CN217247177U - Slag-water separation device and cleaning machine - Google Patents

Abstract

The utility model relates to a sediment water separator and cleaning machine, this sediment water separator includes casing and push pedal, the inside cavity of casing forms and holds the chamber, this appearance chamber has water inlet, delivery port and discharge port, the water inlet is located the oblique top of discharge port and exports each other dislocation side by side, the push pedal is located and holds the intracavity and arranges in the below of water inlet, through the combined action of the water inlet that holds the chamber and delivery port, can be smooth the discharge function of completion waste water, and the staggered arrangement form of water inlet and discharge port wherein, can separate the collection action of residue and drainage action and handle respectively, utilize the intermittent type of push pedal to promote simultaneously, can drive the push pedal when needs and carry out the centralized processing of residue, compare in traditional form of directly discharging, the refuse handling mode is more nimble, the storage of residue no longer vertical discharge structure, no matter be to the residue carry out subsequent stoving or be limited in the collection, is more convenient and very practical.

Description

Slag-water separation device and cleaning machine

Technical Field

The utility model relates to a rubbish from cooking clearance field specifically belongs to a sediment water separator and cleaning machine.

Background

Along with the increase of people's environmental consciousness, the attention degree to the waste classification is also higher and higher, and kitchen garbage needs special processing mode as a large class of daily rubbish, if not topple over in time, especially summer, not only breeds bacterium mosquito easily, also can produce the bad smell. Therefore, a plurality of people select a convenient garbage disposer to treat kitchen garbage. The refuse treatment ware on the existing market is mostly the inline, generally installs at the basin lower nozzle position promptly, and kitchen garbage pours into the refuse treatment ware and cuts the stirring in, then discharges in to sewer pipe, so causes the jam of sewer pipe easily, if this inline refuse treatment ware of installation is more in whole district, will bring the jam problem for the district drain pipe, for this reason partial enterprise company has researched and developed the refuse treatment ware that has the stoving function.

For example, chinese utility model patent No. cn201921630698.x discloses "a kitchen waste disposer", in which an outer cover is hinged to the upper part of a fixing cover, a touch button is provided in the outer cover and connected to a control box, and the control box is fixed below the inner part of a main body case; the main body shell above the control box is embedded with a crushing cavity, the fixing cover is embedded in an upper port of the crushing cavity, the periphery of the fixing cover is erected on the upper surface of a kitchen table board, the upper portion of the inner wall of the crushing cavity is connected with a cleaning nozzle, the cleaning nozzle is connected with a water inlet pipe in a penetrating manner, the inlet end of the water inlet pipe penetrates through the lower side wall of the main body shell and is connected with a kitchen water source, and an electromagnetic valve is arranged on the water inlet pipe and connected with the control box.

Although the garbage disposer has the effect of separating the residue from the water besides the function of smashing the kitchen waste, the occurrence rate of the blockage situation of a sewer is effectively reduced, the similar garbage disposer can meet the requirements of the kitchen waste with less residual water, such as vegetable leaves, leftovers and the like, the residual water is more difficult to treat, and the direct-discharging garbage disposer is difficult to collect the residues to be recovered after treatment and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the first technical problem that is to provide a residue-water separation device that does benefit to residue collection to the current situation of prior art.

The utility model aims to solve the second technical problem that to prior art's current situation, provide a sediment water separator of effective extrusion residue in order to discharge the residual water.

The third technical problem to be solved by the utility model is to provide a cleaning machine with the above-mentioned slag-water separation device in view of the current situation of the prior art.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: a slag-water separation apparatus comprising:

the device comprises a shell, a water inlet, a water outlet, a water tank, a downstream grinder, a water outlet and a water tank cavity, wherein the shell is hollow to form a cavity, the cavity is provided with the water outlet, the water inlet is communicated with the water tank cavity, and the discharge port is communicated with the downstream grinder;

the water inlet is located the oblique top of discharge port and with the discharge port is misplaced each other, still including:

the push plate is arranged in the containing cavity and below the water inlet, can be close to or far away from the discharge port, and pushes residues to the discharge port in a state of being close to the discharge port.

