquid in the washing cavity can enter the water storage cavity, the shoe washing machine comprises a shoe rack assembly, and the shoe rack assembly is rotatably arranged in the washing cavity; the number of the water flow channels is one, and the water flow channels are communicated with the washing cavity or the water storage cavity; or the number of the water flow channels is multiple, at least one water flow channel is communicated with the washing cavity, and at least one water flow channel is communicated with the water storage cavity.

According to the containing device, the water channel can be communicated and interrupted only through pluggable insertion and matching of the first water guide piece and the second water guide piece, on one hand, a telescopic pipeline or a bent pipeline in the prior art is not required to be arranged, so that the problem that the telescopic pipeline or the bent pipeline in the related technology is easy to damage can be avoided, and the service lives of the first water guide piece and the second water guide piece are prolonged; on the other hand, the movement stroke of the accommodating body is not influenced by the connection of the water path, and in the prior art, the movement stroke of the accommodating body cannot exceed the length of the pipeline, otherwise, the pipeline can be torn off, so that when the movement stroke of the accommodating body is designed, the influence of the first water guide piece and the second water guide piece on the accommodating body can be reduced or even not considered, and the design flexibility of the container equipment can be improved.

Drawings

FIG. 1 is a schematic structural diagram of a containment apparatus according to an embodiment of the present application;

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 3 is a cross-sectional view taken along the line A-A in FIG. 2;

FIG. 4 is a schematic view of the receiving body of the structure shown in FIG. 1 further installed in the seat body to a certain depth;

FIG. 5 is a cross-sectional view taken along the line B-B in FIG. 4;

FIG. 6 is a cross-sectional view taken along the line C-C in FIG. 4;

figure 7 is a cross-sectional view taken along line D-D of figure 4 with the water inlet fitting and adapter in a disengaged condition;

figure 8 is a schematic view of an alternative configuration to that shown in figure 7, wherein the water inlet fitting and the adapter are in a plug-in mating configuration;

FIG. 9 is an enlarged partial schematic view at E of FIG. 8;

FIG. 10 is a schematic view of the water inlet joint, adapter and wash control valve of an embodiment of the present application;

FIG. 11 is an exploded view of the structure shown in FIG. 10;

FIG. 12 is a sectional view taken along the line G-G in FIG. 10;

FIG. 13 is a schematic view of the water intake fitting of FIG. 12;

fig. 14 is a sectional view of a portion of the structure taken along the direction F-F in fig. 4, in which only the housing, the first drain pipe, and the manifold pipe are shown, the manifold pipe and the first drain pipe being in a state of being detached from each other;

FIG. 15 is a schematic view of an alternate state of the arrangement of FIG. 14, wherein the first drain pipe and the manifold are in a plug-in mating configuration;

fig. 16 is a partially enlarged schematic view at H in fig. 15.

Description of the reference numerals

A base body 10; a containing body 20; a cleaning space 201; the washing chamber 201 a; a water storage cavity 201 b; a first water guide 30; a water inlet joint 30'; a first drain pipe 30 "; the first through hole 30 a; an annular shoulder 301; a step surface 30 b; a first guide surface 30 c; a second water guide 40; an adapter 40'; a collector tube 40 "; a second through hole 40 a; a shaft portion 41; the flange 42; a mounting groove 40 b; a second guide surface 40 c; a washing control valve 51; a second drain pipe 52; an overflow pipe 53; an inlet pipe 54; an intake control valve 55; a seal ring 60; a shoe rack assembly 70; shoe 71

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

An embodiment of the present application provides a container device, please refer to fig. 1 to 7, including a base 10, a containing body 20, a first water guiding member 30 and a second water guiding member 40. The containing body 20 is at least partially disposed in the seat body 10, that is, the seat body 10 provides a mounting space for the containing body 20, and the containing body 20 can move relative to the seat body 10, for example, can move in a translational manner relative to the seat body 10; a cleaning space 201 for accommodating the objects is formed in the accommodating body 20, and the objects are cleaned in the cleaning space 201.

Referring to fig. 7, the first water guiding member 30 is connected to the seat body 10, that is, the first water guiding member 30 is in a stationary state relative to the seat body 10, referring to fig. 12 and 13, a first through hole 30a is formed in the first water guiding member 30; the second water guide member 40 is connected with the accommodating body 20, a second through hole 40a is formed in the second water guide member 40, the accommodating body 20 can drive the second water guide member 40 to move relative to the first water guide member 30, the second water guide member 40 and the first water guide member 30 can be in plugging fit with each other in a plugging mode, and under the condition that the second water guide member 40 and the first water guide member 30 are in plugging fit, the first through hole 30a and the second through hole 40a are communicated to form a water flow channel communicated with the cleaning space 201.

