CN216823306U - Sewage collection assembly and base station for cleaning robot - Google Patents

Abstract

The utility model provides a sewage collecting component and a base station for a cleaning robot, wherein the sewage collecting component comprises a sewage bucket and a filtering basket, the sewage bucket comprises a bucket body and a bucket cover covering the bucket opening of the bucket body, and a first sewage inlet and a first air outlet are respectively arranged on the bucket wall of the bucket body near the top end; the top of filtering the hand-basket is uncovered, filter the hand-basket and have ventilative basket wall and set up the basket end of crossing the filtration pore, be provided with the second on the basket wall and advance dirty mouthful near top department, filter the hand-basket and place in the staving, and the upper periphery that filters the hand-basket closely laminates with the inner wall of staving, in order to separate the barrel chamber for being located the first barrel chamber that filters the hand-basket top and the second barrel chamber that is located and filters the hand-basket below, first dirty mouthful of advancing is through second dirty mouthful and first barrel chamber intercommunication, first air outlet is located near the top department that filters the hand-basket and communicates with the second barrel chamber. This sewage collection subassembly has better gas-liquid separation effect, and sewage is difficult to enter into the fan, can avoid sewage to damage the fan.

Description

Sewage collection assembly and base station for cleaning robot

Technical Field

The embodiment of the utility model provides a relate to domestic appliance technical field, especially relate to a sewage collection subassembly and be used for cleaning machines people's basic station.

Background

The cleaning robot is usually used in cooperation with a base station, drags and washes the ground, and returns to the base station periodically to replenish clean water, discharge sewage and replenish electric energy. If the application publication number is: CN113038293A, the present invention discloses a base station, a method for cleaning the base station, and a computer readable storage medium, wherein the base station includes a filter screen, an electric control valve, a first fan, a clean water tank, a sewage tank, a cleaning tray, a first water pump, and a second water pump, the first water pump is used for pumping clean water in the clean water tank to the cleaning tray; the first fan is used for sucking the sewage in the cleaning tray into the sewage tank; the filter screen is arranged above the inside of the sewage tank and used for filtering garbage in the sewage entering the sewage tank. Although the base station can collect sewage in the cleaning robot into the sewage tank, the sewage is easy to enter the fan, so that the high sealing and insulating requirements on the fan are met, and the fan is easy to damage.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned problem that exists among the prior art, the embodiment of the utility model provides a sewage collection subassembly and be used for cleaning machines people's basic station.

In order to solve the above problem, the embodiment of the present invention provides a technical solution:

a effluent collection assembly for a base station of a cleaning robot, the effluent collection assembly comprising:

the sewage barrel comprises a barrel body and a barrel cover which covers the barrel opening of the barrel body, and a first sewage inlet and a first air outlet are respectively arranged on the barrel wall of the barrel body and close to the top end;

the top end of the filtering basket is open, the filtering basket is provided with an air-tight basket wall and a basket bottom provided with a filtering hole, a second dirt inlet is formed in the basket wall close to the top end, the filtering basket is placed in the barrel body, the upper periphery of the filtering basket is tightly attached to the inner wall of the barrel body, so that the barrel cavity is divided into a first barrel cavity located above the filtering basket and a second barrel cavity located below the filtering basket, the first dirt inlet is communicated with the first barrel cavity through the second dirt inlet, and the first air outlet is located close to the top end of the filtering basket and communicated with the second barrel cavity.

This sewage collection subassembly has better gas-liquid separation effect, and sewage is difficult to enter into the fan, can avoid sewage to damage the fan.

In some embodiments, a first baffle is convexly arranged on the bottom surface of the barrel cover, the lower end of the first baffle is located below the second dirt inlet, the barrel cover, the first baffle and part of the inner wall of the barrel body jointly separate a flow guide space with a lower end opening from the first barrel cavity, and the second dirt inlet is communicated with the first barrel cavity through the flow guide space. In this way, the gas-liquid separation effect can be further improved.