In order to ensure smooth drainage of the slag-water separation device, preferably, the accommodating cavity comprises a collecting chamber for collecting residues and a draining chamber arranged side by side with the collecting chamber, both the water inlet and the water outlet are arranged in the draining chamber, the water outlet is positioned below the water inlet and communicated with the water inlet to form a draining flow passage, and the discharge port is arranged at the collecting chamber, so that the draining flow passage is vertically communicated due to the arrangement of the water outlet and the water inlet, residual water needing to be discharged cannot be blocked by any type of component, and smooth drainage is ensured.

In order to ensure the preliminary filtration to the residue, preferably, still be provided with first sediment basket in the waterlogging caused by excessive rainfall cavity, the interval is provided with a plurality of waterlogging caused by excessive rainfall holes on the first sediment basket, the push pedal is located in the first sediment basket.

The push plate can move in various forms, preferably, a first driver is further arranged on the shell, the first driver is arranged on the periphery of the containing cavity, and the power output end of the first driver is in driving connection with the push plate.

The power of the first driver can be transmitted to the push plate in different forms, and preferably, a screw rod is further disposed on the housing, rotatably disposed in the draining chamber and penetrating the push plate to drive the push plate to move, and the extending direction of the screw rod intersects with the flowing direction of the fluid in the draining flow passage.

In order to ensure that the first driver has enough driving force when transmitting to the push plate, preferably, a mounting seat is arranged on the side of the housing, the first driver is arranged at the bottom of the mounting seat, the output shaft extends upwards, the screw rod is provided with a first transmission tooth at the corresponding end, a second transmission tooth is arranged on the output shaft of the first driver, and the screw rod is driven by the first transmission tooth and the second transmission tooth to rotate around the axis of the screw rod under the driving of the first driver.

In order to ensure the smooth sliding of the push plate, preferably, the screw rod is inserted into one side of the push plate, and a guide rod is further arranged in the draining chamber, and extends in the same direction as the screw rod and is inserted into the other side of the push plate.

The waterlogging caused by excessive rainfall cavity is linked together through the uncovered at middle part with collecting the cavity, still be provided with sealed curb plate in collecting the cavity, this sealed curb plate can seal up uncovered department, and can open or close uncovered department.

In order to further solve the second technical problem, the utility model discloses the technical scheme who adopts does: the sealed curb plate is arranged to move to keeping away from open direction, and then makes sediment water separator be in two kinds of user states:

in a draining state, the sealing side plate is sealed at the opening, the push plate moves to abut against the sealing side plate, and a gap for extruding residual water of residues is formed between the push plate and the sealing side plate;

under the collection state, sealed curb plate removes to the open one side of keeping away from of casing, just the bottom of waterlogging caused by excessive rainfall cavity with collect the cavity and link up and form the passageway that supplies the push pedal to push the residue after will extruding into the discharge port. The design form of sealed curb plate like this has artificially divided into two stages with the processing procedure of residue, and the first stage is that the push pedal extrudees the residue to sealed curb plate on, realizes the initiative discharge of residual water, and sealed curb plate is sealed in uncovered department this moment, and whole residual water exhaust process is injectd and is accomplished in the waterlogging caused by excessive rainfall cavity to the water of extruding is directly drained away by the waterlogging caused by excessive rainfall runner. And the second stage is to collect dust from the extruded residue, i.e. the push plate is pushed forward continuously until the residue enters the outlet, and at the moment, the sealing side plate moves to a position far away from the opening, so that enough avoiding space is provided for the movement of the push plate.

In order to ensure the sealing effect of the sealing side plate and avoid leakage of water flow during extrusion, preferably, the inner side wall of the cavity extends inwards to form an annular rib extending circumferentially, the sealing side plate is abutted against the annular rib in a draining state, and an annular sealing ring is arranged on the periphery of the sealing side plate at a position opposite to the annular rib.

In order to ensure that the sealing side wall can move, preferably, a second driver is further arranged in the collection chamber, and a power output end of the second driver is in driving connection with the sealing side plate so as to drive the sealing side plate to move.

In order to ensure that the water with the residues can be led out into the cavity, the residue-water separating device also comprises a water draining component, wherein the water draining component is arranged at the water inlet and is at least partially positioned in a water tank of the dishwasher.

