CN211633064U - Surface cleaning head - Google Patents

Abstract

The utility model discloses a surface cleaning head, including be applicable to treat the dirty liquid intercommunication air on the clean surface inspiratory suction head together, configure into the dirty liquid jar that can save the dirty liquid and be used for the outlet duct of putting through with a vacuum cleaning equipment looks air current, be provided with the float in the dirty liquid jar, the inside of dirty liquid jar is provided with the upper reaches cavity and the low reaches cavity that communicate each other, upper reaches cavity and low reaches cavity are arranged into that the dirty liquid that gets into in the dirty liquid jar flows into the upper reaches cavity earlier and flows into the low reaches cavity in, the float is laid in the low reaches cavity. The utility model discloses a set up two cavities in upper and lower reaches in dirty liquid jar to lay the float in the cavity in lower reaches, such overall arrangement can reduce the dirty liquid that gets into dirty liquid jar because rock or the influence to the float of foam etc. that the collision was produced, make the detection accuracy when utilizing the float to reach the dirty liquid jar to predetermine the liquid level improved, will make this surface cleaning head can be better supply the user to use like this.

Description

Surface cleaning head

Technical Field

The utility model relates to a cleaning device technical field, in particular to a surface cleaning head for assembling use on vacuum cleaner.

Background

In daily life, people usually use a vacuum cleaner to clean indoor floor, suck dust particles on the floor, and the like. However, when a child accidentally drops liquid beverages such as milk and fruit juice on a table top or a floor, the conventional vacuum cleaner cannot directly clean the table top or the floor due to the lack of waterproof performance and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, an object of the present invention is to provide a surface cleaning head capable of cleaning liquid contaminants by simply combining with a dry vacuum cleaner which is commonly used in homes.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme: a surface cleaning head comprises a suction head suitable for sucking dirty liquid communicating air on a surface to be cleaned together, a dirty liquid tank configured to store dirty liquid and an air outlet pipe used for being communicated with a vacuum dust collection device in an air flow mode, wherein the suction head is communicated with the dirty liquid tank in a fluid mode, the dirty liquid tank is communicated with the air outlet pipe in the air flow mode, a floater is arranged in the dirty liquid tank, an upstream cavity and a downstream cavity which are communicated with each other are arranged in the dirty liquid tank, the dirty liquid entering the dirty liquid tank flows into the upstream cavity and then flows into the downstream cavity, and the floater is arranged in the downstream cavity.

In the above technical solution, preferably, a transverse wall is provided inside the dirty liquid tank, and the upstream chamber and the downstream chamber are adjacent to each other through the transverse wall. Further preferably, a gap is arranged above the transverse wall, and the upstream chamber and the downstream chamber are communicated through the gap. Further preferably, an opening is provided in a lower middle portion of the lateral wall, and the dirty liquid in the upstream chamber flows into the downstream chamber at least partially through the opening.

In the above technical solution, preferably, a liquid inlet pipe for sending the dirty liquid-air mixture sucked from the suction nozzle into the upstream chamber is provided in the upstream chamber, and an upper end opening of the liquid inlet pipe is located above an upper end portion of the transverse wall.

In the above technical solution, preferably, the suction head includes a housing, a suction nozzle is disposed at a bottom of the housing, and a suction channel extending to the suction nozzle is disposed inside the housing. Preferably, the surface cleaning head further comprises a coupling body, a lower portion of the coupling body is rotatably connected to the housing and is in fluid communication with the suction passage, and the dirty liquid tank is detachably supported on the coupling body. Still more preferably, the air outlet pipe is provided at the top of the coupling body.

In the above technical solution, preferably, the upstream chamber and the downstream chamber are arranged side by side in the left-right direction. Still further preferably, the dirty liquid tank includes a tank body and a tank cover removably disposed over the tank body, the tank cover including a first cover portion overlying the upstream chamber and a second cover portion overlying the downstream chamber. Still further preferably, the second cover portion projects upwardly relative to the first cover portion. Or further preferably, said float is mounted on said second cover portion. The tank cover comprises a venting member extending from the second cover body portion to the first cover body portion, and the downstream chamber, the venting member and the outlet duct are communicated in sequence.

In the above technical solution, preferably, a depth of the upstream chamber is smaller than a depth of the downstream chamber.

The utility model discloses a set up two cavities in upper and lower reaches in dirty liquid jar to lay the float in the cavity in lower reaches, such overall arrangement can reduce the dirty liquid that gets into dirty liquid jar because rock or the influence to the float of foam etc. that the collision was produced, make the detection accuracy when utilizing the float to reach the dirty liquid jar to predetermine the liquid level improved, will make this surface cleaning head can be better supply the user to use like this.