In some embodiments, a part of the barrel wall of the barrel body near the top end extends outwards to form a first step part, and the first sewage inlet is vertically arranged on the first step part;

the partial basket wall that filters the hand-basket and be close to top department extends outwards and forms second step portion, the dirty mouth of second advance is followed vertical seting up in on the second step portion, second step portion overlap in the top of first step portion, just first dirty mouth of advancing with the dirty mouth of second advances relatively.

So, make things convenient for first dirty mouthful and take out dirty pipe connection, and easily realize first dirty mouthful of advancing and second dirty mouthful intercommunication.

In some embodiments, the periphery of the first dirt inlet extends upwards to form a first guide cylinder, and the top end of the first guide cylinder is abutted against the second step part and is communicated with the flow guide space through the second dirt inlet. Sewage enters the filtering lifting basket through the first guide cylinder and the second sewage inlet, and the sewage is prevented from directly flowing into the sewage bucket without being filtered.

In some embodiments, the top of the second sewage inlet is covered with a flow guide cover, and the flow guide cover is provided with a side opening facing the first baffle plate. The kuppe can be with the first baffle of sewage direction for sewage is along vertical downward flow under the guide of first baffle, avoids sewage to splash on the bung or outside the slop pail, is of value to and keeps clean.

In some embodiments, the first baffle is adjacent to the edge of the second step portion, and the lower edge of the first baffle and the edge of the second step portion form an elongated lower opening. Like this, sewage can press close to the basket wall downflow of filtering the hand-basket, and even partial sewage flows down along the basket wall, can avoid sewage to splash.

In some embodiments, the effluent collection assembly further comprises:

the second guide cylinder is arranged in the barrel body, the top end of the second guide cylinder is connected with the first air outlet, and the lower end of the second guide cylinder is communicated with the second barrel cavity;

the floating block is arranged in the second guide cylinder in a lifting manner, is configured to be lifted along with the rise of the water level in the barrel body, and cuts off the flow of the air flow in the second guide cylinder when the floating block is lifted to a preset position.

Like this, when the water level was higher in the bilge tank, first air outlet was blocked in the cooperation of second draft tube and sewage piece, avoided sewage by the suction fan in.

In some embodiments, the slider has a gap with an inner wall of the second guide shell;

set up the second baffle in the second draft tube, the second baffle will the section of thick bamboo chamber of second draft tube is separated and is close to the first section of thick bamboo chamber of first air outlet and keep away from the second section of thick bamboo chamber of first air outlet, the through-hole has been seted up at the middle part of second baffle, works as the slider risees to when predetermineeing the position, the shutoff the through-hole.

In some embodiments, a handle is disposed in the inner cavity of the filter basket, and the handle is located outside the flow guide space. So, can keep the handle clean, conveniently be used for getting to put the hand-basket.

A base station for a cleaning robot comprises a fan, a sewage pumping pipeline and the sewage collecting assembly;

the sewage pumping pipeline is communicated with the first barrel cavity through the first sewage inlet and is used for pumping sewage from a sewage tank of the cleaning robot parked in the base station;

the fan is communicated with the second barrel cavity through the first air outlet and used for exhausting air from the second barrel cavity through the first air outlet so as to provide suction power for the sewage pumping pipeline.

This basic station has better gas-liquid separation effect equally, and during sewage was difficult to get into the fan, can avoid sewage to damage the fan, also was of value to reducing the sealed and insulating requirement to the fan, and then reduction in production cost.

The utility model discloses sewage collection subassembly not only can realize solid-liquid separation, has better gas-liquid separation effect moreover, and sewage is difficult to enter into the fan, and then can avoid sewage to damage the fan.

Drawings

Fig. 1 and fig. 2 are perspective views of a sewage collecting assembly according to an embodiment of the present invention in different states;

FIG. 3 is an exploded view of a wastewater collection assembly according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of a waste water collection assembly in accordance with an embodiment of the present invention;

FIG. 5 is a perspective view of the filter basket;

fig. 6 is a perspective view of a base station according to an embodiment of the present invention.

