CN216293970U - A water conservancy diversion seat and rivers system, cleaning machine for cleaning machine - Google Patents

Abstract

The utility model relates to a flow guide seat for a cleaning machine, a water flow system and the cleaning machine, wherein the flow guide seat comprises a flow guide sleeve which is communicated up and down, the side part of the flow guide seat is provided with a water inlet which is communicated with the lower port of the flow guide sleeve, the side part of the flow guide sleeve is provided with a water inlet notch which extends upwards from the edge of the bottom part, the outer side wall of the flow guide sleeve is provided with a flow guide plate which extends outwards from the edge of the water inlet notch, and the height of the top wall of the flow guide plate is gradually reduced outwards along the radial direction of the flow guide sleeve. The guide plate extending outwards from the edge of the water inlet notch is arranged on the outer side wall of the guide sleeve, the height of the top wall of the guide plate is gradually reduced outwards along the radial direction of the guide sleeve, the water inlet notch is favorable for enabling water to rapidly flow back, and the guide plate is favorable for guiding local water flow while reducing the water absorption level and avoiding gas suction, so that the washing water consumption is reduced, and the water pumping stability is improved; when the guide plate is close to the slag collecting basket, the flow velocity of water at the slag collecting basket is improved, so that the slag collecting effect is improved.

Description

A water conservancy diversion seat and rivers system, cleaning machine for cleaning machine

Technical Field

The utility model relates to the technical field of dish washing machines, in particular to a flow guide seat, a water flow system and a washing machine for a washing machine.

Background

In dishwashers employing open flow systems, the spray arm is typically snap-fitted to the deflector cup and secured to the bottom of the sink.

For example, chinese patent application No. cn202011063575.x (publication No. CN112244711A) discloses a structure including a tank, a spray arm, a water drawing impeller and a motor, wherein the spray arm is disposed in the tank, a water inlet is formed on a bottom wall of the spray arm, a water spraying hole is formed on a top wall of the spray arm, the water drawing impeller is rotatably disposed in the tank and is used for pumping water from a bottom of the tank to the spray arm, the motor is disposed at the bottom of the tank and is used for driving the water drawing impeller to rotate, a flow guide seat is disposed on the bottom wall of the tank, the spray arm is rotatably supported at an upper end of the flow guide seat, a flow guide sleeve extending downward from an edge of the water inlet of the spray arm is disposed in the flow guide seat, a lower portion of the water drawing impeller is disposed in the flow guide sleeve, and an upper portion of the water drawing impeller penetrates through the water inlet and is disposed in the spray arm.

In the open type water flow system of the dishwasher, the diversion seat is used as a water absorption part to form an important part in the water flow system, and the structure of the diversion seat directly influences the energy efficiency and water efficiency of the dishwasher. The existing flow guide seat structure is high in water suction opening, when the actual liquid level is low, the pump can suck air into a flow channel in the operation process, the lift and the cleaning effect of water flow sprayed out by a spray arm are seriously affected, and if the liquid level is kept high, the large amount of washing water needs to be consumed, and the use cost is increased.

In addition, in the existing dish-washing machine, the spray arm is generally positioned at the central part of the washing cavity, the residue collecting basket is arranged on the filter plate beside the flow guide seat, and in the process of filtering and collecting the residues, because the water suction port is positioned on the flow guide seat, the water flow speed near the flow guide seat is higher than that at the residue collecting basket, so that the residue collecting effect of the eccentrically arranged residue collecting basket is poor.

SUMMERY OF THE UTILITY MODEL

The first technical problem to be solved by the utility model is to provide a flow guide seat for a cleaning machine, which reduces the water consumption for washing and improves the stability of pumping water by reducing the water absorption level.

The second technical problem to be solved by the utility model is to provide a flow guide seat for a cleaning machine, which can improve the slag collecting effect, aiming at the current situation of the prior art.

A third technical problem to be solved by the present invention is to provide a water flow system using the above-mentioned deflector seat for a washing machine, in view of the current state of the prior art.

The fourth technical problem to be solved by the present invention is to provide a cleaning machine using the above water flow system, aiming at the current state of the prior art.