Drawings

Figure 1 is a schematic perspective view of a surface cleaning head according to a first embodiment of the present invention;

FIG. 2 is a disassembled schematic view of the surface cleaning head of FIG. 1;

FIG. 3 is a schematic bottom view of the surface cleaning head of FIG. 1;

FIG. 4 is a schematic perspective view of the waste liquid tank of FIG. 1;

FIG. 5 is a disassembled schematic view of the waste liquid tank of FIG. 4;

FIG. 6 is a schematic cross-sectional front view of the waste liquid tank of FIG. 4;

FIG. 7 is a schematic representation of the dirty liquid air mixture flowing inside the dirty liquid tank shown in FIGS. 4-6 (float omitted);

fig. 8 is a schematic front sectional view of a waste liquid tank according to a second embodiment of the present invention;

figure 9 is a schematic view of the dirty liquid air mixture flowing inside the dirty liquid tank shown in figure 8.

Detailed Description

To explain the technical content, structural features, achieved objects and functions of the present invention in detail, the following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1-2, a surface cleaning head 100 according to a first disclosed embodiment of the invention is shown and described. The surface cleaning head 100 generally comprises a cleaner head 10 adapted to be moved over a surface to be cleaned and capable of drawing in a dirty liquid air mixture, a coupling body 20, a dirty liquid tank 30 and an air outlet conduit 40. The lower portion of the coupling body 20 is rotatably coupled to the suction head 10 of the suction head 10. The soil solution tank 30 is detachably mounted on the coupling body 20, and a lock mechanism 34 is mounted on the top of the soil solution tank 30, so that the user can release the entire soil solution tank 30 from the coupling body 20 by operating the lock mechanism 34. The outlet tube 40 is installed on the top of the coupling body 20. The outlet duct 40 is adapted to be in airflow communication with a vacuum cleaning apparatus, the outlet duct 40 being arranged to transmit vacuum suction from the vacuum cleaning apparatus to the cleaner head 10.

As shown in FIGS. 2 and 3, the suction head 10 comprises a housing 11 formed by an upper cover 111 and a bottom plate 112, a flexible suction nozzle 12 is provided at a central position of the bottom plate 112, and a pair of moving wheels 113 and 114 are mounted on the front and rear portions of the bottom plate 112. As the cleaner head 10 is moved across the surface to be cleaned, the two pairs of wheels 113 and 114 on the base 112 move the cleaner head 10 as a whole, whilst the suction nozzle 12 is now arranged to suck up the dirty liquid air mixture from the surface to be cleaned and feed it into a suction channel (not shown) in the housing 11.

As shown in fig. 2, the lower part of the coupling body 20 is provided with a lower port 21 of the housing 11 for air flow communication, and an upper port 22 located right above the lower port 21. The upper connector 22 is communicated with the air outlet pipe 40. The adapter 20 is adapted to receive the canister 30 in the area between the upper and lower junction ports.

The dirty liquid tank 30 shown in fig. 4 to 5 includes a tank body 31, a tank cover 32 detachably disposed above the tank body 31, and a float 33. The can lid 32 includes a first lid portion 321, a second lid portion 322, and a venting member 323 mounted between the first lid portion 321 and the second lid portion 322. The second cover portion 322 partially protrudes upward relative to the first cover 321. The user can pour the dirty liquid in the tank 31 by removing the tank cover 32, and can clean the float 33 at the same time.

As shown in fig. 6, which shows the internal layout of the dirty liquid tank 30. Wherein, a transverse wall 311 is arranged inside the tank 31, the transverse wall 311 divides the inner space of the tank 31 into an upstream chamber 312 and a downstream chamber 313 which are adjacent left and right, the depth of the upstream chamber 312 is less than that of the downstream chamber 313. Transverse wall 311 has notch 3111 above, opening 3112 is opened at the lower part of transverse wall 311, and upstream chamber 312 and downstream chamber 313 are communicated through notch 3111 and opening 3112, that is, dirty liquid-air mixture in upstream chamber 312 flows into downstream chamber 313 through notch 3111 and opening 3112. The tank 31 is integrally provided with an inlet pipe 314 located in the upstream chamber 312, a lower end portion 3141 of the inlet pipe 314 is connected to the lower port 21 of the adapter 20, and the inlet pipe 314 can feed the dirty air mixture sucked from the suction nozzle 12 into the upstream chamber 312. The upper port 3142 of the inlet pipe 314 is located above the upper edge of the transverse wall 311. The first cover portion 321 covers over the upstream chamber 311 and the second cover portion 322 covers over the downstream chamber 313. The float 33 is mounted on the second cover portion 322 and projects into the downstream chamber 313 to move with changes in the liquid level in the downstream chamber 313. The interior of the second cover portion 322 is also provided with a venting spool 324. The air exhausting device 323 has a passage 3231 therein, one end of the air exhausting device 323 is connected to the short exhaust pipe 324, and the other end 3232 is connected to the upper port 22 of the coupling body 20. The exhaust stub 324 can exhaust the air in the downstream chamber 313 to the outside of the chamber, i.e., into the exhaust 323, and then into the outlet duct 40 by the exhaust 323.