Description of reference numerals:

100-a sewage collection assembly;

110-a slop pail; 111-barrel body; 112-tub lid; 113-a first inlet for soil; 114-a first outlet; 115-a first step; 116-a first draft tube; 117-a first baffle; 118-a flow guiding space;

120-a filter basket; 121-a second sewage inlet; 122-filtration pores; 123-a second step; 124-a flow guide cover; 125-a handle;

130-a second guide shell; 131-a second baffle; 132-a via; 133-a first cartridge chamber; 134-a second cartridge chamber; 135-a slide hole;

140-a slider; 141-a slide block;

200-body;

300-sewage extraction pipe.

Detailed Description

For better understanding of the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

The utility model provides a sewage collection subassembly, the basic station of cleaning machines people is applied to the sewage collection subassembly, and this sewage collection subassembly is arranged in collecting the sewage that extracts from cleaning machines people, and this cleaning machines people can be mopping machine people, floor cleaning machines people or mopping and sweep integrative robot etc..

Referring to fig. 1 to 4, a wastewater collection assembly 100 according to an embodiment of the present invention may include a wastewater tank 110 and a filtering basket 120. The waster tub 110 comprises a tub body 111 and a tub cover 112 covering the tub opening of the tub body 111, thereby forming a relatively sealed tub cavity, a first waste inlet 113 and a first air outlet 114 which are communicated with the tub cavity are arranged on the wall of the tub body 111, and the first waste inlet 113 and the first air outlet 114 are both located near the top end of the tub body 111.

The top end of the filtering basket 120 is open, the filtering basket 120 has a wind-tight basket wall and a basket bottom provided with a filtering hole 122, a second dirt inlet 121 is arranged on the basket wall near the top end, the filtering basket 120 is placed in the barrel body 111, the upper periphery of the filtering basket 120 is tightly attached to the inner wall of the barrel body 111 to divide the barrel cavity into a first barrel cavity above the filtering basket 120 and a second barrel cavity below the filtering basket 120, the first dirt inlet 113 is communicated with the first barrel cavity through the second dirt inlet 121, and the first air outlet 114 is located near the top end of the filtering basket 120 and is communicated with the second barrel cavity.

When the air-conditioning system is used, the first dirt inlet 113 is connected with a dirt pumping pipeline, and the first air outlet 114 is connected with a fan. The fan is used for extracting air from the second barrel cavity through the first air outlet 114, so that negative pressure is formed in the first barrel cavity and the second barrel cavity, and suction power is provided for the sewage extraction pipeline. After the cleaning robot is parked to the base station, the sewage pumping pipeline can be connected with a sewage tank of the cleaning robot, and sewage is pumped from the sewage tank.

Sewage enters the first barrel cavity through the first sewage inlet 113 and the second inlet, and then enters the filtering basket 120 under the drive of airflow, and the sewage flows downwards due to the fact that the basket wall of the filtering basket 120 is not air-tight, after being filtered through the filtering holes 122 in the bottom of the basket, solid garbage is trapped in the filtering basket 120, and the sewage enters the second barrel cavity; because the first air outlet 114 is arranged at the top end close to the filtering basket 120, the air flow passes through the bottom of the filtering basket 120 and then turns to flow upwards, and the sewage continues to flow downwards under the action of gravity and inertia, so that gas-liquid separation is realized, and the purpose of preventing the sewage from entering the fan is realized.

The utility model discloses sewage collection subassembly 100 not only can realize solid-liquid separation, has better gas-liquid separation effect moreover, and sewage is difficult to enter into the fan, and then can avoid sewage to damage the fan.

In some embodiments, as shown in fig. 3, a part of the barrel wall of the barrel body 111 near the top end extends outward to form a first step 115, and the first soil inlet 113 is vertically opened on the first step 115. A second step portion 123 is formed by extending outward a part of the basket wall of the filtering basket 120 near the top end, the second dirt inlet 121 is vertically opened on the second step portion 123, the second step portion 123 is overlapped above the first step portion 115, and the first dirt inlet 113 is opposite to the second dirt inlet 121. So, make things convenient for first dirty mouthful 113 and the pipe connection of taking out dirty, and easily realize first dirty mouthful 113 and the intercommunication of second dirty mouthful 121 of intaking.

