CN212186386U - Surface cleaning integrated mechanism and cleaner with same - Google Patents

Abstract

The utility model provides a surface cleaning integrated mechanism and have cleaner of this integrated mechanism, this integrated mechanism includes the dust absorption bucket, and this dust absorption bucket has air intake and air outlet, and aforementioned air intake tangential gets into dust absorption bucket inner chamber, and the inner chamber of dust absorption bucket is left to aforementioned air outlet tangential, its characterized in that the bottom opening of dust absorption bucket forms the dust absorption port, air intake and air outlet are connected respectively in dust absorption bucket lower extreme and upper end, dust absorption bucket lower extreme inner wall has the infusion mouth that supplies the washing liquid to flow out. The utility model also discloses a cleaner. The liquid outlet flows out the washing liquid, has the vacuum negative pressure's in the inside condition of dust absorption bucket, and water is inhaled to inside, cleans ground along the flow field direction that the air spiral rises, and the washing liquid of delivery port can play isolated air's effect, plays sealed effect, the clean dead angle that significantly reduces.

Description

Surface cleaning integrated mechanism and cleaner with same

Technical Field

The utility model relates to a dust-absorbing and cleaning integrated mechanism, in particular to a cleaner which can clean and clean the surface,

background

Cyclone separation technique is comparatively general in the dust catcher application, and it utilizes vacuum negative pressure to form the air current at clean mouthful, utilizes the air to promote particulate matter or the dust on object surface to the dust cup after utilizing the round brush of ground parallel direction to raise ground particulate matter for the medium or utilizing, or adds water back, utilizes the round brush of being stained with water to carry out the clean back of physical contact with ground and inhale to collection dirt cup, or utilizes the rotatory water that drives of gas to mix clean structure can only clean fixed position.

The related documents can refer to the invention patent application publication of China with application number 200510008773.5 (publication number CN1695538A) of cyclone tube dust collector and the dust collector comprising the cyclone tube dust collector; chinese utility model patent No. 201120203087.4, cyclone dust collector cup (publication No. CN 202136278U). However, the structure disclosed in the above document has insufficient agglomeration, so that the settled dust can be lifted up again to the air flow to be carried out to the outside due to the turbulent flow at the bottom of the container, thereby forming secondary pollution.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the first technical problem that will solve provides a surface cleaning integrated mechanism that can improve clean efficiency to foretell technical situation.

The utility model aims to solve the second technical problem that a table cleaner that can improve clean efficiency is provided.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: the utility model provides a surface cleaning integrated mechanism, includes the dust absorption bucket, and this dust absorption bucket has air intake and air outlet, and aforementioned air intake tangential gets into dust absorption bucket inner chamber, and the inner chamber of dust absorption bucket is left to aforementioned air outlet tangential, its characterized in that the bottom opening of dust absorption bucket forms the dust absorption port, air intake and air outlet are connected respectively in dust absorption bucket lower extreme and upper end, dust absorption bucket lower extreme inner wall has the infusion mouth that supplies the washing liquid to flow out.

Furthermore, the infusion port is externally connected with an infusion tube.

The infusion port is arranged close to the air inlet. So that the cleaning liquid can be quickly taken away and mixed by air after flowing out,

the air inlet direction of the air inlet and the air outlet direction of the air outlet are consistent in flow direction. Therefore, the whole flow field can be ensured to spirally rise in the column body, and no turbulent flow can be generated.

The air inlet is connected with an air inlet channel, and the caliber of the air inlet channel is gradually reduced from outside to inside. The air inlet channel is connected with the air inlet through a gradual change structure, so that the air can be accelerated, and the incoming air is in direct contact with the surface, and the cleaning efficiency is improved.

Preferably, the dust absorption barrel comprises an upper barrel and a lower barrel arranged at the lower end of the upper barrel, the lower barrel is annular, the air inlet flow passage is arranged on the lower barrel, and the air outlet is connected to the upper barrel.

Preferably, the air inlet flow channel is at least two and is arranged at intervals.

Further, the air inlet runner outside is equipped with the holding chamber, and this holding intracavity is equipped with the ball that can contact with the surface of treating the clearance elastically. The ball and the cleaning surface are in dynamic friction, the resistance is small, and the dust collection barrel can have a certain clearance due to the fact that the ball has a certain supporting effect, and the clearance does not affect the sealing performance. Compared with a special sealing element for sealing with the ground, the resistance in the moving process is reduced, and the utilization of consumables is reduced.

Preferably, a spring is arranged in the accommodating cavity, and the inner surface of the ball is abutted against the spring.

The utility model provides a technical scheme that above-mentioned second technical problem adopted does: a cleaner of a surface cleaning integrated mechanism comprises a negative pressure generating device, a dust collecting box and the surface cleaning integrated mechanism, wherein an air outlet of the surface cleaning integrated mechanism is connected with the dust collecting box, and an air outlet of the dust collecting box is connected with the negative pressure generating device.

Compared with the prior art, the utility model has the advantages of: the air outlet is positioned at the upper part of the air inlet and is tangential to the cylindrical surface, air and cleaning solution are fully mixed, high-speed fluid tangential to the surface is generated in a spiral flow field, and the surface is cleaned and then quickly ascends to the outlet. The mixed fluid can be contacted with the ground for many times under the action of the gravity of the fluid and the self rotating flow field, so that the utilization rate of the fluid is improved. The liquid outlet flows out the washing liquid, has the vacuum negative pressure's in the inside condition of dust absorption bucket, and water is inhaled to inside, cleans ground along the flow field direction that the air spiral rises, and the washing liquid of delivery port can play isolated air's effect, plays sealed effect, the clean dead angle that significantly reduces.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment.

