CN217013860U - Dirty receiver and cleaning equipment of scrubbing brush - Google Patents

Abstract

The utility model discloses a dirty storage box and cleaning equipment of a floor brush, wherein the dirty storage box comprises: the box body is provided with a dirty inlet and an air outlet, the dirty inlet is communicated with the solid waste storage cavity, and the air outlet is communicated with the sewage storage cavity; and the filtering piece corresponds to the communication hole and is used for filtering the dirty mixture flowing into the solid garbage storage cavity so as to filter and store the solid garbage in the dirty mixture in the solid garbage storage cavity. From this, through the dirty receiver of this application, can separately deposit solid waste (solid) and sewage (liquid) to can be convenient for the user clear up solid waste and sewage in the dirty receiver (for example, the user can pour solid waste into the garbage bin, pours sewage into the sewer).

Description

Dirty receiver and cleaning equipment of scrubbing brush

Technical Field

The utility model relates to the field of living electric appliances, in particular to a dirty storage box of a floor brush and cleaning equipment with the dirty storage box of the floor brush.

Background

In the related art, the cleaning apparatus may be used to clean the ground, and the cleaning apparatus may store dirt in the storage box of the cleaning apparatus, however, the existing cleaning apparatus may store solid waste (solid) and sewage (liquid) in the storage box in a mixed manner (that is, the cleaning apparatus may store a mixture of solid waste and sewage in the storage box), so that it is inconvenient for a user to clean the mixture of solid waste and sewage in the cleaning apparatus (for example, if the mixture of solid waste and sewage in the storage box is directly poured into a sewer, it is easy to cause blockage of the sewer).

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. To this end, an object of the present invention is to provide a dirty storage case of a floor brush, which can store solid garbage (solid) and sewage (liquid) separately, so that a user can clean the solid garbage and sewage in the dirty storage case conveniently (for example, the user can pour the solid garbage into a garbage can and the sewage into a sewer).

The utility model further provides a cleaning device.

The dirty receiver of scrubbing brush according to the utility model includes: the box body defines a sewage storage cavity and a solid garbage storage cavity, the sewage storage cavity is communicated with the solid garbage storage cavity through a communication hole, the box body is provided with a dirt inlet and an air outlet, the dirt inlet is communicated with the solid garbage storage cavity, and the air outlet is communicated with the sewage storage cavity; and the filter element corresponds to the communication hole and is used for filtering the dirty mixture flowing into the solid garbage storage cavity so as to filter and store the solid garbage in the dirty mixture in the solid garbage storage cavity.

According to the dirty storage box of the floor brush, solid garbage (solid) and sewage (liquid) can be stored separately, so that the solid garbage and the sewage in the dirty storage box can be cleaned conveniently by a user (for example, the user can pour the solid garbage into a garbage can and pour the sewage into a sewer).

In some examples of the utility model, the solid waste storage chamber is located within the effluent storage chamber, the effluent storage chamber surrounding the solid waste storage chamber.

In some examples of the utility model, the cartridge body comprises: the cover body and the box main body jointly limit the sewage storage cavity and the solid garbage storage cavity.

In some examples of the present invention, the cartridge body defines a total storage space having an open end, a partition plate is provided in the total storage space to partition the total storage space into a first storage space and a second storage space, and the cover includes a first cover body provided to the open end of the first storage space to form the solid waste storage chamber and a second cover body provided to the open end of the total storage space to form the dirty water storage chamber.

In some examples of the utility model, the divider plate and the cartridge body together define the first storage space, and the contamination inlet is provided in the cartridge body and communicates with the solid waste storage chamber.

In some examples of the utility model, the airflow outlet is provided in the second cover body.

In some examples of the present invention, the communication hole and the filter member are provided in the first cover.

In some examples of the utility model, the filter element comprises: the filter body limits an airflow channel communicated with the communication hole, and the side wall of the airflow channel is provided with a filter part to communicate the solid garbage storage cavity with the airflow channel.

In some examples of the utility model, the airflow passage extends in a height direction of the dirty storage box.

In some examples of the present invention, the bottom wall of the first storage space is constituted by a bottom wall of the cartridge body, the bottom wall of the first storage space includes a first bottom wall, a connecting bottom wall connected between the first bottom wall and the second bottom wall, and a second bottom wall having a height higher than that of the first bottom wall, the second bottom wall being provided with the contamination inlet.

In some examples of the utility model, a surface of the first cover remote from the solid waste storage chamber extends at an incline to facilitate liquid on the surface of the first cover to flow along the first cover into the waste storage chamber.

In some examples of the utility model, the surface of the first cover body far away from the solid garbage storage cavity is provided with a diversion rib.

In some examples of the utility model, the cartridge body has first and second opposing side walls, the divider plate defines the first storage space in cooperation with the first and bottom walls, and the divider plate is spaced apart from the second side wall to form a flow gap.

In some examples of the present invention, the communication hole is provided in the first cover, and the communication hole is provided near the first sidewall.

In some examples of the utility model, a first baffle is disposed within the second storage space, the first baffle being connected to and extending toward the second sidewall, the first baffle being disposed proximate the flow gap and spaced apart from the divider plate.

In some examples of the utility model, a second baffle is disposed in the second storage space, the second baffle being connected to the divider plate and extending away from the divider plate, the second baffle being located outside of and adjacent to the flow gap, the second baffle being spaced apart from the first baffle.

According to the cleaning equipment, the cleaning equipment comprises the floor brush and the dirty storage box, wherein the dirty storage box is arranged on the floor brush, and the dirty storage box is the dirty storage box.

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

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a floor brush according to an embodiment of the present invention;

FIG. 2 is a schematic view of another angle of a floor brush according to an embodiment of the present invention;

fig. 3 is a schematic view of a dirty storage cassette according to an embodiment of the present invention without a cover;

fig. 4 is a schematic view of the dirty storage box according to the embodiment of the present invention without a second cover (box cover);

FIG. 5 is a side view of a floor brush according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view taken at A-A of FIG. 5;

fig. 7 is a schematic view of a second cover (box cover) according to an embodiment of the present invention;

fig. 8 is a schematic view of another angle of the second cover (lid) according to the embodiment of the present invention;

FIG. 9 is a cross-sectional view taken at B-B of FIG. 8;

fig. 10 is a schematic view of a first cover according to an embodiment of the present invention;

FIG. 11 is a cross-sectional view of a floor brush according to an embodiment of the present invention.

Reference numerals:

a cleaning apparatus 100; a dirty storage box 200;

a floor brush 1; a rolling brush 2; an exhaust pipe 3; an exhaust inlet 31; an exhaust outlet 32;

a cartridge body 10; a cover 11;

a first cover 111; a communication hole 1111; a filter 1112; a filter body 1113; an air flow passage 1114; a filter section 1115; the flow guiding ribs 1116; third margin 1117; a guide tube 1118;

a second cover 112; an airflow outlet 1121; the first rib 1122; a second rim 1123; a connecting passage 1124; a recess 1125;

a pressure relief port 113; a first pressure relief vent 1131; a second pressure relief vent 1132;

a cartridge main body 12; the total storage space 121; a partition plate 122; a first storage space 1221; a solid waste storage chamber 1222; a second storage space 1223; a waste water storage chamber 1224; a flow gap 1225; a first baffle 1226; a second stopper 1227;

a bottom wall 123; a first bottom wall 1231; connecting bottom wall 1232; a second bottom wall 1233; a dirty inlet 1234; a first sidewall 124; a second sidewall 125;

a box cover 13; an airflow inlet 131; a communication flow passage 132; a first sub-stream 1321; a second sub-channel 1322; a third sub-stream 1323; a fluid flow chamber 133;

a separator 14; the first separator 141; a second partition 142; the first plate portion 1421; a web portion 1422; a second plate part 1423.

Detailed Description

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

A dirty storage box 200 of the floor brush 1 of the cleaning apparatus 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 11.

As shown in fig. 1 to 11, the dirty storage box 200 according to the embodiment of the present invention includes: a cartridge body 10 and a filter 1112.

The box body 10 defines a sewage storage chamber 1224 and a solid waste storage chamber 1222, the sewage storage chamber 1224 communicates with the solid waste storage chamber 1222 through a communication hole 1111, a dirt inlet 1234 and an air outlet 1121 are formed in the box body 10, the dirt inlet 1234 communicates with the solid waste storage chamber 1222, and the air outlet 1121 communicates with the sewage storage chamber 1224. The filter 1112 is disposed corresponding to the communication hole 1111, and the filter 1112 is configured to filter the dirty mixture flowing into the solid waste storage chamber 1222 to filter out solid waste in the dirty mixture, so that the solid waste in the dirty mixture is stored in the solid waste storage chamber 1222.