The technical scheme adopted by the utility model for solving at least one technical problem is as follows:

the utility model provides a water conservancy diversion seat for cleaning machine, is including the water conservancy diversion cover that link up from top to bottom, the lateral part of water conservancy diversion seat has the water inlet that is linked together with the lower port of water conservancy diversion cover, the lateral part of water conservancy diversion cover is opened has the breach of intaking that upwards extends from the bottom edge, be provided with the guide plate from the outside extension of breach edge of intaking on the lateral wall of water conservancy diversion cover, and the roof height of this guide plate reduces along the radial outside gradually of water conservancy diversion cover.

In the utility model, the guide plate comprises a top plate extending outwards from the top edge of the water inlet notch and a side plate extending outwards from the side wall edge of the water inlet notch, and the top plate and the side plate jointly enclose a water absorption area. After installing the water conservancy diversion seat on the diapire of dish washer, the regional semi-surrounding region for locating the dish washer bottom of absorbing water can effectively reduce the local water level that absorbs water, improve local water velocity to regular rivers flow direction to a certain extent, thereby avoid during the air suction spray arm, reduce the washing water consumption, improve pump water stability.

Preferably, the water absorption area is at least one, and the height of the lower edge of the flow guide sleeve beside the water absorption area is lower than that of the outer edge of the top plate.

Preferably, an arc-shaped flow guide structure with smooth transition is formed at the joint of the top plate and the flow guide sleeve so as to reduce the energy loss of water flow.

Preferably, the width of the water absorption area is gradually reduced along the water flow direction to form a fan-shaped structure, which is beneficial to improving the water absorption effect.

In order to facilitate assembly, the flow guide seat further comprises bases arranged below the flow guide sleeve at intervals, the water inlet is formed between the bases and the lower end of the flow guide sleeve, and the lower edge of the side plate is supported on the bases.

Preferably, the base is annular and corresponds the periphery of water conservancy diversion cover and arranges, be provided with vertical arrangement's support arm on the base, the inboard on this support arm upper portion is connected with the water conservancy diversion cover outer wall, the upper end of support arm is provided with the buckle that is used for installing the piece that sprays, and the buckle is used for installing the spray arm.

Preferably, the upper wall surface of the base gradually inclines upwards from outside to inside along the radial direction to form a diversion inclined plane. The structure is favorable for reducing the energy loss of water flow and improving the water guide effect.

As an improvement, the periphery of the guide seat is further provided with a drainage plate which extends outwards along the radial direction and gradually reduces in height, at least part of the drainage plate covers the water absorption area, and the drainage plate extends outwards continuously along the outer edge of the guide plate. The structure can further increase the area and the volume of a guide area of water flow and further reduce the water absorption level, thereby avoiding air from being sucked into the spray arm, reducing the water consumption for washing and improving the stability of water pumping.

Preferably, the height of at least partial outer edge of the flow guide plate is lower than that of the lower edge of the flow guide sleeve. The water absorption areas are two and are arranged at the periphery of the flow guide seat at intervals, and the two water absorption areas are covered by the drainage plate. In the circumferential direction of the flow guide seat, the covering angle of the flow guide plate is 100-150 degrees.

Preferably, the length of the drainage plate in the radial direction is different, and the length of the drainage plate corresponding to the first water absorption area is larger than that of the drainage plate corresponding to the second water absorption area. Preferably, the height of the outer edge of the flow guide plate corresponding to the first water absorption area is not higher than that of the lower edge of the flow guide sleeve, and the height of the outer edge of the flow guide plate corresponding to the second water absorption area is lower than that of the lower edge of the flow guide sleeve.

Above-mentioned structure makes the drainage plate edge height that corresponds the first region that absorbs water be higher than the drainage plate edge height that corresponds the second region that absorbs water, is convenient for control the height that absorbs water of different regions in circumference as required, simultaneously, adjusts the rivers velocity of flow in different regions in the radial direction, is convenient for improve the collection sediment effect.