Preferably, the lower water assembly comprises a cover body, a lower water seat and a second slag basket which are sequentially arranged from top to bottom, wherein the outer edge of the lower water seat is provided with a first blocking edge used for being installed on the bottom wall of the cleaning machine, the top opening of the lower water seat is provided with an inner cavity, the cover body is detachably covered on the opening of the inner cavity, the second slag basket is detachably installed at the bottom of the lower water seat, the second slag basket is detachably designed, whether the whole slag-water separation device is started or not can be selected according to needs, and when slag-water separation is not needed, the second slag basket is only required to be installed, most of residues are intercepted by the second slag basket, and the slag-water separation device can be directly poured.

In order to avoid the cover body being opened by misoperation when processing residues, the sewer assembly preferably further comprises a locking mechanism, and in a state that the cover body is covered on the opening of the inner cavity, an output end of the locking mechanism acts on a side wall of the cover body to limit the cover body to be separated from the opening.

Specifically, locking mechanism includes locking cylinder and locking depression bar, the locking depression bar is connected the output of locking cylinder, and can be along the radial removal of lid under the effect of locking cylinder, the lid lateral wall outwards bulges in the bottom and forms the second and keep off the edge the lid is located under the state of inner chamber opening part, the locking depression bar moves to on the second keeps off the path that moves up on the edge.

The locking of the cover body can be realized in various forms, preferably, the locking compression bar is of an arc structure with two ends bent towards the same side, and an inner concave surface of the arc structure is matched with the outer wall of the cover body.

The periphery of the lower water seat is further provided with a trigger mechanism, the trigger mechanism is provided with a support and a contact piece, the contact piece extends into the inner cavity and is electrically connected with the first driver, the second driver and the locking cylinder, and the lower edge of the cover body is in contact with the contact piece when the cover body is covered on the lower water seat.

In order to further solve the third technical problem, the utility model discloses the technical scheme who adopts is: a cleaning machine with the slag-water separation device comprises a box body, a water tank and a grinder, wherein a cleaning cavity is formed in the box body in a hollow mode, the water tank and the box body are arranged side by side, a shell is installed below the water tank, and the grinder is installed at a discharge port.

Compared with the prior art, the utility model has the advantages of: among this sediment water separator, through the water inlet that holds the chamber and the combined action of delivery port, the discharge function of completion residual water that can be smooth, and the staggered arrangement form of water inlet and discharge port wherein, can separate the collection action of residue and drainage action and handle respectively, utilize the intermittent type of push pedal to promote simultaneously, can drive the push pedal and carry out the centralized processing of residue when needs, compare in traditional straight row form, the refuse treatment mode is more nimble, the storage of residue no longer is subject to vertical discharge structure, no matter carry out subsequent stoving or collection to the residue, all more convenience, and is very practical.

Drawings

Fig. 1 is a schematic view of the overall structure of a cleaning machine according to an embodiment of the present invention;

FIG. 2 is an overall schematic view of a slag-water separating device in an embodiment of the present invention;

FIG. 3 is a cross-sectional view at another angle to FIG. 2;

FIG. 4 is an exploded view from another angle of FIG. 3;

FIG. 5 is a schematic view of an embodiment of the present invention showing the entire sewage module;

fig. 6 is a cross-sectional view at another angle of fig. 5.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 6, in the present embodiment, the slag-water separating device is suitable for use in a cleaning machine, where the cleaning machine includes a box 100, a water tank 2 and a grinder 3, the inside of the box 100 is hollow to form a cleaning chamber, the water tank 2 is arranged side by side with the box 100, the slag-water separating device in the present embodiment specifically includes a housing 1 and a push plate 4, the inside of the housing 1 is hollow to form a cavity 10, the cavity 10 has a water outlet 1b, a water inlet 1a for communicating with the cavity of the water tank 2 and a discharge port 1c for communicating with a downstream grinder 3, along the flow direction of fluid, the water outlet 1b is arranged downstream of the water inlet 1a and is combined into the cleaning machine, i.e. the housing 1 is installed below the water tank 2, and the grinder 3 is installed at the discharge port 1 c.

In this embodiment, the draining and residue collecting steps are divided into two independent stages, and structurally, the receiving chamber 10 includes a collecting chamber 12 for collecting the residue and a draining chamber 11 arranged side by side with the collecting chamber 12, the water inlet 1a and the water outlet 1b are both arranged in the draining chamber 11, the water outlet 1b is located below the water inlet 1a and is communicated with the water inlet 1a to form a draining flow passage, and the discharge port 1c is arranged at the collecting chamber 12. That is, the water inlet 1a is positioned above the discharge port 1c in an oblique direction and is staggered with the discharge port 1c, and the staggered design can separate the residue collecting action and the residue discharging action for respective treatment, thereby better realizing the residue-water separation and avoiding the embarrassment of residue-water mixing during direct discharge.