The cleaning apparatus 100 may be used for cleaning the ground, and specifically, as shown in fig. 2, the cleaning apparatus 100 may include a rotatable rolling brush 2, the rolling brush 2 may be used for cleaning the ground by rotation, and a dirty mixture on the ground may enter the dirty storage box 200 through the dirty inlet 1234. It will be appreciated that the above-ground dirty mixture may be a mixture of solid and liquid, for example, the above-ground dirty mixture may be a mixture of solid waste and sewage.

When dirty mixture on the ground enters the dirty storage box 200 through the dirty inlet 1234, the dirty mixture can enter the solid waste storage chamber 1222, and since the filter 1112 is disposed corresponding to the communication hole 1111, under the filtering action of the filter 1112, the solid waste (solid) in the dirty mixture can be filtered out of the dirty mixture, the filtered solid waste (solid) can be stored in the solid waste storage chamber 1222, then the dirty water (liquid) in the dirty mixture can enter the dirty storage chamber 1224 through the communication hole 1111, and the gas in the dirty mixture can be discharged out of the dirty storage box 200 through the gas outlet 1121.

Among the prior art, cleaning equipment can store solid waste (solid) and sewage (liquid) mixture in the containing box (namely cleaning equipment can store the mixture of solid waste and sewage in the containing box) to the user of being inconvenient clears up the mixture of solid waste and sewage in the cleaning equipment (for example, if directly pour the mixture of solid waste and sewage in the containing box into the sewer, lead to the sewer jam easily).

In the present application, the cavity in the box body 10 is divided into the sewage storage chamber 1224 and the solid waste storage chamber 1222, and the filter member 1112 is correspondingly disposed in the communication hole 1111 that communicates the sewage storage chamber 1224 and the solid waste storage chamber 1222, so that the solid waste (solid) in the dirty mixture can be filtered out of the dirty mixture, and the solid waste (solid) and the sewage (liquid) can be stored in the solid waste storage chamber 1222 and the sewage storage chamber 1224, i.e., the solid waste (solid) can be stored in the solid waste storage chamber 1222, the sewage (liquid) can be stored in the sewage storage chamber 1224, so that the solid waste (solid) and the sewage (liquid) can be prevented from being mixed, and a user can conveniently clean the dirty in the dirty storage box 200.

For example, the user can pour the sewage in the sewage storage chamber 1224 into the sewer, and the user can pour the solid waste in the solid waste storage chamber 1222 into the trash can, so that the user can conveniently clean up the dirt in the dirty storage box 200, and can avoid the sewer from being blocked, so that the use experience of the user can be better.

From this, through dirty receiver 200 of this application, can separately deposit solid waste (solid) and sewage (liquid) to can be convenient for the user clear up solid waste and sewage in the dirty receiver 200 (for example, the user can pour solid waste into the garbage bin, pours sewage into the sewer).

In some embodiments of the present invention, as shown in fig. 3 and 4, the solid waste storage chamber 1222 may be disposed in the sewage storage chamber 1224, and the sewage storage chamber 1224 surrounds the solid waste storage chamber 1222, so that by disposing the solid waste storage chamber 1222 in the sewage storage chamber 1224, the space utilization rate of the cartridge body 10 may be improved, the structure of the cartridge body 10 may be made compact, thereby facilitating to reduce the volume of the cleaning apparatus 100, improving the user experience, and improving the competitiveness of the product.

In some embodiments of the present invention, as shown in fig. 4 and 11, the cartridge body 10 may include: a cover 11 and a box main body 12, the cover 11 may be disposed on the box main body 12, for example, one end of the cover 11 may be engaged with the box main body 12, the other end of the cover 11 may be rotatably connected to the box main body 12, and the cover 11 and the box main body 12 may jointly define a sewage storage chamber 1224 and a solid waste storage chamber 1222. The arrangement can prevent the dirty water storage cavity 1224 and the dirty water of the solid waste storage cavity 1222 from splashing out of the box body 10, and can ensure the reliability of the dirty storage box 200 for storing the dirty water.

In some embodiments of the present invention, as shown in fig. 3 and 4, the cartridge body 12 may define a total storage space 121 having one end open, a partition plate 122 may be disposed in the total storage space 121, and the partition plate 122 may partition the total storage space 121 into a first storage space 1221 and a second storage space 1223. Wherein, the cover 11 may include a first cover 111 and a second cover 112, the first cover 111 may cover the open end of the first storage space 1221 to form the solid waste storage chamber 1222, and the second cover 112 may cover the open end of the total storage space 121 to form the sewage storage chamber 1224.

Through setting up division board 122, can be divided into two sub-storage space with total storage space 121, can improve the space utilization of box body 10, can make the compact structure of box body 10, thereby be favorable to reducing cleaning equipment 100's volume, and, division board 122 can avoid sewage (liquid) in sewage storage chamber 1224 and solid waste (solid) in the solid waste storage chamber 1222 to mix, thereby guarantee that dirty receiver 200 can reliably deposit solid waste (solid) and sewage (liquid) separately, can be convenient for the user to clear up solid waste and sewage in the dirty receiver 200.

It should be noted that the first cover 111 may be disposed at the open end of the first storage space 1221, one end of the second cover 112 may be disposed in a snap-fit manner with the main box body 12, and the other end of the second cover 112 may be disposed in a rotatable manner with the main box body 12.

In some embodiments of the present invention, as shown in fig. 2-4, the divider plate 122 and the cartridge body 10 may together define a first storage space 1221, the dirty inlet 1234 may be disposed at the cartridge body 12, and the dirty inlet 1234 may communicate with the solid waste storage chamber 1222. This arrangement ensures that the dirt entering the dirty storage box 200 through the dirt inlet 1234 can first enter the solid waste storage chamber 1222, thereby ensuring that the solid waste filtered out of the dirty mixture by the filter 1112 can be stored in the solid waste storage chamber 1222.

In some embodiments of the present invention, as shown in fig. 2, 7, 9 and 11, the airflow outlet 1121 may be provided at the second cover 112. It should be explained that when the dirty mixture on the ground enters the dirty storage box 200 through the dirty inlet 1234, the solid garbage (solid) in the dirty mixture is filtered out of the dirty mixture by the filtering function of the filter 1112, the filtered solid garbage (solid) is stored in the solid garbage storage chamber 1222, then the dirty water (liquid) in the dirty mixture enters the dirty storage chamber 1224 through the communication hole 1111, and the gas in the dirty mixture can flow into the second cover 112, and the gas flowing into the second cover 112 can be discharged out of the dirty storage box 200 through the air outlet 1121.

Alternatively, as shown in fig. 1, the cleaning apparatus 100 may further include an exhaust pipe 3, the exhaust pipe 3 and the roller brush 2 may be respectively disposed at both ends of the contamination storage case 200, the exhaust pipe 3 may define an exhaust passage, the exhaust passage may have an exhaust inlet 31 and an exhaust outlet 32, the exhaust inlet 31 of the exhaust passage may be disposed corresponding to the air flow outlet 1121, the gas discharged out of the contamination storage case 200 through the air flow outlet 1121 may enter the exhaust passage through the exhaust inlet 31, and then the gas may be discharged out of the brush 1 through the exhaust outlet 32. So set up can be with the gas outgoing cleaning equipment 100 in the dirty mixture, can avoid gaseous detention in dirty receiver 200 to, through gaseous flow, can improve cleaning equipment 100's cleaning performance.

In some embodiments of the present invention, as shown in fig. 4 and 10, the communication hole 1111 may be provided in the first cover 111, the filter 1112 may be provided in the first cover 111, and at least a part of the structure of the filter 1112 may be provided in the solid waste storage chamber 1222. It is understood that the first cover 111 may be disposed below the second cover 112 in a height direction of the dirt collection container 200 (i.e., a vertical direction as shown in fig. 11), and the second cover 112 may be provided with an air outlet 1121. Through all setting up the intercommunication 1111 and filtering piece 1112 in first lid 111, can make the structural style of dirty receiver 200 reasonable, can make the compact structure of box body 10, be favorable to further reducing the volume of scrubbing brush 1 and cleaning equipment 100.