Preferably, the edge of the drainage plate is provided with a side coaming plate which is vertically arranged, and the side coaming plate and the drainage plate jointly enclose a drainage area. This drainage region will absorb water the regional area that the water level reduces and the region that the water level does not reduce separate, be convenient for when installation water conservancy diversion seat, according to the position of collection sediment basket, place the position of water conservancy diversion seat because: the in-process washes the dishes, the water that most fall back can get into in the waterlogging caused by excessive rainfall region through album sediment basket, the regional water that gets into the waterlogging caused by excessive rainfall flows back to the spray arm through being close to the drainage region that collection sediment basket and water level reduce rapidly through the water conservancy diversion seat, be favorable to improving return water efficiency, avoid the bubble to get into, and simultaneously, under the effect in diversion region, the velocity of water increase of collection sediment basket department has certain scouring action to collection sediment basket lateral wall, be favorable to improving collection sediment effect, clean the sediment basket automatically.

In the utility model, the top of the flow guide sleeve is provided with an arc-shaped flow guide part which is mutually connected with the upper end of the flow guide sleeve and has gradually increased inner diameter, the arc-shaped flow guide part is integrally formed with the drainage plate through an assembly sleeve sleeved on the periphery of the flow guide sleeve, and the buckle at the top of the support arm penetrates through the assembly sleeve to be arranged.

The water flow system with the diversion seat comprises a spraying arm, an impeller assembly and a driving piece, wherein the spraying arm is arranged at the top of the diversion seat, the impeller assembly is used for sucking water into the spraying arm from a water inlet, and the driving piece is used for driving the impeller assembly to rotate.

The cleaning machine comprises a box body, wherein the bottom of the box body is provided with a concave draining area, the top of the draining area is covered with a draining plate, a slag collecting basket which is arranged close to a first edge of the draining area is installed on the draining plate, the water flow system is used for pumping water in the draining area to the upper side of the draining plate, a guide seat is installed in the draining area and is arranged close to a second edge of the draining area, and the guide plate extends towards the slag collecting basket.

The utility model provides an use cleaning machine that has above-mentioned water conservancy diversion seat, includes the box, the bottom half has recessed waterlogging caused by excessive rainfall region, and the top in this waterlogging caused by excessive rainfall region covers has the waterlogging caused by excessive rainfall board, installs the collection sediment basket that is close to the regional first edge of waterlogging caused by excessive rainfall and arranges on this waterlogging caused by excessive rainfall board, be provided with in the waterlogging caused by excessive rainfall region and be used for the rivers system with the regional water pump of waterlogging caused by excessive rainfall to the waterlogging caused by excessive rainfall board top, the water conservancy diversion seat is installed in the waterlogging caused by excessive rainfall region and is close to the regional second edge of waterlogging caused by excessive rainfall and arranges, the drainage plate extends towards collection sediment basket.

The cleaning machine with the diversion seat comprises a box body, wherein the bottom of the box body is provided with a concave draining area, the top of the draining area is covered with a draining plate, a slag collecting basket arranged close to a first edge of the draining area is installed on the draining plate, a water flow system for pumping water in the draining area to the position above the draining plate is arranged in the draining area, the diversion seat is installed in the draining area and arranged close to a second edge of the draining area, and the drainage plate extends towards the slag collecting basket; the regional bottom of waterlogging caused by excessive rainfall is installed and is close to the heating member that the third edge was arranged, the outer port that first absorbs water the region is close to the heating member and is arranged, the outer port that the second absorbed water the region is close to album sediment basket and arranges, and is corresponding, and the drainage plate that corresponds first absorption water region extends to near heating member, and the drainage plate that corresponds the second absorption water region extends to album sediment basket lateral part.

Compared with the prior art, the utility model has the advantages that: the side part of the flow guide sleeve is provided with a water inlet notch extending upwards from the edge of the bottom, the outer side wall of the flow guide sleeve is provided with a flow guide plate extending outwards from the edge of the water inlet notch, the height of the top wall of the flow guide plate is gradually reduced outwards along the radial direction of the flow guide sleeve, the water inlet notch is favorable for enabling water to rapidly flow back, and the flow guide plate is favorable for guiding local water flow and avoiding gas suction while reducing the water absorption level, so that the water consumption for washing is reduced, and the water pumping stability is improved; when the guide plate is close to the slag collecting basket, the flow velocity of water at the slag collecting basket is improved, so that the slag collecting effect is improved.