In this embodiment, push pedal 4 locates and holds the intracavity 10 and arrange in the below of water inlet 1a, this push pedal 4 can be close to or keep away from discharge port 1c, and be close to with residue propelling movement to discharge port 1c department under the state of discharge port 1c, just foretell waterlogging caused by excessive rainfall, discharge structure, the action of pushing out for push pedal 4 provides prerequisite, from the function, the intermittent type that has utilized push pedal 4 promotes, can drive push pedal 4 when needing and carry out the centralized processing of residue, compare in traditional straight row form, the refuse treatment mode is more nimble, the storage of residue no longer is restricted to vertical discharge structure, no matter carry out subsequent stoving or collection to the residue, all convenience more.

Particularly, still be provided with first sediment basket 5 in foretell waterlogging caused by excessive rainfall cavity 11, the interval is provided with a plurality of waterlogging caused by excessive rainfall holes on the first sediment basket 5, and push pedal 4 is located in first sediment basket 5. Of course, the movement of the push plate 4 requires a corresponding power source, in this embodiment, the above-mentioned housing 1 is further provided with a first driver 61, the first driver 61 is arranged at the periphery of the cavity 10, and the power output end is in driving connection with the push plate 4. And a screw 62 is further arranged on the housing 1, the screw 62 is rotatably arranged in the draining chamber 11 and is arranged on the push plate 4 in a penetrating way, so as to drive the push plate 4 to move, and the extending direction of the screw 62 is crossed with the flowing direction of the fluid in the draining flow passage. The side of the housing 1 in this embodiment is provided with a mounting seat 63, the first driver 61 is arranged at the bottom of the mounting seat 63, the output shaft extends upwards, the screw 62 is provided with a first transmission tooth 64 at the corresponding end, the output shaft of the first driver 61 is provided with a second transmission tooth 65, and the screw 62 is driven by the first transmission tooth 64 and the second transmission tooth 65 to rotate around its axis under the driving of the first driver 61. The screw 62 is arranged at one side of the push plate 4 in a penetrating way, the draining chamber 11 is also internally provided with a guide rod 66, and the guide rod 66 and the screw 62 extend in the same direction and are arranged at the other side of the push plate 4 in a penetrating way.

When push pedal 4 realized the action of above-mentioned release, can also have the function that the extrusion residue realized initiative drainage concurrently, for the cooperation push pedal 4 power of exerting oneself, the waterlogging caused by excessive rainfall cavity 11 in this embodiment is linked together through the uncovered at middle part with collection cavity 12, still is provided with sealed curb plate 13 in collecting cavity 12, and this sealed curb plate 13 is sealed in uncovered department, and can remove to keeping away from uncovered direction, and then makes sediment water separator be in two kinds of user states:

in a draining state, the sealing side plate 13 is sealed at the opening, the push plate 4 moves to abut against the sealing side plate 13, and a gap for extruding residual water of residues is formed between the push plate 4 and the sealing side plate 13;

in the collection state, the sealing side plate 13 moves to the side of the casing 1 away from the opening, and the bottom of the draining chamber 11 is communicated with the collection chamber 12 to form a channel for the push plate 4 to push the extruded residues into the discharge port 1 c.

The structure for realizing sealing can be different forms, in this embodiment, the inner side wall of the cavity 10 extends inward to form a circumferentially extending annular rib 14, in a draining state, the sealing side plate 13 abuts against the annular rib 14, and the periphery of the sealing side plate 13 is provided with an annular sealing ring 15 at a position opposite to the annular rib 14. The design of annular flange 14 and sealing washer 15 like this, not only realized face seal in sealed curb plate 13 and the lateral wall department of annular flange 14, still with the help of annular sealing washer 15's effect, promoted sealed effect on face seal's basis, and then avoided the seepage of rivers or even the infiltration of water droplet. In addition, an independent driving source is required for the movement of the sealing side plate 13, a second driver 16 is further arranged in the collection chamber 12, and a power output end of the second driver 16 is in driving connection with the sealing side plate 13 so as to drive the sealing side plate 13 to move.