According to the containing device of the embodiment of the application, when the containing body 20 and the seat body 10 are in the normal working position, the first water guiding member 30 and the second water guiding member 40 are in the insertion fit state, an external water source can be introduced into the cleaning space 201 through the water flow channel to clean the objects, or water in the cleaning space 201 is discharged out of the containing body 20 through the water flow channel. When the accommodating body 20 moves relative to the seat body 10, the accommodating body 20 drives the second water guide 40 to move, so that the second water guide 40 moves in a direction away from the first water guide 30, in this case, the first water guide 30 and the second water guide 40 are in a state of being separated from each other, that is, the first water guide 30 and the second water guide 40 do not form the water flow channel.

According to the containing device, the water path communication and interruption can be realized only by the pluggable insertion and matching of the first water guide piece 30 and the second water guide piece 40, on one hand, a telescopic pipeline or a bent pipeline in the prior art is not required to be arranged, so that the problem that the telescopic pipeline or the bent pipeline in the related technology is easy to damage can be avoided, and the service lives of the first water guide piece 30 and the second water guide piece 40 are prolonged; on the other hand, the movement stroke of the containing body 20 is not affected by the connection of the water path, and in the prior art, the movement stroke of the containing body 20 cannot exceed the length of the pipeline, otherwise the pipeline is torn, so that the containing device of the embodiment of the present application may have little or even no need to consider the influence of the first water guide 30 and the second water guide 40 on the containing body 20 when the movement stroke of the containing body 20 is designed, and thus the design flexibility of the container device can be improved.

It should be noted that the second water guiding member 40 and the first water guiding member 30 are in pluggable insertion fit, which means that the first water guiding member 30 and the second water guiding member 40 are in insertion fit in some cases and can be separated from each other in other cases. Specifically, taking an example in which one end of the second water guide 40 is inserted into the first water guide 30, one end of the second water guide 40 may be inserted into the first water guide 30 or may be pulled out of the first water guide 30.

It is understood that the insertion fit of the first water guiding member 30 and the second water guiding member 40 may be that the end of the first water guiding member 30 is inserted into the second water guiding member 40, or that the end of the second water guiding member 40 is inserted into the first water guiding member 30.

In order to prevent water from leaking from the insertion fitting, referring to fig. 11 and 16, the container device further includes a sealing ring 60, and the sealing ring 60 is sleeved on the first water guiding member 30 or the second water guiding member 40, so that the sealing ring 60 is in sealing contact with a position between the first water guiding member 30 and the second water guiding member 40. Specifically, when the end of the first water guide 30 is inserted into the second water guide 40, the sealing ring 60 is fitted over the first water guide 30, and the sealing ring 60 abuts between the outer surface of the first water guide 30 and the inner surface of the second water guide 40, thereby preventing water leakage. When the end of the second water guide 40 is inserted into the first water guide 30, the sealing ring 60 is fitted over the second water guide 40, and the sealing ring 60 abuts between the outer surface of the second water guide 40 and the inner surface of the first water guide 30, thereby preventing water leakage.

In order to facilitate the installation of the sealing ring 60 and prevent the sealing ring 60 from falling off or shifting during the insertion and extraction process of the first water guiding member 30 and the second water guiding member 40, please refer to fig. 11 and fig. 16, an installation groove 40b is formed on the circumferential surface of the first water guiding member 30 or the second water guiding member 40, and the sealing ring 60 is clamped in the installation groove 40b to limit the sealing ring 60 through the installation groove 40 b. Note that, the circumferential surface of the first water guide 30 or the second water guide 40 is formed with the mounting groove 40b, which means that the mounting groove 40b is formed on the first water guide 30 when the sealing ring 60 is fitted to the first water guide 30, and the mounting groove 40b is formed on the second water guide 40 when the sealing ring 60 is fitted to the second water guide 40.