In some embodiments of the present invention, as shown in fig. 10 and 11, the filter 1112 may include: the filter body 1113, the filter body 1113 may define an air flow passage 1114, the air flow passage 1114 may be provided to communicate with the communication hole 1111, and a sidewall of the air flow passage 1114 may be provided with a filter section 1115 to communicate with the solid waste storage chamber 1222 and the air flow passage 1114. Optionally, the filter section 1115 may be configured in a grid shape to filter solid waste in the dirty mixture.

It will be appreciated that when dirty mixture on the ground enters the dirty storage cassette 200 through the dirty inlet 1234, the dirty mixture may enter the solid waste storage chamber 1222, the dirty mixture may enter the air flow passage 1114 through the filter section 1115, and then the dirty mixture may enter the dirty storage chamber 1224 through the communication hole 1111. When the dirty mixture passes through the filter part 1115, the filter part 1115 can filter the solid garbage in the dirty mixture, so that the solid garbage in the dirty mixture is stored in the solid garbage storage chamber 1222. This arrangement allows the filter element 1112 to reliably filter out solid debris from the contaminated mixture, thereby ensuring reliable use of the filter element 1112.

In some embodiments of the present invention, as shown in fig. 11, the airflow channel 1114 may be extended in a height direction of the dirty accommodating box 200 (i.e., an up-down direction shown in fig. 11), such that the mixture of sewage and air entering the airflow channel 1114 can move upward along the height direction of the dirty accommodating box 200, when the mixture of sewage and air leaves the airflow channel 1114, the mixture of sewage and air will impact on the inner surface of the second cover 112, and the sewage will fall down by its own weight after flowing to a high point.

This arrangement can reduce the flow rate of the mixture of sewage and gas, can separate at least part of the sewage and gas, and can make rational use of the inner space of the dirty storage case 200 by providing the air flow path 1114 in a form extending in the height direction of the dirty storage case 200 (i.e., the up-down direction shown in fig. 11), thereby effectively achieving the air-water separation (i.e., the sewage and gas separation).

In some embodiments of the present invention, as shown in fig. 2 and 3, the bottom wall 123 of the first storage space 1221 may be constituted by the bottom wall 123 of the cartridge body 12, in other words, the first storage space 1221 and the cartridge body 12 may share the same bottom wall 123, and the bottom wall 123 of the first storage space 1221 may include a first bottom wall 1231, a connecting bottom wall 1232, and a second bottom wall 1233.

Here, a connecting bottom wall 1232 may be disposed between the first bottom wall 1231 and the second bottom wall 1233, and in a height direction (i.e., an up-down direction shown in fig. 3) of the dirty storage box 200, the second bottom wall 1233 may be disposed above the first bottom wall 1231, i.e., the height of the second bottom wall 1233 may be higher than that of the first bottom wall 1231, and the dirty inlet 1234 may be disposed on the second bottom wall 1233.

Alternatively, it will be appreciated that the edge of the bottom wall 123 of the cartridge body 12 may be provided with a notch, and the top wall of the notch may be provided with a dirty inlet 1234. Alternatively, the first bottom wall 1231 may be disposed in parallel with the second bottom wall 1233, and the connecting bottom wall 1232 may be disposed perpendicular to the first bottom wall 1231. The arrangement can ensure that the arrangement position of the dirty inlet 1234 is reasonable, prevent the dirty inlet 1234 from being blocked by dirt, and ensure the use reliability of the cleaning device 100.

In some embodiments of the present invention, as shown in fig. 4 and 10, the surface of the first cover 111 away from the solid waste storage chamber 1222 may be obliquely extended to facilitate the liquid on the surface of the first cover 111 to flow along the first cover 111 into the waste storage chamber 1224. Specifically, as shown in fig. 11, in the front-rear direction shown in fig. 11, the front side of the first cover 111 away from the surface of the solid waste storage cavity 1222 is higher than the rear side of the first cover 111 away from the surface of the solid waste storage cavity 1222, in other words, the surface of the first cover 111 away from the solid waste storage cavity 1222 extends obliquely downward from the front to the rear as shown in fig. 11.

When at least a part of the contaminated water and the gas are separated, the separated contaminated water can fall to the surface of the first cover 111 away from the solid waste storage cavity 1222 by its own weight, and then, by extending the surface of the first cover 111 away from the solid waste storage cavity 1222 obliquely, the liquid (contaminated water) on the surface of the first cover 111 can flow into the contaminated water storage cavity 1224 under the action of gravity, so that the contaminated water can be prevented from being retained on the surface of the first cover 111, and the liquid on the surface of the first cover 111 can be ensured to flow into the contaminated water storage cavity 1224.

In some embodiments of the present invention, as shown in fig. 4 and 10, the surface of the first cover 111 away from the solid waste storage cavity 1222 may be provided with a flow guiding rib 1116, and optionally, the number of the flow guiding ribs 1116 may be provided in plurality, and the plurality of flow guiding ribs 1116 may be sequentially provided at intervals in the left-right direction shown in fig. 4. By providing the diversion ribs 1116, the liquid on the surface of the first cover 111 can be guided, the liquid on the surface of the first cover 111 can be prevented from flowing along with the airflow, and the liquid on the surface of the first cover 111 can be ensured to flow into the sewage storage chamber 1224 completely.

In some embodiments of the utility model, as shown in fig. 3 and 4, the cartridge body 12 may have a first sidewall 124 and a second sidewall 125, and the first sidewall 124 and the second sidewall 125 may be oppositely disposed. Wherein, in the front-rear direction shown in fig. 4, the front side wall of the box main body 12 may be the first side wall 124 of the box main body 12, the rear side wall of the box main body 12 may be the second side wall 125 of the box main body 12, the partition plate 122 and the first side wall 124 and the bottom wall 123 may together define the first storage space 1221, and the partition plate 122 and the second side wall 125 may be disposed at a distance to form the flow gap 1225.

It is to be understood that, as shown in fig. 4, in the front-rear-left-right directions shown in fig. 4, the left side and the right side of the solid waste storage chamber 1222 are the waste water storage chamber 1224, and the rear side of the solid waste storage chamber 1222 is the flow gap 1225, and the flow gap 1225 may communicate the waste water storage chamber 1224 at the left side of the solid waste storage chamber 1222 and the waste water storage chamber 1224 at the right side of the solid waste storage chamber 1222.

When at least a portion of the contaminated water and the gas are separated, the separated contaminated water can fall to the surface of the first cover 111 far away from the solid waste storage cavity 1222 by its own weight, and under the action of the gravity, the liquid (contaminated water) on the surface of the first cover 111 can flow into the flow gap 1225 to flow into the contaminated water storage cavity 1224. The arrangement can make the arrangement position of the partition plate 122 reasonable, ensure that the liquid on the surface of the first cover 111 can smoothly flow into the sewage storage chamber 1224, and prevent the liquid on the surface of the first cover 111 from flowing into other spaces, thereby ensuring the use reliability of the dirty storage box 200.

In some embodiments of the present invention, as shown in fig. 4, a communication hole 1111 may be provided to the first cover 111, and the communication hole 1111 may be provided near the first sidewall 124. It should be noted that when the dirty mixture on the ground enters the dirty storage box 200 through the dirty inlet 1234, the dirty mixture can enter the solid waste storage chamber 1222, the dirty mixture can enter the airflow channel 1114 through the filter part 1115, and under the filtering action of the filter part 1115, the dirty mixture can be changed into a mixture of dirty water and gas, and the mixture of dirty water and gas can impact the inner surface of the second cover body 112 through the communication hole 1111.

It is understood that the flow gap 1225 is disposed away from the first sidewall 124, in other words, the flow gap 1225 is disposed close to the second sidewall 125, and by disposing the communication hole 1111 at a position close to the first sidewall 124, the flow gap 1225 can be spaced apart from the communication hole 1111 by a large distance, thereby facilitating the separation of the contaminated water and the gas.

In some embodiments of the present invention, as shown in fig. 3 and 4, the second storage space 1223 may be provided with a first baffle 1226, the first baffle 1226 may be provided in connection with the second sidewall 125, and the first baffle 1226 may be provided extending toward the first sidewall 124, the first baffle 1226 may be provided near the flow gap 1225, further, in the left-right direction shown in fig. 3, a projection of the first baffle 1226 and a projection of the partition plate 122 may have an overlapping region, and the first baffle 1226 may be provided spaced apart from the partition plate 122.