FIG. 2 is a schematic structural diagram of an integrated surface cleaning mechanism according to an embodiment.

Fig. 3 is a schematic view of another perspective structure of the integrated surface cleaning mechanism.

Fig. 4 is an exploded view of fig. 2.

Detailed Description

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

As shown in fig. 1, the cleaner in this embodiment includes a negative pressure generating device 101, a dust box 100, and a surface cleaning integrated mechanism 10, wherein the air outlet 15 of the surface cleaning integrated mechanism 10 is connected to the dust box 100 through a connecting pipe 102, and the air outlet of the dust box 100 is connected to the negative pressure generating device 101 through a connecting pipe 103.

As shown in fig. 2, fig. 3 and fig. 4, the surface cleaning integrated mechanism in this embodiment includes a dust collection barrel 1, the dust collection barrel 1 has an air inlet 14 and an air outlet 15, the air inlet 14 enters an inner cavity of the dust collection barrel 1 tangentially, the air outlet 15 leaves the inner cavity of the dust collection barrel 1 tangentially, the surface cleaning integrated mechanism is characterized in that an opening at the bottom of the dust collection barrel 1 forms a dust collection port, the air inlet 14 and the air outlet 15 are connected to the lower end and the upper end of the dust collection barrel 1 respectively, and an inner wall of the lower end of the dust collection barrel 1 has an infusion port 21 for. The infusion port 21 in this embodiment is externally connected with an infusion tube 2. The infusion port 21 is arranged close to the air inlet 14.

The air inlet direction of the air inlet 14 and the air outlet direction of the air outlet 15 are consistent in flow direction. The air inlet 14 is connected with an air inlet channel 13, and the caliber of the air inlet channel 13 is gradually reduced from outside to inside. The number of the intake runners 13 in this embodiment is two and the intake runners are arranged at intervals.

The dust collection barrel 1 in this embodiment includes an upper barrel 11 and a lower barrel 12 disposed at a lower end of the upper barrel 11, the lower barrel 12 is annular, an air inlet channel 13 is disposed on the lower barrel 12, an infusion port 21 is disposed on the lower barrel 12, and an air outlet 15 is connected to the upper barrel 11.

The outside of the air inlet channel 13 is provided with a holding cavity 3, and the inside of the holding cavity 3 is elastically provided with a ball 32 which can be contacted with the surface to be cleaned. Specifically, the spring 31 is disposed in the accommodating chamber 3, and the inner surface of the ball 32 abuts against the spring 31.

The air outlet is positioned at the upper part of the air inlet and is tangential to the cylindrical surface, air and cleaning solution are fully mixed, high-speed fluid tangential to the surface is generated in a spiral flow field, and the surface is cleaned and then quickly ascends to the outlet. The mixed fluid can be contacted with the ground for many times under the action of the gravity of the fluid and the self rotating flow field, so that the utilization rate of the fluid is improved. The liquid outlet flows out the washing liquid, has the vacuum negative pressure's in the inside condition of dust absorption bucket, and water is inhaled to inside, cleans ground along the flow field direction that the air spiral rises, and the washing liquid of delivery port can play isolated air's effect, plays sealed effect, the clean dead angle that significantly reduces.

Claims (10)

1. The utility model provides a clean integrated mechanism in surface, includes dust absorption bucket (1), and this dust absorption bucket (1) has air intake (14) and air outlet (15), and aforementioned air intake (14) tangential gets into dust absorption bucket (1) inner chamber, and the inner chamber of dust absorption bucket (1) is left in aforementioned air outlet (15) tangential, its characterized in that the bottom opening of dust absorption bucket (1) forms the dust absorption port, air intake (14) and air outlet (15) are connected respectively in dust absorption bucket (1) lower extreme and upper end, dust absorption bucket (1) lower extreme inner wall has infusion mouth (21) that supply the washing liquid to flow out.

2. The integrated surface cleaning mechanism according to claim 1, wherein the infusion port (21) is externally connected with an infusion tube (2).

3. Integrated surface cleaning mechanism according to claim 1, characterized in that the infusion port (21) is arranged close to the air intake (14).

4. The integrated surface cleaning mechanism according to claim 1, wherein the air inlet direction of the air inlet (14) and the air outlet direction of the air outlet (15) are consistent.

5. The surface cleaning integrated mechanism according to claim 1, wherein the air inlet (14) is connected with an air inlet channel (13), and the aperture of the air inlet channel (13) is gradually reduced from outside to inside.

6. The integrated surface cleaning mechanism according to claim 5, wherein the dust suction barrel (1) comprises an upper barrel (11) and a lower barrel (12) disposed at a lower end of the upper barrel (11), the lower barrel (12) is annular, the air inlet channel (13) is disposed on the lower barrel (12), and the air outlet (15) is connected to the upper barrel (11).

7. The integrated surface cleaning mechanism according to claim 5, wherein the air intake channel (13) is at least two and spaced apart.

8. The surface cleaning integrated mechanism according to claim 5, characterized in that the outside of the air intake channel (13) is provided with a receiving cavity (3), and the receiving cavity (3) is elastically provided with a ball (32) capable of contacting with the surface to be cleaned.

9. The integrated mechanism for cleaning surfaces according to claim 8, characterized in that a spring (31) is arranged in the accommodating cavity (3), and the inner surface of the ball (32) is abutted against the spring (31).

10. A cleaner with any one of the surface cleaning integrated mechanisms of claims 1 to 9, comprising a negative pressure generating device (101), a dust box (100) and the surface cleaning integrated mechanism (10), wherein an air outlet (15) of the surface cleaning integrated mechanism (10) is connected with the dust box (100), and an air outlet of the dust box (100) is connected with the negative pressure generating device (101).

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