In order to facilitate the rapid and accurate insertion of the first water guiding member 30 and the second water guiding member 40, please refer to fig. 11 to 13, 14 and 16, the first water guiding member 30 is formed with a first guiding surface 30c, and when the first water guiding member 30 is inserted into and matched with the second water guiding member 40, the first guiding surface 30c can guide the second water guiding member 40; and/or the second water guiding member 40 is formed with a second guiding surface 40c, and when the first water guiding member 30 is in inserted fit with the second water guiding member 40, the second guiding surface 40c can guide the first water guiding member 30. It should be noted that the specific form of the first guide surface 30c is not limited as long as it can perform a guiding function, and for example, the first guide surface 30c may be a conical surface or a surface formed by a plurality of ribs. Similarly, the second guiding surface 40c is not limited in specific form as long as it can guide, for example, the second guiding surface 40c may be a conical surface or a surface having a plurality of ribs formed together

The specific type of the container device is not limited, in the embodiment of the present application, referring to fig. 1 to 4, the container device is a pull-out device, the first side of the seat 10 is open, and the accommodating body 20 can be installed into the seat 10 or pulled out from the seat 10 from the open position of the seat 10, that is, the accommodating body 20 is similar to a drawer and can slide relative to the seat 10.

Further, please refer to fig. 7 and 8, the first water guiding member 30 is disposed on a second side of the seat body 10 opposite to the first side, and the second water guiding member 40 is disposed on a side of the accommodating body 20 corresponding to the second side of the seat body 10, that is, the insertion direction of the first water guiding member 30 and the second water guiding member 40 is the same as the movement direction of the accommodating body 20, so as to facilitate the insertion and engagement of the first water guiding member 30 and the second water guiding member 40. When the second water guide 40 slides rightward in fig. 8 with respect to the housing body 20 following the receiving body 10, the first water guide 30 and the second water guide 40 are separated, and the separated state is referred to fig. 7. When the second water guiding member 40 slides along the left direction of fig. 7, the second water guiding member 40 moves to a direction close to the first water guiding member 30, the first water guiding member 30 and the second water guiding member 40 are in inserted fit, and the state of the inserted fit refers to fig. 8, at this time, a water flow channel is formed between the first water guiding member 30 and the second water guiding member 40, and the accommodating device can normally work under the condition.

The specific type of the drawing device is not limited, and the drawing device can be a washing device for washing objects, and can also be other types of devices. In the embodiment of the present application, the drawing device is a washing device, and specifically, the drawing device is described as a shoe washing machine as an example. Referring to fig. 3, the shoe washing machine includes a shoe rack assembly 70, the washing space 201 includes a washing cavity 201a and a water storage cavity 201b, the shoe rack assembly 70 is rotatably disposed in the washing cavity 201a, the shoes 71 are supported on the shoe rack assembly 70, and the liquid in the washing cavity 201a can enter the water storage cavity 201b, that is, the sewage after washing the shoes 71 can flow into the water storage cavity 201b for storage.

In one embodiment, the water flow channel can be used as a water inlet channel for supplying water to the cleaning space 201; in another embodiment, the water flow channel may be a drainage channel, and the water in the cleaning space 201 may be drained out of the accommodating body 20 through the drainage channel. In another embodiment, there are multiple water flow channels, wherein one water flow channel is a water inlet channel and the other water flow channel is a water outlet channel.

In this embodiment, when the water flow passage is communicated only with the washing chamber 201a, the water flow passage serves as a water inlet passage to supply the washing water into the washing chamber 201 a. When the water flow passage is communicated only with the reservoir chamber 201b, the water flow passage serves as a drain passage to drain water in the reservoir chamber 201b out of the accommodating body 20. When the number of the water flow channels is multiple, at least one of the water flow channels is communicated with the washing cavity 201a, and at least one of the water flow channels is communicated with the water storage cavity 201b, that is, water is fed and drained from the washing space 201 by the water flow channels, so that the accommodating body 20 can slide for a longer distance relative to the seat body 10, and even can be completely drawn out from the seat body 10.

When the water flow channel is used as a water inlet channel, please refer to fig. 7 to 9, the first water guiding element 30 is a water inlet joint 30 ', please refer to fig. 7 to 9, and the second water guiding element 40 is an adapter 40'. Further, referring to fig. 6 and 11, the receiving apparatus further includes a water inlet pipe 54 and a water inlet control valve 55, and the water inlet pipe 54 is connected between the water inlet control valve 55 and the water inlet connector 30'. The intake control valve 55 may adopt an electric control mode in which the intake control valve 55 is in a closed state when the intake joint 30 'and the adapter 40' are in a state of being disengaged from each other.