Preferably, in the left and right direction shown in fig. 3, both left and right sides of the partition plate 122 may be provided with the first stoppers 1226. Through setting up first baffle 1226, can avoid sewage to splash to can avoid sewage to be inhaled inside the motor of cleaning equipment 100, can avoid the motor to damage.

Also, when the cleaning apparatus 100 is in operation (the cleaning apparatus 100 moves in the forward and backward directions as shown in fig. 3), the contaminated water in the contaminated water storage chamber 1224 may be shaken in the contaminated water storage chamber 1224, and the first stopper 1226 may prevent the contaminated water in the contaminated water storage chamber 1224 from being overflowed, so that it may be prevented that the contaminated water in the contaminated water storage chamber 1224 is mixed with air and flows out of the contaminated storage cassette 200.

In some embodiments of the present invention, as shown in fig. 3 and 4, a second baffle 1227 may be disposed in the second storage space 1223, the second baffle 1227 may be disposed in connection with the partition plate 122, and the second baffle 1227 may be disposed to extend in a direction away from the partition plate 122, the second baffle 1227 may be located outside the flow gap 1225, and the second baffle 1227 may be disposed near the flow gap 1225.

Further, in the front-rear direction shown in fig. 3, a projection of the first baffle 1226 and a projection of the second baffle 1227 may have an overlapping area, and the second baffle 1227 may be disposed to be spaced apart from the first baffle 1226. Preferably, in the left and right direction shown in fig. 3, a second stopper 1227 may be attached to each of the left and right sides of the partition plate 122. By providing the second baffle 1227, splashing of sewage can be avoided, so that sewage can be prevented from being sucked into the motor of the cleaning apparatus 100, and damage to the motor can be prevented.

Also, when the cleaning apparatus 100 is operated (the cleaning apparatus 100 moves in the front-rear direction shown in fig. 3) the sewage in the sewage storage chamber 1224 may rock in the sewage storage chamber 1224, and the second baffle 1227 may prevent the sewage in the sewage storage chamber 1224 from turning over, so that the sewage in the sewage storage chamber 1224 may be prevented from mixing with the air and flowing out of the sewage storage box 200.

Through setting up first baffle 1226 and second baffle 1227, can further avoid sewage to splash, can also further avoid sewage and gas mixture in the sewage storage chamber 1224 to can improve dirty receiver 200's use reliability.

In some embodiments of the present invention, the first cover 111 is adapted to open or close the open end of the first storage space 1221, and the second cover 112 is adapted to open or close the open end of the total storage space 121. The second lid member 112 is positioned above the first lid member 111 in the height direction of the dirty storage case 200 (i.e., the vertical direction shown in fig. 11). When it is required to clean the sewage in the sewage storage chamber 1224 and/or the solid waste in the solid waste storage chamber 1222, the open end of the first storage space 1221 and/or the open end of the total storage space 121 is opened to clean the sewage and/or the solid waste. So set up can be convenient for the user and clear up sewage and/or solid rubbish, can improve user's use and experience.

According to the cleaning apparatus 100 of the embodiment of the present invention, including the floor brush 1 and the dirty storage box 200, the dirty storage box 200 is disposed on the floor brush 1, and the dirty storage box 200 is the dirty storage box 200 of the above embodiment, and by the dirty storage box 200 of the present invention, solid waste (solid) and sewage (liquid) can be separately stored, so that it is possible to facilitate a user to clean the solid waste and the sewage in the dirty storage box 200 (for example, the user may pour the solid waste into a trash can and pour the sewage into a sewer).

A dirty storage box 200 of the floor brush 1 of the cleaning apparatus 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 11.

As shown in fig. 1 to 11, the dirty storage case 200 according to the embodiment of the present invention includes: a cartridge body 10 and a filter 1112.

Wherein, the cartridge body 10 defines a sewage storage chamber 1224 and a solid waste storage chamber 1222, the solid waste storage chamber 1222 is disposed in the sewage storage chamber 1224, the solid waste storage chamber 1222 is provided with a communication hole 1111, the sewage storage chamber 1224 and the solid waste storage chamber 1222 are communicated through the communication hole 1111, at least one pressure discharge port 113 is defined between an inner wall surface of the sewage storage chamber 1224 and an outer wall surface of the solid waste storage chamber 1222, and the pressure discharge port 113 is communicated with the communication hole 1111 and the sewage storage chamber 1224. The filter 1112 is disposed corresponding to the communication hole 1111, and the filter 1112 is configured to filter the dirty mixture flowing into the solid waste storage compartment 1222 to filter out solid waste in the dirty mixture, so that the solid waste in the dirty mixture is stored in the solid waste storage compartment 1222.

The cleaning apparatus 100 may be used for cleaning the ground, and specifically, the cleaning apparatus 100 may include a rotatable rolling brush 2, the rolling brush 2 may be rotated to clean the ground, and the dirty mixture on the ground may enter the dirty storage box 200. It will be appreciated that the above-ground dirty mixture may be a mixture of solid and liquid, for example, the above-ground dirty mixture may be a mixture of solid waste and sewage.

When dirty mixture on the ground enters the dirty storage box 200, the dirty mixture can enter the solid waste storage cavity 1222, and then the dirty mixture can enter the dirty storage cavity 1224 through the communication hole 1111 and the pressure release port 113, because the filter 1112 is arranged corresponding to the communication hole 1111, under the filtering action of the filter 1112, the solid waste (solid) in the dirty mixture can be filtered out of the dirty mixture, the filtered solid waste (solid) can be stored in the solid waste storage cavity 1222, and then the dirty water (liquid) in the dirty mixture can enter the dirty storage cavity 1224 through the communication hole 1111 and the pressure release port 113.

Among the prior art, the separation of sewage and gas is not thorough to lead to sewage can be along with gaseous dirty receiver of discharge together, and, inside the sewage of the dirty receiver of discharge was inhaled the motor easily, probably lead to the motor to damage.

In the present application, by defining at least one pressure relief port 113 between the inner wall surface of the sewage storage chamber 1224 and the outer wall surface of the solid waste storage chamber 1222, when the mixture of sewage and gas leaves the communication hole 1111, the mixture of sewage and gas will flow through the pressure relief port 113, and the pressure relief port 113 can reduce the flow rate of the mixture of sewage and gas. Because the velocity of flow of the mixture of sewage and gas reduces to can make the separation of sewage and gas thorough, can avoid sewage along with gaseous dirty receiver 200 of discharging together, can guarantee that cleaning equipment 100's cleaning function is reliable, and, can avoid sewage by inside the suction motor, can avoid the motor to damage, thereby can improve the life of motor.

It will be appreciated that the number of pressure relief ports 113 can be one, and the number of pressure relief ports 113 can be multiple, and the present application is not limited in this respect, for example, in the present application, the pressure relief ports 113 can include a first pressure relief port 1131 and a second pressure relief port 1132, the number of first pressure relief ports 1131 can be one, and the number of second pressure relief ports 1132 can be two.

From this, through injecing at least one pressure release mouth 113, when the mixture of sewage and gas flows through pressure release mouth 113, can reduce the velocity of flow of the mixture of sewage and gas, can make the separation of sewage and gas thorough to can avoid sewage along with the dirty receiver 200 of gaseous discharge together, also can avoid sewage by inside the suction motor.

In some embodiments of the present invention, as shown in fig. 4, 6 and 11, a top wall of the solid waste storage chamber 1222 may be provided with a communication hole 1111, and at least one pressure relief port 113 may be defined between the top wall of the contaminated water storage chamber 1224 and the top wall of the solid waste storage chamber 1222.

It will be appreciated that when the mixture of sewage and gas leaves the communication hole 1111, the mixture of sewage and gas enters between the top wall of the sewage storage chamber 1224 and the top wall of the solid waste storage chamber 1222, and the mixture of sewage and gas impacts the top wall of the sewage storage chamber 1224, some of the sewage and gas will be separated. Then, the mixture of the sewage and the gas flows through the pressure relief port 113, and the flow rate of the mixture of the sewage and the gas flowing through the pressure relief port 113 is decreased. So set up the position that sets up that can make pressure release mouth 113 reasonable, can make the separation of sewage and gas thorough to can guarantee dirty receiver 200's use reliability.

In some embodiments of the present invention, as shown in fig. 1 and 11, the cartridge body 10 may include: a cover 11 and a box main body 12, the cover 11 can be disposed on the box main body 12, for example, one end of the cover 11 can be clamped with the box main body 12, the other end of the cover 11 can be rotatably connected with the box main body 12, and the cover 11 and the box main body 12 can jointly define a sewage storage chamber 1224 and a solid waste storage chamber 1222. The arrangement can prevent the dirty water storage cavity 1224 and the dirty water of the solid waste storage cavity 1222 from splashing out of the box body 10, and can ensure the reliability of the dirty storage box 200 for storing the dirty water.