Drawings

FIG. 1 is a schematic view of the structure of a washing machine (hidden draining board) according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic view of the hidden spray arm and impeller assembly of FIG. 1;

FIG. 4 is a schematic structural diagram of a diversion seat according to an embodiment of the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 from another angle;

FIG. 6 is a side view of FIG. 4;

FIG. 7 is a top view of FIG. 4;

fig. 8 is a partial structure diagram of a flow guide seat in an embodiment of the utility model (an integrated structure formed by an arc-shaped flow guide member, an assembly sleeve and a flow guide plate is not included).

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

The guide seat of the embodiment is mainly applied to a cleaning machine, and the cleaning machine is used for cleaning bowls, dishes, fruits and vegetables.

As shown in fig. 1 to 8, the cleaning machine of the present embodiment includes a box body 1, a concave draining area 11 is provided at the bottom of the box body 1, and the draining area 11 has a circular second edge, a first edge connected to a first end of the second edge, a third edge connected to a second end of the second edge, and a fourth edge connected between the first edge and the third edge.

The top of the draining area 11 is covered with a draining plate, the draining plate is provided with a slag collecting basket 2 which is arranged close to the first edge of the draining area 11, the top edge of the slag collecting basket 2 is clamped on the draining plate, the upper port of the slag collecting basket 2 is exposed out of the upper side of the draining plate, and the main body of the slag collecting basket 2 is positioned in the draining area 11. A water flow system for pumping water from the draining area 11 to above the draining board is arranged in the draining area 11.

As shown in fig. 2, the water flow system includes a spray arm 3, an impeller assembly 4 and a driving member 5, a flow guiding seat 6 is disposed at a second edge near the circular arc on the bottom wall of the draining area 11, the spray arm 3 is rotatably disposed at the top of the flow guiding seat 6 and above the draining plate, the upper portion of the impeller assembly 4 is located in the spray arm 3, and the lower portion of the impeller assembly 4 is located in the flow guiding seat 6, for sucking water from a water inlet at the bottom of the flow guiding seat 6 into the spray arm 3, the driving member 5 is a motor and is disposed on the outer bottom wall of the box body 1, and a motor shaft penetrates through the impeller assembly 4 on the bottom wall of the box body 1 to be connected to drive the impeller assembly 4 to rotate. The slag collection basket 2 is arranged close to a first edge of the draining area 11, and the bottom of the draining area 11 is provided with a heating element 7 arranged close to a third edge.

In this embodiment, as shown in fig. 4 to 8, the diversion seat 6 includes a diversion sleeve 61 and a base 62, the base 62 is annular and fixed on the inner bottom wall of the draining area 11 by screws, the diversion sleeve 61 penetrates up and down, and the diversion sleeve 61 is located above the base 62 and arranged corresponding to the central portion of the base 62. A water inlet 601 of the guide base 6 is formed between the base 62 and the lower end of the guide sleeve 61.

As shown in fig. 8, a water inlet notch 611 extending upward from the bottom edge is formed in the side portion of the guide sleeve 61, a guide plate 612 extending outward from the edge of the water inlet notch 611 is disposed on the outer side wall of the guide sleeve 61, and the height of the top wall of the guide plate 612 gradually decreases along the radial direction of the guide sleeve 61. The baffle 612 includes a top plate 6121 extending outward from the top edge of the water inlet notch 611 and a side plate 6122 extending outward from the side wall edge of the water inlet notch 611, and the top plate 6121 and the side plate 6122 jointly enclose the water absorption area 610. Install water conservancy diversion seat 6 after on the diapire of dish washer, the regional 610 that absorbs water is for locating the semi-surrounding region of dish washer bottom, can effectively reduce the local water level that absorbs water, improve local water velocity to regular rivers flow direction to a certain extent, thereby avoid during the air inhales the spray arm, reduce the washing water consumption, improve pump water stability.