Referring to fig. 11, the adapter 40' includes a shaft portion 41, a second through hole 40a penetrates through the shaft portion 41, and the shaft portion 41 extends into the first through hole 30 a. The circumferential surface of the shaft portion 41 is formed with the above-described mounting groove 40b, and the seal ring 60 is fitted to the circumferential surface of the shaft portion 41. The shaft 41 is inserted into the first through hole 30a, and the seal ring 60 is in contact with a space between the outer surface of the shaft 41 and the inner wall of the first through hole 30a, thereby preventing water leakage.

It should be noted that, the structural form of the sealing ring 60 is not limited, in this embodiment, the water flow pressure of the water inlet channel is generally larger, and the requirement for the sealing performance is slightly higher, so the area of the sealing ring 60 sleeved on the shaft portion 41 may be slightly larger, specifically, the mounting groove 40b extends along the length direction of the shaft portion 41, so that the sealing ring 60 has a larger sealing area, and the sealing performance is improved. Further, referring to fig. 13, an annular shoulder 301 is formed on the inner wall of the first through hole 30a, and the circumferential direction of the seal ring 60 is in sealing contact with the annular shoulder 301. Further extrude sealing washer 60 through cyclic annular convex shoulder 301 and produce deformation, strengthen sealing performance, promote leak protection water effect, moreover, sealing washer 60 has great surface area, can ensure with the reliable butt of cyclic annular convex shoulder 301.

Further, referring to fig. 11 and 12, the containing apparatus further includes a wash control valve 51, and the wash control valve 51 is connected to the adapter 40'. Specifically, the adapter 40' includes a flange 42 disposed at one end of the shaft 41 near the washing control valve 51, the second through hole 40a penetrates the flange 42, and one end of the washing control valve 51 extends into the second through hole 40a and is tightly connected with the flange 42. The fastening manner is not limited, and in the present embodiment, the fastening is a screw connection, specifically, the inner wall of the second through hole 40a is formed with an internal thread, one side of the washing control valve 51 is formed with an external thread, and the washing control valve 51 is screw-connected with the flange 42.

In order to facilitate the restriction of the depth of the shaft 41 inserted into the first through hole 30a, in the embodiment of the present application, referring to fig. 13, a step surface 30b facing the washing control valve 51 is formed on the inner wall of the first through hole 30a, and the flange 42 abuts against the step surface 30 b. During assembly, the adapter 40 ' is inserted into the first through hole 30a until the flange 42 abuts against the step surface 30b, and at the moment, the adapter 40 ' and the water inlet connector 30 ' are assembled in place, so that the assembly speed of the adapter 40 ' and the water inlet connector 30 ' can be improved.

When the water flow channel is used as a drainage channel, please refer to fig. 5, 14 to 16, the first water guiding element 30 is a first drainage pipe 30 ", and the first drainage pipe 30" penetrates through the sidewall of the second side of the seat body 10. It should be noted that, the first drainage pipe 30 ″ and the seat body 10 may be a split structure or an integrally formed structure, and are not limited herein. A drain hole (not shown) is formed on the accommodating body 20, the second water guiding member 40 is a manifold 40 "communicated with the drain hole, and the first drain pipe 30" is in inserted fit with the manifold 40 ". It should be noted that one end of the manifold 40 "may be directly connected to the periphery of the drain hole, or may be indirectly communicated with the drain hole through another pipeline, for example, in the embodiment of the present application, referring to fig. 3 and 5, the accommodating apparatus includes a second drain pipe 52, one end of the second drain pipe 52 is connected to the manifold 40", and the other end of the second drain pipe 52 is connected to the periphery of the drain hole.

Further, an overflow hole (not shown) is formed in the accommodating body 20, and referring to fig. 3 and 5, the container device includes an overflow pipe 53, one end of the overflow pipe 53 is communicated with the overflow hole, and the other end of the overflow pipe 53 is communicated with the manifold 40 ″, that is, a tee structure is provided at one end of the manifold 40 ″, which is far from the first drain pipe 30 ″, so that water flows from the overflow hole and the drain hole are merged and then discharged from the manifold 40 ″. It will be appreciated that the position of the overflow aperture is higher than the position of the drain aperture, and the overflow aperture and the overflow tube 53 provide protection against water level rising in the cleaning space 201 if the receiving device fails, and when the water level rises to the height of the overflow aperture, the water flows out through the overflow aperture, thus ensuring that the water level in the cleaning space 201 does not exceed the height of the overflow aperture.