In some embodiments of the present invention, as shown in fig. 3 and 4, the cartridge body 12 may define a total storage space 121 having one end open, a partition plate 122 may be disposed in the total storage space 121, and the partition plate 122 may partition the total storage space 121 into a first storage space 1221 and a second storage space 1223. The cover 11 may include a first cover 111 and a second cover 112, the first cover 111 may cover the open end of the first storage space 1221 to form the solid waste storage cavity 1222, and the second cover 112 may cover the open end of the total storage space 121 to form the sewage storage cavity 1224.

Through setting up division board 122, can be divided into two sub-storage space with total storage space 121, can improve the space utilization of box body 10, can make the compact structure of box body 10, thereby be favorable to reducing cleaning equipment 100's volume, and, division board 122 can avoid sewage (liquid) in sewage storage chamber 1224 and solid waste (solid) in the solid waste storage chamber 1222 to mix, thereby guarantee that dirty receiver 200 can reliably deposit solid waste (solid) and sewage (liquid) separately, can be convenient for the user to clear up solid waste and sewage in the dirty receiver 200.

In addition, the first cover 111 may be configured as a top wall of the solid waste storage chamber 1222, and the second cover 112 may be configured as a top wall of the waste water storage chamber 1224, so that the structure of the dirty storage box 200 may be compact, thereby being beneficial to reducing the volume of the cleaning device 100, improving the user experience, and improving the competitiveness of the product.

It should be noted that the first cover 111 may be disposed at the open end of the first storage space 1221, one end of the second cover 112 may be disposed in a snap-fit manner with the main box body 12, and the other end of the second cover 112 may be disposed in a rotatable manner with the main box body 12.

In some embodiments of the present invention, as shown in fig. 3 and 4, the cartridge body 12 may have a first sidewall 124 and a second sidewall 125, and the first sidewall 124 and the second sidewall 125 may be oppositely disposed. Here, in the front-rear direction shown in fig. 3, the front side wall of the box main body 12 may be a first side wall 124 of the box main body 12, and the rear side wall of the box main body 12 may be a second side wall 125 of the box main body 12.

As shown in fig. 7 and 11, the inner surface of the second cover 112 may be provided with a first rib 1122, and the first rib 1122 may be extended toward the first cover 111, that is, the first rib 1122 may be extended downward as shown in fig. 11, and in a direction from the first side wall 124 to the second side wall 125 (i.e., in a front-rear direction as shown in fig. 11), the first rib 1122 may be provided between the communication hole 1111 and the second side wall 125, and a first pressure relief port 1131 may be defined between the first rib 1122 and the first cover 111.

When the mixture of sewage and gas leaves the communication hole 1111, at least a portion of the mixture of sewage and gas may flow through the first pressure relief opening 1131, and the flow rate of the mixture of sewage and gas flowing through the first pressure relief opening 1131 may be reduced, so that the water-gas separation efficiency may be improved, and the sewage and gas may be completely separated.

In some embodiments of the present invention, as shown in fig. 7, the inner surface of the second cover 112 may be provided with second rims 1123, specifically, the number of the second rims 1123 may be two, two second rims 1123 may be respectively provided at both ends of the first rim 1122, and two second rims 1123 may be respectively provided in connection with both ends of the first rim 1122, the second rims 1123 may be provided to extend in a direction from the first side wall 124 to the second side wall 125 (i.e., in a front-rear direction shown in fig. 3), the first rim 1122, the second rim 1123, and the first cover 111 may collectively define a connection passage 1124, and the connection passage 1124 may communicate the first pressure relief port 1131 and the sewage storage chamber 1224.

It can be understood that after the mixture of sewage and gas leaves the communication hole 1111, at least a portion of the mixture of sewage and gas will flow through the first relief port 1131, the mixture of sewage and gas flowing through the first relief port 1131 can enter the connection passage 1124, and the sewage separated from the mixture can enter the sewage storage chamber 1224 through the connection passage 1124, and the gas separated from the mixture can flow into the second cover 112 and flow out of the sewage storage cassette 200 from the second cover 112.

This arrangement enables the mixture of sewage and gas passing through the first pressure relief port 1131 to flow in the connecting passage 1124, which can improve the water-gas separation efficiency (because the flow rate of the mixture of sewage and gas passing through the first pressure relief port 1131 can be reduced, which can lead to an increase in the time for the mixture to flow in the connecting passage 1124, and thus can completely separate the sewage and gas), and can guide the separated sewage, which can ensure that the separated sewage flows into the sewage storage chamber 1224 entirely.

In some embodiments of the present invention, as shown in fig. 4, 6 and 10, the first cover 111 may be provided with a third rib 1117, the third rib 1117 may extend toward the second cover 112, and a second relief opening 1132 may be defined between the third rib 1117 and the second cover 112. It should be noted that, after the mixture of sewage and gas leaves the communication hole 1111, a part of the mixture of sewage and gas may flow through the first pressure relief opening 1131, another part of the mixture of sewage and gas may flow through the second pressure relief opening 1132, the mixture of sewage and gas flowing through the second pressure relief opening 1132 may slow down and enter the sewage storage chamber 1224, and after flowing through the second pressure relief opening 1132, the gas separated from the mixture may flow into the second cover 112 and flow out of the sewage storage cassette 200 from the second cover 112.

So set up and to make the mixture of sewage and gas flow through a plurality of pressure release mouths 113 to can further improve aqueous vapor separation efficiency, can make the separation of sewage and gas thorough, thereby can avoid sewage along with gaseous dirty receiver 200 of discharge together, also can avoid sewage to be inhaled inside the motor, can guarantee dirty receiver 200's use reliability.

In some embodiments of the present invention, as shown in fig. 4 and 10, in an extending direction (i.e., a left-right direction shown in fig. 4) of the first sidewall 124, at least one side of the communication hole 1111 may be provided with the third rib 1117, i.e., a left side of the communication hole 1111 may be provided with the third rib 1117, or a right side of the communication hole 1111 may be provided with the third rib 1117, or both the left side and the right side of the communication hole 1111 may be provided with the third rib 1117. Preferably, the communication hole 1111 is provided at both left and right sides thereof with third ribs 1117.

So set up the left side that can make the intercommunicating pore 1111 and the right side all is formed with second pressure release mouth 1132 to can make the dirty receiver 200 of this application have three pressure release mouth 113 (a first pressure release mouth 1131, and two second pressure release mouths 1132), and then can further improve aqueous vapor separation efficiency, can make sewage and gaseous separation more thorough.

In some embodiments of the present invention, as shown in fig. 7, the inner surface of the top wall of the sewage storage chamber 1224 may be provided with a groove 1125, the groove 1125 may be recessed toward the inside of the top wall of the sewage storage chamber 1224, in other words, the groove 1125 may be recessed toward the upper side in the height direction of the sewage storage cassette 200 (i.e., the up-down direction shown in fig. 11), and the recess may be provided corresponding to the communication hole 1111.

The top wall of the sewage storage chamber 1224 is the second cover 112, i.e., the inner surface of the second cover 112 may be provided with a recess 1125. It should be noted that, when the mixture of sewage and gas leaves the communication hole 1111, the mixture of sewage and gas may impact the inner surface of the second cover 112, and sewage may fall down by its own weight after flowing to a high point, thereby separating at least a part of sewage from gas, and by providing a recess in the inner surface of the top wall of the sewage storage chamber 1224, the path along which the mixture of sewage and gas leaves the communication hole 1111 may be upwardly impacted may be increased, and the level at which the mixture of sewage and gas impacts the second cover 112 may be increased, thereby more sewage and gas may be separated, and the flow rate of the mixture of sewage and gas may be decreased, thereby contributing to an increase in the water-gas separation efficiency.

In some embodiments of the present invention, as shown in fig. 4, 6 and 11, the guide pipe 1118 may be provided on the outer surface of the first cover 111, the guide pipe 1118 may be provided to extend toward the second cover 112, that is, the guide pipe 1118 may be provided to extend upward in the height direction (i.e., the up-down direction shown in fig. 11) of the contamination storage cassette 200, and the guide pipe 1118 may be provided around the communication hole 1111.