The two water absorption areas 610 are arranged at the periphery of the flow guide seat 6 at intervals, and the lower edge of the flow guide sleeve 61 beside the water absorption areas 610 is lower than the outer edge of the top plate 6121. The joint of the top plate 6121 and the flow guide sleeve 61 forms an arc-shaped flow guide structure 6123 with smooth transition so as to reduce the energy loss of water flow. The lower edges of the side plates 6122 are supported on the base 62. The width of the water absorption region 610 is gradually reduced in the water flow direction to form a fan-shaped structure, which is advantageous for improving the water absorption effect.

The base 62 is provided with a vertically arranged support arm 621, the inner side of the upper part of the support arm 621 is connected with the outer wall of the diversion sleeve 61, the upper end of the support arm 621 is provided with a buckle 6211 for installing the spray arm 3, and the buckle 6211 is rotatably connected with the spray arm 3 through a clamping ring. The upper wall surface of the base 62 is gradually inclined upwards from outside to inside along the radial direction to form a diversion inclined surface 622, which is beneficial to reducing the energy loss of water flow and improving the water diversion effect.

As shown in fig. 4 to 7, the periphery of the guide base 6 of this embodiment is further provided with a flow guide plate 63 extending radially outward and gradually decreasing in height, a part of the flow guide plate 63 covers the water absorption area 610, and the flow guide plate 63 extends outward continuously along the outer edge of the guide plate 612 to extend to the outer side wall of the slag collecting basket 2. The structure can further increase the area and the volume of a guide area of water flow and further reduce the water absorption level, thereby avoiding air from being absorbed into the spray arm 3, reducing the water consumption for washing and improving the stability of water pumping. At least part of the outer edge of the flow guide plate 63 is lower than the lower edge of the flow guide sleeve 61. Both water absorbing areas 610 are covered by the flow guide plate 63. In the circumferential direction of the guide base 6, the covering angle a of the drainage plate 63 is 100-150 degrees.

As shown in FIG. 7, the length of the flow guide plates 63 in the radial direction is different, and the length d1 of the flow guide plate 63 corresponding to the first water-absorbing region 610 is greater than the length d2 of the flow guide plate 63 corresponding to the second water-absorbing region 610. As shown in fig. 6, the outer edges of the flow guide plates 63 corresponding to the first water absorption regions 610 have a height slightly lower than the lower edge of the flow guide sleeve 61, and the outer edges of the flow guide plates 63 corresponding to the second water absorption regions 610 have a height lower than the lower edge of the flow guide sleeve 61. The outer port of the first water absorption area 610 is arranged close to the heating element 7, the outer port of the second water absorption area 610 is arranged close to the slag collecting basket 2, correspondingly, the drainage plate 63 corresponding to the first water absorption area 610 extends to the position close to the heating element 7, and the drainage plate 63 corresponding to the second water absorption area 610 extends to the side part of the slag collecting basket 2.

The structure enables the edge height of the drainage plate 63 corresponding to the first water absorption area 610 to be higher than that of the drainage plate 63 corresponding to the second water absorption area 610, so that the water absorption heights of different areas in the circumferential direction can be controlled conveniently as required, in the embodiment, the water absorption height near the heating element 7 is reduced appropriately, and the water absorption height near the slag collection basket 2 is controlled to be the lowest; simultaneously, adjust the rivers velocity of flow of different regions on the radial, with the approximate increase of the speed of absorbing water of heating member 7 to reduce the incrustation scale accumulation, adjust the speed of absorbing water of collection sediment basket 2 annex for the biggest, thereby improve the sediment effect of collection.

The edge of the flow guide plate 63 of this embodiment is provided with a vertically arranged side wall plate 631, and the side wall 631 and the flow guide plate 63 together enclose a flow guide area 630. This drainage region 630 separates the region that the water level that absorbs water reduces and the region that the water level that absorbs water does not reduce, is convenient for when installation water conservancy diversion seat 6, according to the position of collection sediment basket 2, places the position of water conservancy diversion seat 6 because: the in-process washes the dishes, most water that falls back can get into in the regional 11 of waterlogging caused by excessive rainfall through album sediment basket 2, the water that gets into the regional 11 of waterlogging caused by excessive rainfall is through being close to the drainage region 630 that collection sediment basket 2 and water level reduce rapidly through the 6 backward flows of water conservancy diversion seat to spray arm 3 in, be favorable to improving return water efficiency, avoid the bubble to get into, and simultaneously, under the effect of diversion region 630, the velocity of water increase of collection sediment basket 2 department, have certain scouring action to 2 lateral walls of collection sediment basket, be favorable to improving collection sediment effect, automatically, clean the sediment basket.