In order to ensure that the slag-water mixture in the water tank can enter the slag-water separating device, the slag-water separating device also comprises a lower water component 7, and the lower water component 7 is arranged at the water inlet 1a and is at least partially positioned in the water tank 2 of the dishwasher. The sewage assembly 7 in this embodiment includes a cover 71, a sewage base 72 and a second slag basket 73, which are sequentially arranged from top to bottom, wherein the outer edge of the sewage base 72 has a first blocking edge 75 for mounting with the bottom wall of the cleaning machine, the top of the sewage base 72 is open and the inside of the sewage base is hollow to form an inner cavity 70, the cover 71 is detachably covered at the opening of the inner cavity 70, and the second slag basket 73 is mounted at the bottom of the sewage base 72. In addition, the sewage module 7 further comprises a locking mechanism 74, and in a state that the cover body 71 is covered on the opening of the inner cavity 70, an output end of the locking mechanism 74 acts on a side wall of the cover body 71 to limit the cover body 71 to be separated from the opening. Specifically, the locking mechanism 74 includes a locking cylinder 741 and a locking lever 742, the locking lever 742 is connected to an output end of the locking cylinder 741 and can move along a radial direction of the cover 71 under the action of the locking cylinder 741, a side wall of the cover 71 protrudes outward at a bottom to form a second stopping edge 76, and the locking lever 742 moves to an upward moving path of the second stopping edge 76 in a state where the cover 71 is disposed at the opening of the inner cavity 70. The locking pressure lever 742 in this embodiment is an arc structure with two ends bending towards the same side, and the inner concave surface of the arc structure matches with the outer wall of the cover 71.

In addition, for locking and unlocking of the cover body 71, an independent trigger mechanism 77 is arranged on the periphery of the sewer seat 72, a contact piece 78 in the trigger mechanism 77 is arranged on the periphery of the sewer seat 72 and extends into the inner cavity 70, and in a state that the cover body 71 is covered on the sewer seat 72, the cover body 71 is in contact with the contact piece 78 and is communicated with a loop corresponding to the contact piece 78, so that different electric signals are given to the locking cylinder 741, the first driver 61 and the second driver 16, different moving modes of the push plate 4 and the sealing side plate 13 are realized at different time stages, and different actions such as slag-water separation and extrusion are realized. Since the electrical signal transmission and control portions are not the main points of the present application, the details of the connection, structure and type of the controller and the electrical components for implementing the control portions are not described herein. The actions of the push plate 4 and the sealing side plate 13 at different stages are detailed in the working process.

The working process is as follows:

1. separating slag from water:

the second slag basket 73 can be selectively arranged on the lower water seat 72 according to requirements, if the second slag basket 73 is arranged, water flows away from the second slag basket 73 and the draining holes of the first slag basket 5 and is discharged, residues are left in the second slag basket 73, if deep separation treatment is not needed, the second slag basket 73 is directly taken out, the residues are poured out, if separation treatment is needed, after a certain amount of residues are accumulated, the residues in the second slag basket 73 can be poured into the draining chamber 11 below and are received by the first slag basket 5; if the second slag basket 73 is not installed, the residue and water directly flow into the draining chamber 11, and most of the water directly flows out of the draining holes of the first slag basket 5 and is discharged, while the residue remains in the first slag basket 5. The purpose of setting up of second sediment basket 73 here is to provide more various nimble residue processing mode for the user, and in case there is not rubbish from cooking to drop, can directly handle the recovery to second sediment basket 73, avoids causing the damage to mill 3 of low reaches.

2. Residue transfer

In the above stage, no matter whether the second slag basket 73 is installed or not, in different options, the first slag basket 5 will collect the residues, when the cover body 71 is covered, because the cover body 71 will contact the contact plate 78 in the trigger mechanism 77 when being covered, the locking cylinder 741 in the locking mechanism 74 drives the locking pressure rod 742 to abut against the side wall of the cover body 71 and block on the upward moving path of the second stop edge 76, at this time, the cover body 71 cannot be removed from the outside, the whole sewage assembly obtains a relatively closed inner cavity 70 space, at the same time, the push plate 4 is driven by the first driver 61 to move towards the collection chamber 12, and simultaneously the residues in the first slag basket 5 are pressed towards the sealing side plate 13 sealed at the opening, the residues are pressed to cause most of water to flow out from the draining hole to the two sides or the bottom, after the pressing action is kept for a certain time, the sealing side plate 13 is driven by the second driver 16 to move towards the same direction as the push plate 4 (towards the direction away from the opening), the processed residue is finally pushed to the discharge port 1c, and enters the downstream grinder 3 through the discharge port 1c, and further processes such as grinding and drying are performed. Certainly, the push plate 4 can also be directly pushed in a manner of not extruding the residues, and only the sealing side plate 13 needs to be avoided before the push plate 4 reaches the corresponding position, only the optimal process is shown here, and details for the second case are not described again.