In some embodiments, the periphery of the first dirt inlet 113 extends upward to form a first guide cylinder 116, and the top end of the first guide cylinder 116 abuts against the second step portion 123 and is communicated with the guide space 118 through the second dirt inlet 121. In this way, as long as the filtering basket 120 is disposed in the barrel 111, the top end of the first guiding cylinder 116 can abut against the second sewage inlet 121, and sewage enters the filtering basket 120 through the first guiding cylinder 116 and the second sewage inlet 121, so that the sewage is prevented from directly flowing into the sewage bucket 110 without being filtered.

In some embodiments, as shown in fig. 4, a first baffle 117 protrudes downward from a bottom surface of the tub cover 112, a lower end of the first baffle 117 is located below the second dirt inlet 121, the tub cover 112, the first baffle 117, and a part of an inner wall of the tub 111 jointly partition a flow guiding space 118 with a lower end open from the first tub cavity, and the second dirt inlet 121 is communicated with the first tub cavity through the flow guiding space 118. This water conservancy diversion space 118 can be adjusted the flow direction of sewage for basically along vertical flow, and then makes sewage filter the back through filtration pore 122, still keeps along vertical flow direction under gravity and inertial effect, and the air current upwards flows after turning back, has better gas-liquid separation effect.

In some embodiments, as shown in fig. 2 and fig. 3, the first baffle 117 is adjacent to an edge of the second step portion 123, and a lower edge of the first baffle 117 and the edge of the second step portion 123 form a narrow lower opening. Thus, the sewage can flow down close to the basket wall of the filtering basket 120, and even a part of the sewage flows down along the basket wall, so that the splashing of the sewage can be avoided.

Alternatively, the cross-sectional shapes of the slop pail 110 and the filtering basket 120 may be both rectangular, the first step portion 115 may be disposed at a corner of the slop pail 110, the second step portion 123 may be disposed at a corner of the filtering basket 120, and the cross-sectional shape of the second step portion 123 may also be rectangular, two sides of the second step portion 123 may respectively meet two adjacent basket walls of the filtering basket 120, the first baffle 117 may extend along the other two edges of the second step portion 123 to form a first baffle 117 with an L-shaped cross-sectional shape, and a lower end opening approximately in an L-shape is formed between the first baffle 117 and the second step portion 123.

In some embodiments, the second soil inlet 121 is covered with a dome 124 at the top, and the dome 124 has a side opening facing the first baffle 117. The diversion cover 124 can guide the sewage to the first baffle 117, so that the sewage flows vertically downwards under the guidance of the first baffle 117, and the sewage is prevented from splashing onto the barrel cover 112 or out of the sewage barrel 110, which is beneficial to keeping clean.

Alternatively, the entire air guide sleeve 124 may be similar to a cylindrical structure, and the top end of the cylindrical structure is covered and the circumferential surface of the cylindrical structure is provided with a side opening facing the first baffle 117. The cross-sectional shape of the first baffle 117 is L-shaped, and the side opening may face a corner of the first baffle 117.

As shown in fig. 3 and 4, in some embodiments, the wastewater collection assembly 100 further includes a second guide cylinder 130 and a floating block 140. The second guide cylinder 130 is disposed in the barrel 111, a top end of the second guide cylinder 130 is connected to the first air outlet 114, and a lower end of the second guide cylinder 130 is communicated with the second barrel cavity. A floating block 140 is liftably disposed in the second guide cylinder 130, and the floating block 140 is configured to be lifted with the water level in the tub 111, and to intercept the airflow in the second guide cylinder 130 when lifted to a preset position. Thus, when the water level in the slop pail 110 is high, the second guide cylinder 130 and the floating block 140 cooperate to block the first air outlet 114, so as to prevent the slop from being drawn into the fan.