The free end of the guide tube 1118 may have a height that is greater than the height of the free end of the first rib 1122, in other words, the projected highest point of the guide tube 1118 may be higher than the projected lowest point of the first rib 1122 in the forward and rearward directions as shown in fig. 4.

Alternatively, the cross-section of the guide tube 1118 may be configured as an obround, which in the case of an "obround" is understood to replace the two short sides of a rectangle with a rounded shape configuration. Preferably, the central axis of the guide pipe 1118 is parallel to the height direction of the contamination storage cassette 200 (i.e., the up-down direction shown in fig. 11).

By providing the guide pipe 1118, the mixture of the sewage and the gas leaving the communication hole 1111 can be guided, and it can be ensured that the mixture of the sewage and the gas leaving the communication hole 1111 can be collided against the inner surface of the second cover 112, so that it can be ensured that the mixture of the sewage and the gas leaving the communication hole 1111 can move in a predetermined path.

In some embodiments of the present invention, as shown in fig. 11, the guide tube 1118 may be spaced apart from the first rib 1122, and in particular, the guide tube 1118 may be spaced apart from the first rib 1122 in the fore-aft direction as shown in fig. 11. Set up like this and to have certain clearance between messenger's stand pipe 1118 and first flange 1122, can guarantee that the mixture of at least part sewage and gas can flow through first pressure release 1131, can guarantee dirty receiver 200's use reliability to, when the mixture of at least part sewage and gas flows through the clearance between stand pipe 1118 and first flange 1122, its velocity of flow can be reduced, thereby is favorable to improving aqueous vapor separation efficiency more.

In some embodiments of the present invention, as shown in fig. 4, 6 and 11, the guide pipe 1118 may be provided on the outer surface of the first cover 111, the guide pipe 1118 may be provided to extend toward the second cover 112, that is, the guide pipe 1118 may be provided to extend upward in the height direction (i.e., the up-down direction shown in fig. 11) of the contamination storage cassette 200, and the guide pipe 1118 may be provided around the communication hole 1111. The free end of the guide tube 1118 may have a height lower than the free end of the third ledge 1117, in other words, the projected highest point of the guide tube 1118 may be lower than the projected lowest point of the third ledge 1117 in the front-to-rear direction shown in fig. 11.

Further, the guide tube 1118 may be disposed spaced apart from the third rib 1117, in other words, two third ribs 1117 may be disposed on the left and right sides of the guide tube 1118, respectively, and the third ribs 1117 disposed on the left and right sides of the guide tube 1118 are disposed spaced apart from the guide tube 1118. The arrangement of the third retaining edge 1117 and the guide pipe 1118 is reasonable, so that the mixture of sewage and air can be ensured to smoothly flow into the sewage storage chamber 1224 from the second pressure relief opening 1132.

In some embodiments of the present invention, as shown in fig. 11, the axial direction of the communication hole 1111 may be parallel to the height direction of the contamination storage case 200, and further, the central axis direction of the guide pipe 1118 may be parallel to the height direction of the contamination storage case 200, so that it is possible to ensure that the mixture of the sewage and the gas leaving the communication hole 1111 moves upward as shown in fig. 11, and the flow path of the mixture of the sewage and the gas can be made reasonable.

In some embodiments of the present invention, as shown in fig. 2, 3 and 7, the box body 10 is provided with a dirty inlet 1234 and an air outlet 1121, the dirty inlet 1234 is disposed to communicate with the solid waste storage chamber 1222, and the air outlet 1121 is disposed to communicate with the dirty storage chamber 1224. In dirty mixture on ground can enter into dirty receiver 200 through dirty entry 1234, when dirty mixture on ground enters into dirty receiver 200 through dirty entry 1234, dirty mixture can enter into solid rubbish storage chamber 1222, because filter 1112 and intercommunication 1111 correspond the setting, under the filtering action of filter 1112, solid rubbish (solid) in the dirty mixture can be filtered out dirty mixture, and the solid rubbish (solid) that is filtered out can be stored in solid rubbish storage chamber 1222.

Then, the remaining mixture of sewage and gas can be collided with the ceiling wall of the second cover 112 through the communication hole 1111 and the guide pipe 1118, and then a part of the mixture of sewage and gas can pass through the first pressure relief port 1131, and after passing through the first pressure relief port 1131, the separated sewage can be introduced into the sewage storage chamber 1224, and the separated gas can flow out of the sewage housing box 200 through the gas outflow port 1121. In addition, another mixture of the sewage and the gas can pass through the second relief opening 1132, the separated sewage can be left in the sewage storage chamber 1224 after passing through the second relief opening 1132, and the separated gas can flow out of the dirty storage box 200 through the air flow outlet 1121.

So set up can be with the gas outgoing cleaning equipment 100 in the dirty mixture, can avoid gaseous detention in dirty receiver 200 to, through gaseous flow, can improve cleaning equipment 100's cleaning performance.

According to the cleaning equipment 100 of the embodiment of the utility model, the cleaning equipment comprises the floor brush 1 and the dirty storage box 200, the dirty storage box 200 is arranged on the floor brush 1, the dirty storage box 200 is the dirty storage box 200 of the embodiment, and by limiting at least one pressure relief opening 113, when a mixture of sewage and air flows through the pressure relief opening 113, the flow rate of the mixture of sewage and air can be reduced, the separation of sewage and air can be thorough, so that the sewage can be prevented from being discharged out of the dirty storage box 200 along with the air, and the sewage can be prevented from being sucked into the motor.

A dirty storage case 200 of the floor brush 1 according to an embodiment of the present invention will be described with reference to fig. 1 to 11.

As shown in fig. 1 to 11, the dirty storage box 200 according to the embodiment of the present invention includes: a case body 12 and a case cover 13.

The box cover 13 and the box main body 12 together define a sewage storage chamber 1224 and a solid waste storage chamber 1222, the sewage storage chamber 1224 and the solid waste storage chamber 1222 are arranged in communication, as shown in fig. 9, the box cover 13 has an air flow outlet 1121 and an air flow inlet 131, the air flow inlet 131 is arranged in communication with the sewage storage chamber 1224, or the air flow inlet 131 is arranged in communication with the solid waste storage chamber 1222, or the air flow inlet 131 is arranged in communication with the sewage storage chamber 1224 and the solid waste storage chamber 1222, a communication flow passage 132 is arranged in the box cover 13, and the communication flow passage 132 is communicated with the air flow outlet 1121 and the air flow inlet 131, wherein the communication flow passage 132 changes the flow direction of the fluid at least once during the fluid flows in the communication flow passage 132.

It should be noted that the box cover 13 is the second cover body 112, the floor brush 1 can be used for cleaning the ground, specifically, the floor brush 1 can include a rotatable rolling brush 2, the rolling brush 2 can be used for cleaning the ground by rotating, and the dirty mixture on the ground can enter the dirty accommodating box 200. It will be appreciated that the above-ground dirty mixture may be a mixture of solid and liquid, for example the above-ground dirty mixture may be a mixture of solid waste and sewage.

When the dirty mixture on the ground enters the dirty storage cassette 200, the dirty mixture may enter the solid waste storage cavity 1222 and be filtered to store solid waste (solids) in the solid waste storage cavity 1222, and then, the fluid (i.e., the mixture of gas and liquid) may enter the communication flow channel 132 through the gas flow inlet 131, and the communication flow channel 132 may change the flow direction of the fluid at least once during the fluid flowing in the communication flow channel 132.

Among the prior art, the flow rate of the mixture of sewage and gas in the receiver is very fast, leads to the separation of sewage and gas not thorough to lead to sewage can be along with gaseous dirty receiver of discharge together, and, inside the sewage of the dirty receiver of discharge was inhaled the motor easily, probably lead to the motor to damage.

And in this application, through set up the intercommunication runner 132 that can change the flow direction of fluid in lid 13, after fluid passes through airflow inlet 131 and gets into intercommunication runner 132, fluidic flow direction can change, thereby can make fluidic flow rate reduce (for example, change flow direction behind the fluid striking wall, flow rate behind the fluid striking wall can reduce), be favorable to the separation of sewage and the gas in the fluid, can make the separation of sewage and gas thorough, can avoid sewage along with gas discharge dirty receiver 200 together, can guarantee that the cleaning function of ground brush 1 is reliable, and, can avoid sewage to be inhaled inside the motor, can avoid the motor to damage, thereby can improve the life of motor.