The term "fluid communication" as used herein refers to a spatial relationship between two components or portions (hereinafter collectively referred to as a first portion and a second portion), i.e., a fluid (gas, liquid or a mixture of both) can flow along a flow path from the first portion or/and be transported to the second portion, and may be directly communicated between the first portion and the second portion, or indirectly communicated between the first portion and the second portion via at least one third member, which may be a fluid passage such as a pipe, a channel, a duct, a flow guide, a hole, a groove, or a chamber allowing the fluid to flow therethrough, or a combination thereof.

Furthermore, directional terms, such as "front," "rear," "upper," "lower," "left," "right," "side," "top," "bottom," and the like, used in the description and claims of the present invention are used to describe various example structural portions and elements of the present invention, but are used herein for convenience of description only and are to be determined based on example orientations shown in the accompanying drawings. Because the disclosed embodiments may be arranged in different orientations, these directional terms are for illustrative purposes only and should not be construed as limiting, and for example, "upper" and "lower" are not necessarily limited to orientations opposite or consistent with the direction of gravity.

Claims (18)

1. A slag-water separation device comprising:

the device comprises a shell (1), wherein the interior of the shell is hollow to form a cavity (10), the cavity (10) is provided with a water outlet (1b), a water inlet (1a) communicated with the cavity of a water tank (2) and a discharge port (1c) communicated with a downstream grinder (3), and the water outlet (1b) is arranged at the downstream of the water inlet (1a) along the flowing direction of fluid;

characterized in that the water inlet (1a) is positioned above the discharge port (1c) in an inclined way and is staggered with the discharge port (1c), and the water inlet device also comprises:

the push plate (4) is arranged in the containing cavity (10) and is arranged below the water inlet (1a), the push plate (4) can be close to or far away from the discharge port (1c), and residue is pushed to the discharge port (1c) under the state of being close to the discharge port (1 c).

2. The slag-water separation device according to claim 1, wherein: the container (10) comprises a collecting chamber (12) for collecting residues and a draining chamber (11) arranged side by side with the collecting chamber (12), the water inlet (1a) and the water outlet (1b) are both arranged in the draining chamber (11), the water outlet (1b) is positioned below the water inlet (1a) and communicated with the water inlet (1a) to form a draining flow channel, and the discharge port (1c) is arranged at the collecting chamber (12).

3. The slag-water separation device of claim 2, wherein: still be provided with first sediment basket (5) in waterlogging caused by excessive rainfall cavity (11), the interval is provided with a plurality of waterlogging caused by excessive rainfall holes on first sediment basket (5), push pedal (4) are located in first sediment basket (5).

4. The slag-water separation device according to claim 3, wherein: the shell (1) is further provided with a first driver (61), the first driver (61) is arranged on the periphery of the accommodating cavity (10), and the power output end of the first driver is in driving connection with the push plate (4).

5. The slag-water separation device according to claim 4, wherein: the shell (1) is further provided with a screw rod (62), the screw rod (62) is rotatably arranged in the draining cavity (11) and penetrates through the push plate (4) to drive the push plate (4) to move, and the extending direction of the screw rod (62) is crossed with the flowing direction of fluid in the draining flow channel.

6. The slag-water separation device of claim 5, wherein: the side of casing (1) is provided with mount pad (63), first driver (61) are located the bottom of mount pad (63) and output shaft upwards extend, screw rod (62) are provided with first driving tooth (64) in the end that corresponds, be provided with second driving tooth (65) on the output shaft of first driver (61), screw rod (62) are through the meshing transmission of first driving tooth (64) and second driving tooth (65) to rotate around self axis under the drive of first driver (61).

7. The slag-water separation device of claim 6, wherein: the screw rod (62) penetrates through one side of the push plate (4), a guide rod (66) is further arranged in the draining chamber (11), and the guide rod (66) and the screw rod (62) extend in the same direction and penetrate through the other side of the push plate (4).