In this embodiment, the top of the flow guiding sleeve 61 is provided with an arc-shaped flow guiding member 64 which is mutually connected with the upper end of the flow guiding sleeve 61 and has an inner diameter gradually increased, the arc-shaped flow guiding member 64 is integrally formed with the flow guiding plate 63 by an assembling sleeve 65 sleeved on the periphery of the flow guiding sleeve 61, and the buckle 6211 at the top of the supporting arm 621 passes through the assembling sleeve 65 to be arranged.

Claims (20)

1. The utility model provides a water conservancy diversion seat for cleaning machine, is including water conservancy diversion cover (61) that link up from top to bottom, the lateral part of water conservancy diversion seat (6) has water inlet (601) that are linked together with the lower port of water conservancy diversion cover (61), its characterized in that: the lateral part of water conservancy diversion cover (61) is opened has the breach of intaking (611) that upwards extends from the bottom edge, be provided with on the lateral wall of water conservancy diversion cover (61) from the outside guide plate (612) that extend of breach of intaking (611) edge, and the roof height of this guide plate (612) is along water conservancy diversion cover (61) radial outside gradually reducing.

2. The deflector seat for a washing machine as claimed in claim 1, characterized in that: the guide plate (612) comprises a top plate (6121) extending outwards from the top edge of the water inlet notch (611) and a side plate (6122) extending outwards from the side wall edge of the water inlet notch (611), and the top plate (6121) and the side plate (6122) jointly enclose a water absorption area (610).

3. The deflector seat for a washing machine as claimed in claim 2, characterized in that: the water absorption area (610) is at least one, and the height of the lower edge of the flow guide sleeve (61) beside the water absorption area (610) is lower than that of the outer edge of the top plate (6121).

4. The deflector seat for a washing machine as claimed in claim 2, characterized in that: the joint of the top plate (6121) and the flow guide sleeve (61) forms an arc-shaped flow guide structure (6123) with smooth transition.

5. The deflector seat for a washing machine as claimed in claim 2, characterized in that: the width of the water absorbing region (610) is gradually reduced along the water flow direction to form a fan-shaped structure.

6. The deflector seat for a washing machine as claimed in claim 2, characterized in that: the flow guide seat (6) further comprises a base (62) arranged below the flow guide sleeve (61) at intervals, the water inlet (601) is formed between the base (62) and the lower end of the flow guide sleeve (61), and the lower edge of the side plate (6122) is supported on the base (62).

7. The deflector seat for a washing machine as claimed in claim 6, characterized in that: base (62) are the annular and correspond the periphery of water conservancy diversion cover (61) and arrange, be provided with vertical arrangement's support arm (621) on base (62), the inboard on this support arm (621) upper portion is connected with water conservancy diversion cover (61) outer wall, the upper end of support arm (621) is provided with buckle (6211) that are used for installing the piece that sprays.

8. The deflector seat for a washing machine as claimed in claim 6, characterized in that: the upper wall surface of the base (62) is gradually inclined upwards from outside to inside along the radial direction to form a flow guide inclined surface (622).

9. The deflector seat for a washing machine as claimed in claim 2, characterized in that: the periphery of the flow guide seat (6) is also provided with a flow guide plate (63) which extends outwards in the radial direction and gradually reduces in height, at least part of the flow guide plate (63) covers the water absorption area (610), and the flow guide plate (63) extends outwards continuously along the outer edge of the flow guide plate (612).

10. The deflector seat for a washing machine as claimed in claim 9, characterized in that: the height of at least partial outer edge of the flow guide plate (63) is lower than that of the lower edge of the flow guide sleeve (61).

11. The deflector seat for a washing machine as claimed in claim 9, characterized in that: the water absorbing areas (610) are two and are arranged at the periphery of the flow guide seat (6) at intervals, and the two water absorbing areas (610) are covered by the flow guide plate (63).