As shown in fig. 7, when dirty liquid-air mixture is sucked into the dirty liquid tank 30 from the liquid inlet pipe 314, the dirty liquid-air mixture firstly enters the upstream chamber 312, dirty liquid and a small amount of air enter the downstream chamber 313 from the lower opening 3112, most of the air will escape from the notch 3111 to the downstream chamber 313, then enter the exhaust 323 from the exhaust short pipe 324, and finally escape from the air outlet pipe 40; at the same time, as the dirty liquid flows into the downstream chamber 313 from the opening 311, the dirty liquid level in the downstream chamber 313 rises gradually until the float (not shown) floats to a predetermined position and blocks the short exhaust pipe 324.

As shown and described in fig. 8, the structure of the dirty liquid tank 50 according to the second embodiment of the disclosure is shown, and the structure of the lateral wall 511 of the dirty liquid tank 50 is changed compared to the above mentioned dirty liquid tank 30, specifically: an opening 5111 is formed at the upper part of the transverse wall 511, and the upper end opening 5141 of the liquid inlet pipe 514 is positioned above the opening 5111. The opening 5111 provides for simultaneous flow of air and dirty liquid from the upstream chamber 512 into the downstream chamber 513.

As shown in fig. 9, during the operation of the dirty liquid tank 50, the dirty liquid-air mixture still flows into the upstream chamber 512 through the liquid inlet pipe 514, the air flowing into the upstream chamber 512 flows out from the opening 5111 in real time, and the air entering the downstream chamber 523 flows through the short exhaust pipe 524 and the air exhaust member 523 in sequence and finally flows out from the air outlet pipe; the level of dirty liquid flowing into the upstream chamber 512 will only reach the level of the opening 5111, and only the opening 5111 will flow into the downstream chamber 512.

The surface cleaning head of present case can fine realization clean the dirty of liquid form, owing to set up the cavity that two upper and lower reaches distribute, it has reduced the dirty liquid drunkenness in the inside low reaches cavity that is equipped with the float for the float can rise gently, thereby realizes effectual liquid level monitoring effect.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (14)

1. A surface cleaning head comprising a suction head adapted to draw in dirty liquid communicating air from a surface to be cleaned, a dirty liquid tank arranged to store dirty liquid and an outlet conduit for fluid communication with a vacuum cleaning apparatus, the suction head being in fluid communication with the dirty liquid tank, the dirty liquid tank being in fluid communication with the outlet conduit, the dirty liquid tank being provided with a float therein, the surface cleaning head comprising: the inside of the dirty liquid tank is provided with an upstream chamber and a downstream chamber which are communicated with each other, the upstream chamber and the downstream chamber are arranged in a way that dirty liquid entering the dirty liquid tank flows into the upstream chamber and then flows into the downstream chamber, and the floater is arranged in the downstream chamber.

2. A surface cleaning head as claimed in claim 1, wherein: the interior of the sewage tank is provided with a transverse wall, and the upstream chamber and the downstream chamber are adjoined through the transverse wall.

3. A surface cleaning head as claimed in claim 2, wherein: a gap is arranged above the transverse wall, and the upstream chamber and the downstream chamber are communicated through the gap.

4. A surface cleaning head as claimed in claim 3, wherein: an opening is arranged at the middle lower part of the transverse wall, and at least part of the dirty liquid in the upstream chamber flows into the downstream chamber through the opening.

5. A surface cleaning head as claimed in claim 2, wherein: the suction head comprises a shell, a suction nozzle is arranged at the bottom of the shell, and a suction channel extending to the suction nozzle is arranged in the shell.

6. A surface cleaning head as claimed in claim 5, wherein: and a liquid inlet pipe for sending dirty liquid and air mixture sucked from the suction nozzle into the upstream chamber is arranged in the upstream chamber, and an upper end opening of the liquid inlet pipe is positioned above the upper end part of the transverse wall.

7. A surface cleaning head as claimed in claim 5, wherein: the surface cleaning head also comprises a joint body, the lower part of the joint body is rotatably connected to the outer shell and is communicated with the fluid of the suction channel, and the dirty liquid tank is detachably supported on the joint body.

8. A surface cleaning head as claimed in claim 7, wherein: the air outlet pipe is arranged at the top of the joint body.

9. A surface cleaning head as claimed in claim 1, wherein: the upstream chamber and the downstream chamber are arranged side by side from left to right.

10. A surface cleaning head as claimed in claim 9, wherein: the dirty liquid tank comprises a tank body and a tank cover which is detachably arranged above the tank body, wherein the tank cover comprises a first cover body part and a second cover body part, the first cover body part covers the upper part of the upstream cavity, and the second cover body part covers the upper part of the downstream cavity.

11. A surface cleaning head as claimed in claim 10, wherein: the second cover portion projects upwardly relative to the first cover portion.

12. A surface cleaning head as claimed in claim 10, wherein: the float is mounted to the second cover portion.

13. A surface cleaning head as claimed in claim 10, wherein: the tank cover comprises a venting member extending from the second cover body portion to the first cover body portion, and the downstream chamber, the venting member and the outlet duct are communicated in sequence.

14. A surface cleaning head as claimed in claim 1, wherein: the depth of the upstream chamber is less than the depth of the downstream chamber.

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