8. The slag-water separation device according to any one of claims 2 to 7, wherein: waterlogging caused by excessive rainfall cavity (11) and collection cavity (12) are linked together through the uncovered at middle part, still be provided with sealed curb plate (13) in collecting cavity (12), this sealed curb plate (13) can be sealed uncovered department, and can open or close uncovered department.

9. The slag-water separation device of claim 8, wherein: the sealing side plate (13) is arranged to move towards the direction far away from the opening, so that the slag-water separation device is in two using states:

in a draining state, the sealing side plate (13) is sealed at the opening, and the push plate (4) moves to be close to the sealing side plate (13) and leaves a gap for extruding residual water of residues with the sealing side plate (13);

under the collection state, the sealing side plate (13) moves to one side of the shell (1) far away from the opening, and the bottom of the draining cavity (11) is communicated with the collection cavity (12) to form a channel for the push plate (4) to push extruded residues into the discharge port (1 c).

10. The slag-water separation device of claim 9, wherein: the inner side wall of the accommodating cavity (10) is inwardly extended with an annular rib (14) extending in the circumferential direction, the sealing side plate (13) is abutted against the annular rib (14) in a draining state, and an annular sealing ring (15) is arranged on the periphery of the sealing side plate (13) at a position opposite to the annular rib (14).

11. The slag-water separation device of claim 10, wherein: and a second driver (16) is further arranged in the collection chamber (12), and the power output end of the second driver (16) is in driving connection with the sealing side plate (13) so as to drive the sealing side plate (13) to move.

12. The slag-water separation device according to any one of claims 1 to 7, wherein: the dishwasher is characterized by further comprising a lower water assembly (7), wherein the lower water assembly (7) is installed at the water inlet (1a) and is at least partially located in the water tank (2) of the dishwasher.

13. The slag-water separation device of claim 12, wherein: the washing assembly (7) comprises a cover body (71), a washing base (72) and a second slag basket (73), wherein the cover body (71), the washing base (72) and the second slag basket (73) are sequentially arranged from top to bottom, a first blocking edge (75) used for being installed on the bottom wall of the washing machine is arranged at the outer edge of the washing base (72), an inner cavity (70) is formed in the washing base (72) in a hollow mode, the top of the washing base (72) is open, the cover body (71) can be detachably covered at the opening of the inner cavity (70), and the second slag basket (73) is installed at the bottom of the washing base (72).

14. The slag-water separation device according to claim 13, wherein: the sewer assembly (7) further comprises a locking mechanism (74), and under the condition that the cover body (71) is arranged at the opening of the inner cavity (70), the output end of the locking mechanism (74) acts on the side wall of the cover body (71) to limit the cover body (71) to be separated from the opening.

15. The slag-water separation plant of claim 14, wherein: the locking mechanism (74) comprises a locking cylinder (741) and a locking pressure rod (742), the locking pressure rod (742) is connected to an output end of the locking cylinder (741) and can move along the radial direction of the cover body (71) under the action of the locking cylinder (741), a side wall of the cover body (71) protrudes outwards at the bottom to form a second retaining edge (76), and the locking pressure rod (742) moves to an upward moving path of the second retaining edge (76) under the condition that the cover body (71) is arranged at the opening of the inner cavity (70).

16. The slag-water separation device of claim 15, wherein: the locking pressure lever (742) is of an arc structure with two ends bent towards the same side, and the inner concave surface of the arc structure is matched with the outer wall of the cover body (71).

17. The slag-water separation plant of claim 16, wherein: the periphery of the lower water seat (72) is further provided with a trigger mechanism (77), the trigger mechanism (77) is provided with a support and a contact piece (78), the contact piece (78) extends into the inner cavity (70) and is electrically connected with the first driver (61), the second driver (16) and the locking cylinder (741), and in the state that the cover body (71) is arranged on the lower water seat (72), the lower edge of the cover body (71) is in contact with the contact piece (78).

18. A cleaning machine, comprising a box body (100), a water tank (2), a grinder (3) and a slag-water separation device as claimed in any one of claims 1 to 17, wherein the box body (100) is hollow to form a cleaning cavity, the water tank (2) and the box body (100) are arranged side by side, the shell (1) is installed below the water tank (2), and the grinder (3) is installed at the discharge port (1 c).

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