The various embodiments/implementations provided herein may be combined with each other without contradiction.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (12)

1. A container apparatus, comprising

A base body (10);

the accommodating body (20), the accommodating body (20) is at least partially arranged in the seat body (10), a cleaning space (201) for accommodating articles is formed in the accommodating body (20), and the accommodating body (20) can move relative to the seat body (10);

the first water guide piece (30), the first water guide piece (30) is connected with the base body (10), and a first through hole (30a) is formed in the first water guide piece (30);

the second water guide piece (40), the second water guide piece (40) is connected with the accommodating body (20), a second through hole (40a) is formed in the second water guide piece (40), and the second water guide piece (40) and the first water guide piece (30) are in pluggable insertion fit; under the condition that the second water guide (40) is in plug fit with the first water guide (30), the first through hole (30a) and the second through hole (40a) are communicated to form a water flow channel communicated with the cleaning space (201).

2. The container apparatus according to claim 1, characterized in that it comprises a sealing ring (60); the sealing ring (60) is sleeved on the first water guide (30) or the second water guide (40), and the sealing ring (60) is in sealing and abutting connection between the first water guide (30) and the second water guide (40).

3. The container apparatus as claimed in claim 2, wherein a circumferential surface of the first water guide (30) or the second water guide (40) is formed with a mounting groove (40b), and the sealing ring (60) is snapped into the mounting groove (40 b).

4. The container apparatus according to claim 1, wherein the first water guide (30) is formed with a first guide surface (30c) for guiding the second water guide (40); and/or the second water guide (40) is formed with a second guide surface (40c) for guiding the first water guide (30).

5. The container apparatus according to claim 2, wherein the first water guide (30) is a water inlet joint (30'); the second water guide piece (40) is an adapter (40 '), the adapter (40') comprises a shaft part (41), the sealing ring (60) is sleeved on the shaft part (41), and the shaft part (41) extends into the first through hole (30 a).

6. The container apparatus according to claim 5, wherein the seal ring (60) extends in a longitudinal direction of the shaft portion (41), an inner wall of the first through hole (30a) is formed with an annular shoulder (301), and a circumferential direction of the seal ring (60) is in sealing abutment with the annular shoulder (301).

7. Container apparatus according to claim 5, characterized in that it comprises a washing control valve (51) connected to said adapter (40'); the adapter (40') comprises a flange (42) which is arranged at one end, close to the washing control valve (51), of the shaft portion (41), the second through hole (40a) penetrates through the flange (42), one end of the washing control valve (51) extends into the second through hole (40a), and the second through hole is tightly connected with the flange (42).

8. The container apparatus according to claim 7, wherein an inner wall of the first through hole (30a) is formed with a stepped surface (30b) facing the washing control valve (51), and the flange (42) abuts against the stepped surface (30 b).

9. The container apparatus according to claim 1, wherein the first water guide (30) is a first drain pipe (30 "); the accommodating body (20) is provided with a drain hole, the second water guide piece (40) is a collecting pipe (40 ') communicated with the drain hole, and the first drain pipe (30 ') is in plug-in fit with the collecting pipe (40 ').

10. A container apparatus according to claim 9, characterized in that it comprises an overflow pipe (53), said containing body (20) being formed with an overflow aperture, one end of said overflow pipe (53) communicating with said overflow aperture and the other end of said overflow pipe (53) communicating with said manifold (40 "); the position of the overflow hole is higher than that of the drain hole.

11. The container apparatus according to any of claims 1 to 10, wherein the container apparatus is a drawer-type apparatus, the first side of the receptacle (10) is open, and the receiving body (20) can be inserted into the receptacle (10) or extracted from the receptacle (10) from the opening of the receptacle (10); the first water guide (30) is disposed on a second side of the seat body (10) opposite to the first side, and the second water guide (40) is disposed on a side of the accommodating body (20) corresponding to the second side of the seat body (10).

12. The container apparatus according to claim 11,

the container device is a shoe washing machine, the washing space (201) comprises a washing cavity (201a) and a water storage cavity (201b), liquid in the washing cavity (201a) can enter the water storage cavity (201b), the shoe washing machine comprises a shoe rack assembly (70), and the shoe rack assembly (70) is rotatably arranged in the washing cavity (201 a);

the number of the water flow channels is one, and the water flow channels are communicated with the washing cavity (201a) or the water storage cavity (201 b); or, the number of the water flow channels is multiple, at least one water flow channel is communicated with the washing cavity (201a), and at least one water flow channel is communicated with the water storage cavity (201 b).

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