12. The deflector seat for a washing machine as claimed in claim 11, characterized in that: in the circumferential direction of the flow guide seat (6), the coverage angle (a) of the flow guide plate (63) is 100-150 degrees.

13. The deflector seat for a washing machine as claimed in claim 11, characterized in that: the length of the drainage plate (63) in the radial direction is different, and the length of the drainage plate (63) corresponding to the first water absorption area (610) is larger than that of the drainage plate (63) of the second water absorption area (610).

14. The deflector seat for a washing machine as claimed in claim 13, characterized in that: the height of the outer edge of the flow guide plate (63) corresponding to the first water absorption area (610) is not higher than that of the lower edge of the flow guide sleeve (61), and the height of the outer edge of the flow guide plate (63) corresponding to the second water absorption area (610) is lower than that of the lower edge of the flow guide sleeve (61).

15. The deflector seat for a washing machine as claimed in claim 9, characterized in that: the edge of the drainage plate (63) is provided with a vertically arranged side enclosing plate (631), and the side enclosing plate (631) and the drainage plate (63) jointly enclose a drainage area (630).

16. The deflector seat for a washing machine as claimed in claim 9, characterized in that: the top of water conservancy diversion cover (61) is provided with arc water conservancy diversion spare (64) that links up each other and the internal diameter crescent with water conservancy diversion cover (61) upper end, and this arc water conservancy diversion spare (64) are put through the cover assembly (65) and the drainage plate (63) integrated into one piece of water conservancy diversion cover (61) periphery.

17. A water flow system using the deflector base for a washing machine as claimed in any one of claims 1 to 16, wherein: including spray arm (3), impeller subassembly (4) and driving piece (5), the top of water conservancy diversion seat (6) is located in spray arm (3), impeller subassembly (4) are arranged in inhaling spray arm (3) with water from water inlet (601), driving piece (5) are used for driving impeller subassembly (4) and rotate.

18. A washing machine applying the water flow system of claim 17, comprising a tank (1), said tank (1) having a recessed draining area (11) at the bottom, the top of the draining area (11) being covered with a draining plate, the draining plate being provided with a slag collecting basket (2) arranged close to a first edge of the draining area (11), said water flow system being adapted to pump the draining area (11) above the draining plate, characterized in that: the guide seat (6) is arranged in the draining area (11) and close to the second edge of the draining area (11), and the guide plate (612) extends towards the slag collecting basket (2).

19. A cleaning machine applying the deflector seat for a cleaning machine of claim 9, comprising a tank (1), wherein the tank (1) has a concave draining area (11) at the bottom, the top of the draining area (11) is covered with a draining plate, the draining plate is provided with a slag collecting basket (2) arranged near the first edge of the draining area (11), the draining area (11) is provided with a water flow system for pumping water of the draining area (11) to the position above the draining plate, and the cleaning machine is characterized in that: the flow guide seat (6) is arranged in the draining area (11) and close to the second edge of the draining area (11), and the flow guide plate (63) extends towards the slag collecting basket (2).

20. A cleaning machine applying a deflector seat for a cleaning machine according to claim 13, comprising a tank (1), said tank (1) having a recessed draining area (11) at the bottom, the top of the draining area (11) being covered with a draining plate on which is mounted a slag collecting basket (2) arranged close to a first edge of the draining area (11), said draining area (11) being provided with a water flow system for pumping the draining area (11) above the draining plate, characterized in that: the diversion seat (6) is arranged in the draining area (11) and close to the second edge of the draining area (11), and the diversion plate (63) extends towards the slag collection basket (2);

heating member (7) that are close to the third edge and arrange are installed to the bottom in waterlogging caused by excessive rainfall region (11), the outer port of first regional (610) of absorbing water is close to heating member (7) and arranges, the outer port of second regional (610) of absorbing water is close to collection sediment basket (2) and arranges, and is corresponding, and drainage plate (63) that correspond first regional (610) of absorbing water extends to near heating member (7), and drainage plate (63) that correspond second regional (610) of absorbing water extends to collection sediment basket (2) lateral part.

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