In some embodiments, the slider 140 has a gap with an inner wall of the second guide shell 130; a second baffle 131 is arranged in the second guide cylinder 130, the second baffle 131 divides a cylinder cavity of the second guide cylinder 130 into a first cylinder cavity 133 close to the first air outlet 114 and a second cylinder cavity 134 far away from the first air outlet 114, a through hole 132 is formed in the middle of the second baffle 131, and when the floating block 140 is lifted to the preset position, the through hole 132 is blocked.

Alternatively, the second guide cylinder 130 may be a flat cylindrical structure having an inverted L-shaped longitudinal section and a long-strip-shaped cross section, the second guide cylinder 130 includes a first section extending in the transverse direction and a second section extending in the vertical direction, and the second baffle 131 may be disposed at the top end of the second section in the transverse direction, so as to divide the cylinder cavity of the second guide cylinder 130 into a first cylinder cavity 133 located in the first section and a second cylinder cavity 134 located in the second section. The second blocking plate 131 may be provided at a central portion thereof with an elongated through hole 132.

The two opposite side walls of the second section are respectively provided with a sliding hole 135 extending vertically, the two opposite sides of the floating block 140 are respectively provided with a sliding block 141 in a protruding manner, the floating block 140 is arranged in the second cylinder cavity 134, and the two sliding blocks 141 are respectively connected in the two sliding holes 135 in a sliding manner. When the top end of the slider 140 abuts against the second baffle 131, the through hole 132 is blocked, and a good sealing effect can be formed under the suction action of the fan.

In some embodiments, a handle 125 is disposed in the inner cavity of the filtering basket 120, and the handle 125 is located outside the diversion space 118. Set up handle 125 outside water conservancy diversion space 118, can avoid sewage to splash to handle 125, be of value to and keep handle 125 clean, convenience of customers uses.

Alternatively, the handle 125 may be disposed on a side wall of the basket away from the second soil inlet 121, and the top end of the handle 125 may be flush with the upper edge of the filtering basket 120 or may be recessed into the top opening of the filtering basket 120 to prevent the handle 125 from interfering with the lid 112.

Alternatively, the handle 125 may include a plate-shaped structure disposed at the middle of the filtering basket 120, the lower end of the plate-shaped structure may be connected to the bottom of the filtering basket 120, a ring-shaped structure for pulling may be disposed at the top end of the plate-shaped structure, and the top end of the plate-shaped structure may be flush with the upper edge of the filtering basket 120 or may be retracted into the filtering basket 120, as shown in fig. 5.

In specific implementation, in order to prevent the outer wall of the filtering basket 120 from being tightly attached to the inner wall of the barrel 111 and thus prevent the filtering basket 120 from being easily taken out, a gap may be formed between the outer wall of the filtering basket 120 and the inner wall of the barrel 111. For example, the inclination angle of the basket wall of the filtering basket 120 may be configured, or the cross-sectional size of the filtering basket 120 may be configured such that a gap is formed between the outer wall of the filtering basket 120 and the inner wall of the tub 111.

Referring to fig. 6, an embodiment of the present invention further provides a base station for a cleaning robot, where the base station includes a machine body, a blower, a sewage pumping pipeline and the sewage collecting assembly 100 as described in any of the above embodiments, and the blower, the sewage pumping pipeline and the sewage collecting assembly 100 may be disposed in the machine body. The sewage pumping pipeline is communicated with the first barrel cavity through the first sewage inlet 113 and is used for pumping sewage from a sewage tank of the cleaning robot parked at the base station. The fan is communicated with the second barrel cavity through the first air outlet 114 and is used for extracting air from the second barrel cavity through the first air outlet 114 so as to provide suction power for the sewage pumping pipeline.