Therefore, the flow direction of the fluid in the box cover 13 can be changed by arranging the communication flow channel 132 in the box cover 13, so that the flow rate of the fluid can be reduced, sewage and gas in the fluid can be separated, the sewage and gas can be separated thoroughly, the sewage can be prevented from being discharged out of the dirty storage box 200 along with the gas, and the sewage can be prevented from being sucked into the motor.

In some embodiments of the present invention, as shown in fig. 9, the number of the communication flow passages 132 may be multiple, and the plurality of communication flow passages 132 may be arranged in a first direction of the dirty accommodating box 200, where the first direction is a left-right direction shown in fig. 9. Alternatively, as shown in fig. 9, as an example, the number of the communication flow passages 132 may be two, and the two communication flow passages 132 may be arranged in the first direction of the contamination storage cassette 200. By providing a plurality of communication channels 132, separation of the gas from the sewage in the fluid can be facilitated.

In some embodiments of the present invention, as shown in fig. 9, the communication flow passage 132 may include: the first sub-flow passage 1321 and the second sub-flow passage 1322 may be disposed in the first sub-flow passage 1321, two ends of the first sub-flow passage 1321 may respectively communicate with the airflow inlet 131 and the second sub-flow passage 1322, an end of the second sub-flow passage 1322 away from the first sub-flow passage 1321 may communicate with the airflow outlet 1121, in other words, one end of the second sub-flow passage 1322 may communicate with an end of the first sub-flow passage 1321, and the other end of the second sub-flow passage 1322 may communicate with the airflow outlet 1121.

It is understood that after the fluid enters the communicating flow channel 132 through the airflow inlet 131, the fluid will flow in the first sub-flow passage 1321, and when the fluid flows from the first sub-flow passage 1321 to the second sub-flow passage 1322, the flow direction of the fluid will change, so that the change of the flow direction of the fluid can be realized, the flow rate of the fluid can be reduced, and the separation of the sewage and the gas in the fluid can be facilitated.

In some embodiments of the present invention, as shown in fig. 9, the first sub flow passages 1321 may be extended in a second direction of the dirty storage cassette 200, and the second sub flow passages 1322 may be extended in the second direction of the dirty storage cassette 200, wherein the second direction is a front-back direction shown in fig. 9, and the first direction and the second direction are perpendicular to each other. Preferably, the first sub-flow passage 1321 and the second sub-flow passage 1322 are disposed in parallel with each other. Optionally, the first sub-channel 1321 and the second sub-channel 1322 may be both obliquely extended in the second direction, and of course, the first sub-channel 1321 and the second sub-channel 1322 may also be both disposed in parallel with the second direction.

The flow direction of the fluid in the first sub-flow passage 1321 is opposite to the flow direction of the fluid in the second sub-flow passage 1322, so that the flow rate of the fluid can be further reduced, and the separation of sewage and gas in the fluid is further facilitated.

It should be explained that, when the number of the communicating flow channels 132 is two, the first sub-flow passage 1321 and the second sub-flow passage 1322 in one of the communicating flow channels 132 may be disposed in parallel with each other, the first sub-flow passage 1321 and the second sub-flow passage 1322 in the other communicating flow channel 132 may be disposed in parallel with each other, and the first sub-flow passage 1321 in one of the communicating flow channels 132 and the second sub-flow passage 1322 in the other communicating flow channel 132 may be disposed in parallel with each other or may not be disposed in parallel with each other. Thus, the arrangement form of the communication flow passage 132 can be diversified, and the arrangement difficulty of the communication flow passage 132 can be reduced.

In some embodiments of the present invention, as shown in fig. 9, the communication flow passage 132 may further include: the third sub-flow passage 1323 and the third sub-flow passage 1323 may communicate with the second sub-flow passage 1322 and the air flow outlet 1121, in other words, one end of the third sub-flow passage 1323 may be disposed to communicate with the second sub-flow passage 1322, the other end of the third sub-flow passage 1323 may be disposed to communicate with the air flow outlet 1121, and the third sub-flow passage 1323 may be disposed to extend in the first direction (i.e., the left-right direction shown in fig. 9).

It will be appreciated that as the fluid flows from the second sub-flow passage 1322 to the third sub-flow passage 1323, the direction of flow of the fluid changes. By providing the communication flow channel 132 with the first sub-flow channel 1321, the second sub-flow channel 1322, and the third sub-flow channel 1323, the fluid in the communication flow channel 132 can change the flow direction many times, so that the flow rate of the fluid can be further reduced, and the separation of the sewage and the gas in the fluid can be further facilitated.

In some embodiments of the present invention, as shown in fig. 9, a fluid flow chamber 133 may be defined in the box cover 13, a partition 14 may be disposed in the fluid flow chamber 133, and the partition 14 may partition at least one communication flow passage 132 in the fluid flow chamber 133. Through setting up separator 14, can be convenient, swift cut apart into at least one intercommunication runner 132 with fluid flow chamber 133 to, can avoid the mutual stream of the fluid in a plurality of intercommunication runners 132 to scurry, thereby can guarantee that the fluid can be smooth and easy flow to air outlet 1121, in order to leave dirty receiver 200 from air outlet 1121.

In some embodiments of the present invention, as shown in fig. 9, the divider 14 may include: a first partition 141 and a second partition 142, the first partition 141 and the second partition 142 may be spaced apart, the second partition 142 may be spaced apart from a sidewall of the fluid flow chamber 133, and the plurality of communication flow passages 132 may be partitioned within the fluid flow chamber 133 by the first partition 141 and the second partition 142 in cooperation.

For example, as shown in fig. 9, by providing the first partition 141 and the second partition 142 in the fluid flow chamber 133, two communication flow channels 132 may be partitioned in the fluid flow chamber 133, so that it is possible to ensure thorough water-vapor separation, prevent sewage from being sucked into the motor, and prevent the motor from being damaged.

In some embodiments of the present invention, as shown in fig. 9, the second divider 142 may include a first plate part 1421, a connecting plate part 1422, and a second plate part 1423, wherein the connecting plate part 1422 may be connected between the first plate part 1421 and the second plate part 1423, that is, one end of the connecting plate part 1422 may be connected to the first plate part 1421, the other end of the connecting plate part 1422 may be connected to the second plate part 1423, and the first divider 141, the first plate part 1421, and the second plate part 1423 may be extended in the second direction (i.e., the front-rear direction shown in fig. 9) of the dirty storage case 200, alternatively, the first divider 141 may be arranged in parallel to the second direction, and the first plate part 1421 and the second plate part 1423 may be extended obliquely in the second direction.

The connecting plate part 1422 may be extended in a first direction (i.e., a left-right direction shown in fig. 9) of the dirty storage case 200, and at least a part of the first partition 141 may be located between the first plate part 1421 and the second plate part 1423. This arrangement makes it possible to make the structural form of the second partition 142 and the first partition 141 reasonable, thereby reliably dividing the fluid flow chamber 133 into the plurality of communication flow passages 132.

In some embodiments of the present invention, as shown in fig. 9, an end of the first divider 141 remote from the connecting plate part 1422 may be disposed in connection with a side wall of the fluid flow chamber 133, and an end of the first divider 141 near the connecting plate part 1422 may be disposed in spaced relation from the connecting plate part 1422, wherein the air flow inlet 131 may be located between the first divider 141 and the connecting plate part 1422.

Specifically, the communication hole 1111, the air flow inlet 131, and the air flow outlet 1121 may be sequentially spaced apart in the front-rear direction shown in fig. 9, in other words, projections of the communication hole 1111, the air flow inlet 131, and the air flow outlet 1121 may be sequentially spaced apart in the height direction of the dirt collection box 200 (i.e., the up-down direction shown in fig. 11).

It is understood that after the fluid (i.e., the mixture of the sewage and the gas, i.e., the dirty mixture filtered of the solid waste) passes through the communication hole 1111, a portion of the fluid may pass through the first pressure relief opening 1131 and decrease in speed, the separated sewage of the portion of the fluid may flow to the flow gap 1225 under the guiding action of the guiding rib 1116, and the rest of the fluid may enter the communication flow channel 132 through the airflow inlet 131.

And, after the fluid passes through the communication hole 1111, another part of the fluid may pass through the second relief hole 1132 and be decelerated, the part of the separated sewage is stored in the sewage storage chamber 1224, and the remaining fluid may enter the communication flow passage 132 through the air flow inlet 131. By providing the communication hole 1111 and the airflow inlet 131 at intervals in the front-rear direction shown in fig. 9, the flow path of the fluid can be increased, and thus the water-gas separation efficiency can be improved and the sewage and the gas can be completely separated.

Further, the fluid entering the communication flow channel 132 through the airflow inlet 131 can flow out of the communication flow channel 132 through the airflow inlet 131, and the airflow outlet 1121 and the airflow inlet 131 are spaced in the front-rear direction shown in fig. 9, so that the flow path of the fluid can be increased, the water-air separation efficiency can be further improved, and the sewage and the gas can be separated more thoroughly.

In some embodiments of the present invention, as shown in fig. 7, the air inlet 131 may be disposed on the bottom wall 123 of the box cover 13, the air outlet 1121 may be disposed on the bottom wall 123 of the box cover 13, and a projection of the air outlet 1121 and a projection of the box main body 12 do not have an overlapping region in a height direction of the dirty accommodating box 200 (i.e., an up-down direction shown in fig. 11). This arrangement ensures that the fluid can smoothly enter the communication channel 132 through the airflow inlet 131, and also ensures that the fluid can smoothly leave the communication channel 132 through the airflow outlet 1121, so that the fluid can smoothly flow.

According to the floor brush 1 provided by the embodiment of the utility model, the dirty storage box 200 is included, and the communication flow channel 132 is arranged in the box cover 13, so that the flow direction of the fluid in the box cover 13 can be changed, the flow rate of the fluid can be reduced, the separation of sewage and gas in the fluid is facilitated, the separation of sewage and gas can be thorough, the sewage can be prevented from being discharged out of the dirty storage box 200 along with the gas, and the sewage can be prevented from being sucked into the motor.

According to the cleaning device 100 of the embodiment of the utility model, the floor brush 1 is arranged, the communication flow channel 132 is arranged in the box cover 13, the flow direction of the fluid in the box cover 13 can be changed, so that the flow rate of the fluid can be reduced, the separation of sewage and gas in the fluid is facilitated, the separation of the sewage and the gas can be thorough, the sewage can be prevented from being discharged out of the dirty storage box 200 along with the gas, and the sewage can be prevented from being sucked into the motor.

As an embodiment of the present invention, the dirty mixture on the ground may enter the solid waste storage chamber 1222 through the dirty inlet 1234, and then the dirty mixture may enter the air flow path 1114 defined by the filter body 1113 and communicated with the communication hole 1111, and under the filtering action of the filter part 1115 provided on the sidewall of the air flow path 1114, the solid waste (solid) in the dirty mixture may be filtered out of the dirty mixture, and the filtered solid waste (solid) may be stored in the solid waste storage chamber 1222.

Then, the remaining dirty mixture (i.e., the fluid, i.e., the mixture of the sewage and the gas) may flow out of the air flow passage 1114, the fluid may impact the inner wall of the second cover 112 (i.e., the inner wall of the box cover 13) and decrease the speed under the guiding action of the guiding pipe 1118, then a part of the fluid may flow through the first pressure relief opening 1131 and decrease the speed, the part of the separated sewage may flow to the flow gap 1225 under the guiding action of the guiding rib 1116, and the remaining fluid may enter the communication flow passage 132 through the air flow inlet 131.

And, another part of the fluid may pass through the second pressure relief opening 1132 and be decelerated, the part of the separated sewage is stored in the sewage storage chamber 1224, the rest of the fluid may enter the communication flow path 132 through the airflow inlet 131, and the fluid entering the communication flow path 132 through the airflow inlet 131 may be discharged from the sewage storage cassette 200 through the airflow outlet 1121 after the flow direction of the fluid in the communication flow path 132 is changed for a plurality of times.

From this, through the dirty mixture of this application, can separately deposit solid waste (solid) and sewage (liquid), thereby can be convenient for the user clear up solid waste and sewage in the dirty receiver 200, and, through setting up first pressure release mouth 1131 and second pressure release mouth 1132, when the mixture of sewage and gas flows through first pressure release mouth 1131 and second pressure release mouth 1132, can reduce the velocity of flow of sewage and gaseous mixture, can make the separation of sewage and gas thorough.

In addition, through set up intercommunication runner 132 in lid 13, can change the flow direction of the fluidic in lid 13 to can further reduce the velocity of flow of the mixture of sewage and gas, can make the separation of sewage and gas more thorough, and then can avoid sewage along with gas discharge dirty receiver 200 together, also can avoid sewage to be inhaled inside the motor.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the utility model.

In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features.

In the description of the present invention, "a plurality" means two or more.

In the description of the present invention, the first feature being "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween.

In the description of the utility model, "over," "above," and "on" a second feature includes that the first feature is directly above and obliquely above the second feature, or simply means that the first feature is higher in level than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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

Claims (17)

1. The utility model provides a dirty receiver of scrubbing brush which characterized in that includes:

the box body defines a sewage storage cavity and a solid garbage storage cavity, the sewage storage cavity is communicated with the solid garbage storage cavity through a communication hole, the box body is provided with a dirt inlet and an air outlet, the dirt inlet is communicated with the solid garbage storage cavity, and the air outlet is communicated with the sewage storage cavity;

and the filter element corresponds to the communication hole and is used for filtering the dirty mixture flowing into the solid garbage storage cavity so as to filter and store the solid garbage in the dirty mixture in the solid garbage storage cavity.

2. The dirty storage cassette of floor brushes as defined in claim 1, wherein the solid waste storage chamber is disposed within the dirty water storage chamber, the dirty water storage chamber surrounding the solid waste storage chamber.

3. The dirty storage box of a floor brush as claimed in claim 1 or 2, wherein the box body comprises: the cover body and the box main body jointly limit the sewage storage cavity and the solid garbage storage cavity.

4. The dirty storage cassette of a floor brush as claimed in claim 3, wherein the cassette main body defines a total storage space having an open end, a partition plate is provided in the total storage space to partition the total storage space into a first storage space and a second storage space, and the lid includes a first lid body provided at the open end of the first storage space to form the solid waste storage chamber and a second lid body provided at the open end of the total storage space to form the dirty water storage chamber.

5. The dirty storage cassette of claim 4, wherein the divider plate and the cassette body together define the first storage space, and the dirty inlet is provided in the cassette body and communicates with the solid waste storage cavity.

6. The dirty storage cassette of claim 4, wherein the airflow outlet is provided in the second lid.

7. The dirty collecting box for a floor brush as claimed in claim 4, wherein the communication hole and the filter member are provided in the first cover.

8. The dirty receiver of claim 7, wherein the filter includes: the filter body limits an airflow channel communicated with the communication hole, and the side wall of the airflow channel is provided with a filter part to communicate the solid garbage storage cavity with the airflow channel.

9. The dirty receiver of claim 8, wherein the airflow channel extends in a height direction of the dirty receiver.

10. The dirty storage cassette of a floor brush as claimed in claim 5, wherein the bottom wall of the first storage space is formed by a bottom wall of the cassette main body, the bottom wall of the first storage space includes a first bottom wall, a connecting bottom wall connected between the first bottom wall and the second bottom wall, and a second bottom wall having a height higher than that of the first bottom wall, the second bottom wall being provided with the dirty inlet.

11. The dirty storage bin of claim 4, wherein the surface of the first cap remote from the solid waste storage chamber extends at an incline to facilitate liquid on the surface of the first cap to flow along the first cap into the dirty storage chamber.

12. The dirty storage bin of claim 11, wherein the surface of the first lid member distal from the solid waste storage chamber is provided with flow directing ribs.

13. The dirty storage cassette of claim 5, wherein the cassette body has first and second opposing side walls, the divider plate cooperates with the first and bottom walls to define the first storage space, and the divider plate is spaced from the second side wall to form a flow gap.

14. The dirty collecting box of a floor brush as claimed in claim 13, wherein the communication hole is formed in the first cover, and the communication hole is formed adjacent to the first sidewall.

15. The dirty receptacle of claim 13, wherein the second storage space has a first baffle disposed therein, the first baffle being connected to the second sidewall and extending toward the first sidewall, the first baffle being disposed proximate the flow gap and spaced apart from the divider.

16. The dirty receptacle of a floor brush as claimed in claim 15, wherein a second baffle is provided in the second storage space, the second baffle being connected to the divider plate and extending away from the divider plate, the second baffle being located outside of and adjacent to the flow gap, the second baffle being spaced apart from the first baffle.

17. A cleaning apparatus, comprising:

a floor brush;

a dirty storage cassette provided in the floor brush, the dirty storage cassette being the dirty storage cassette according to any one of claims 1 to 16.

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