Because above-mentioned sewage collection assembly 100 has better gas-liquid separation effect, so, the basic station of using this sewage collection assembly 100 also has above-mentioned advantage, and sewage is difficult to enter into the fan, avoids sewage to damage the fan, is of value to reducing the sealed and insulating requirement to the fan.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (10)

1. A sewage collection assembly for a base station of a cleaning robot, the sewage collection assembly comprising:

the sewage barrel comprises a barrel body and a barrel cover which covers the barrel opening of the barrel body, and a first sewage inlet and a first air outlet are respectively arranged on the barrel wall of the barrel body and close to the top end;

the top end of the filtering basket is open, the filtering basket is provided with an air-tight basket wall and a basket bottom provided with a filtering hole, a second dirt inlet is formed in the position, close to the top end, of the basket wall, the filtering basket is placed in the barrel body, the upper periphery of the filtering basket is tightly attached to the inner wall of the barrel body, so that the barrel cavity of the sewage barrel is divided into a first barrel cavity located above the filtering basket and a second barrel cavity located below the filtering basket, the first dirt inlet is communicated with the first barrel cavity through the second dirt inlet, and the first air outlet is located close to the top end of the filtering basket and communicated with the second barrel cavity.

2. The sewage collection assembly according to claim 1, wherein a first baffle is convexly disposed on a bottom surface of the barrel cover, a lower end of the first baffle is located below the second sewage inlet, the barrel cover, the first baffle and a part of inner wall of the barrel body jointly separate a flow guide space with an open lower end from the first barrel cavity, and the second sewage inlet is communicated with the first barrel cavity through the flow guide space.

3. The sewage collection assembly according to claim 2, wherein a portion of the barrel wall of the barrel body near the top end extends outward to form a first step portion, and the first sewage inlet is vertically opened on the first step portion;

the partial basket wall that filters the hand-basket and be close to top department extends outwards and forms second step portion, the dirty mouth of second advance is followed vertical seting up in on the second step portion, second step portion overlap in the top of first step portion, just first dirty mouth of advancing with the dirty mouth of second advances relatively.

4. The sewage collection assembly of claim 3, wherein the periphery of the first sewage inlet extends upwards to form a first guide cylinder, and the top end of the first guide cylinder is abutted against the second step part and is communicated with the guide space through the second sewage inlet.

5. The effluent collection assembly according to claim 3, wherein said second effluent inlet is topped by a baffle having a side opening facing said first baffle.

6. The effluent collection assembly according to claim 3, wherein said first baffle is adjacent an edge of said second step portion and a lower edge of said first baffle and said edge of said second step portion form an elongated lower end opening.

7. The effluent collection assembly of claim 1, further comprising:

the second guide cylinder is arranged in the barrel body, the top end of the second guide cylinder is connected with the first air outlet, and the lower end of the second guide cylinder is communicated with the second barrel cavity;

the floating block is arranged in the second guide cylinder in a lifting manner, is configured to be lifted along with the rise of the water level in the barrel body, and cuts off the flow of the air flow in the second guide cylinder when the floating block is lifted to a preset position.

8. The effluent collection assembly according to claim 7, wherein said floating block has a gap with an inner wall of said second guide shell;

set up the second baffle in the second draft tube, the second baffle will the section of thick bamboo chamber of second draft tube is separated and is close to the first section of thick bamboo chamber of first air outlet and keep away from the second section of thick bamboo chamber of first air outlet, the through-hole has been seted up at the middle part of second baffle, works as the slider risees to when predetermineeing the position, the shutoff the through-hole.

9. The effluent collection assembly according to claim 2, wherein a handle is disposed within the interior chamber of said filter basket and is positioned outside of said flow directing space.

10. A base station for a cleaning robot comprising a fan, a sewage extraction conduit and a sewage collection assembly according to any of claims 1 to 9;

the sewage pumping pipeline is communicated with the first barrel cavity through the first sewage inlet and is used for pumping sewage from a sewage tank of the cleaning robot parked in the base station;

the fan is communicated with the second barrel cavity through the first air outlet and is used for sucking air from the second barrel cavity through the first air outlet so as to provide suction power for the sewage suction pipeline.

Images