CN114468832B - Surface cleaning brush provided with dirt particle cyclone separation system - Google Patents

Abstract

The invention discloses a surface cleaning brush with a dirt particle cyclone separation system, which comprises a cleaning brush body and the dirt particle cyclone separation system arranged in the cleaning brush body, wherein the bottom of the cleaning brush body is provided with a ground brush suction inlet which is connected with a dirt particle air inlet of the dirt particle cyclone separation system, the front side of the ground brush suction inlet is provided with a ground brush mechanism, and an air outlet of the dirt particle cyclone separation system is connected with a negative pressure air flow generator. The dust collector is skillfully arranged on the floor brush, so that the volume and the weight of a handheld part are reduced, a user does not feel uncomfortable when using the dust collector for a long time, and the dust barrel and the dirty particle cyclone separation system are far away from the body of the user, so that the use experience of the user is improved.

Description

Surface cleaning brush provided with dirt particle cyclone separation system

Technical Field

The invention relates to a cleaning brush, in particular to a surface cleaning brush provided with a dirty particle cyclone separation system, and belongs to the technical field of dust collectors.

Background

The handheld push rod dust collector is generally composed of a handheld part and a floor brush, the handheld part and the floor brush can be freely detached and assembled, and the handheld push rod dust collector is small in size and convenient to carry. At present, a dust barrel, a dust-air separation system and a negative pressure air flow generator of the handheld push rod dust collector on the market are arranged on a handheld part, so that the weight of the handheld part is large, the wrist of a user is subjected to large load due to long-time use, the wrist of the user is uncomfortable for the user, and the user experience is reduced. And because the dust bucket, the dust-air separation system and the negative pressure air flow generator are arranged on the handheld part and are closer to the hands and the body of a user, the user experience is further reduced.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a surface cleaning brush with a dirty particle cyclone separation system, so that the weight and the volume of a handheld part of a handheld dust collector are reduced, and the user experience is improved.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a surface cleaning brush provided with a dirty particle cyclonic separation system, characterised in that: contain the cleaning brush body and set up at the inside dirty granule whirlwind piece-rate system of cleaning brush body, the bottom of cleaning brush body is provided with the scrubbing brush sunction inlet and dirty granule whirlwind piece-rate system's dirty granule air intake connection, and the front side of scrubbing brush sunction inlet is provided with scrubbing brush mechanism, and dirty granule whirlwind piece-rate system's air outlet is connected negative pressure airflow generator.

Furthermore, the dirty particle cyclone separation system comprises a first cyclone wall surface, a second cyclone wall surface and a third cyclone wall surface, the first cyclone wall surface, the second cyclone wall surface and the third cyclone wall surface are all cylindrical cylinders, the second cyclone wall surface is sleeved on the outer side of the first cyclone wall surface and is coaxially arranged with the first cyclone wall surface, the third cyclone wall surface is sleeved on the outer side of the second cyclone wall surface and is coaxially arranged with the second cyclone wall surface, a cavity A is formed by a gap between the first cyclone wall surface and the second cyclone wall surface, a cavity B is formed by a gap between the second cyclone wall surface and the third cyclone wall surface, a cavity C is formed by a gap between the third cyclone wall surface and the inner wall of the cleaning brush body shell, spiral air guide grooves are arranged in the cavity A and the cavity B, the lower end of the cavity B is a dirty particle air inlet of the dirty particle cyclone separation system, the lower end of the cavity A is an air outlet of the dirty particle cyclone separation system, and the upper end of the first cyclone wall surface is closed.

Furthermore, gaps are reserved between the upper ends of the first cyclone wall surface, the second cyclone wall surface and the third cyclone wall surface and an upper cover of the floor brush of the cleaning brush body, and the upper cover of the floor brush is detachably fixed on the upper side of the cleaning brush body.

Furthermore, the upper cover of the floor brush is made of transparent materials.

Furthermore, the floor brush mechanism adopts an electric rolling brush, the front end of the cleaning brush body is provided with a containing cavity matched with the electric rolling brush, and the electric rolling brush is rotatably arranged in the containing cavity at the front end of the cleaning brush body.

Furthermore, the ground brush mechanism adopts a fixed hairbrush which is fixed at the front end of the lower side of the cleaning brush body, and a ground brush suction inlet of the cleaning brush body is positioned at the rear side of the fixed hairbrush.

Furthermore, a floor brush suction port sealing strip matched with the floor brush suction port in shape is arranged on the outer side of the floor brush suction port.

Furthermore, the negative pressure airflow generator is arranged on the outer side of the cleaning brush body, a pipe connector is rotatably arranged on the upper side of the cleaning brush body, and the pipe connector is connected with an air outlet of the dirty particle cyclone separation system through a hose.

Further, the negative pressure airflow generator is arranged on the inner side of the cleaning brush body, the negative pressure airflow generator containing cavity is arranged at the rear end of the inner side of the cleaning brush body, the negative pressure airflow generator is fixed in the negative pressure airflow generator containing cavity, and the lower end of the negative pressure airflow generator containing cavity is communicated with an air outlet of the dirty particle cyclone separation system.

Further, an operation push rod is arranged on the upper side of the cleaning brush body, and the lower end of the operation push rod is hinged to the cleaning brush body.

Compared with the prior art, the invention has the following advantages and effects: according to the surface cleaning brush with the dirt particle cyclone separation system, the dust barrel and the dirt particle cyclone separation system are skillfully arranged on the ground brush, so that the volume and the weight of a handheld part are reduced, a user does not feel uncomfortable about the wrist even using the dust collector for a long time, the dust barrel and the dirt particle cyclone separation system are far away from the body of the user, and the use experience of the user is improved.

Drawings

Fig. 1 is a schematic view of an embodiment 1 of a surface cleaning brush of the present invention provided with a dirt particle cyclonic separation system.

Figure 2 is a schematic view of the underside of an embodiment 1 of a surface cleaning brush of the invention provided with a dirt particle cyclonic separation system.

Figure 3 is a cross-sectional view of an embodiment 1 of a surface cleaning brush of the present invention provided with a dirt particle cyclonic separation system.

Figure 4 is a cross-sectional view of embodiment 2 of a surface cleaning brush of the present invention provided with a dirt particle cyclonic separation system.

Figure 5 is a cross-sectional view of embodiment 3 of a surface cleaning brush of the present invention provided with a dirt particle cyclonic separation system.

Figure 6 is a schematic view of the underside of an embodiment 3 of a surface cleaning brush of the present invention provided with a dirt particle cyclonic separation system.

Detailed Description

Technical solutions adopted in embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, it is obvious that the described embodiments are only some embodiments, not all embodiments, of the present invention, and technical means or technical features in the embodiments of the present invention may be replaced without creative efforts, and the present invention will be described in detail below with reference to the drawings and the embodiments.

Example 1:

as shown in fig. 1, 2 and 3, the surface cleaning brush with the dirt particle cyclone separation system of the present invention comprises a cleaning brush body 1 and a dirt particle cyclone separation system 2 arranged inside the cleaning brush body 1, wherein a floor brush suction inlet 3 is arranged at the bottom of the cleaning brush body 1, the floor brush suction inlet 3 is connected with a dirt particle air inlet 4 of the dirt particle cyclone separation system 2, a floor brush mechanism 5 is arranged at the front side of the floor brush suction inlet 3, and an air outlet 6 of the dirt particle cyclone separation system 2 is connected with a negative pressure air flow generator.

The dirty particle cyclone separation system 2 comprises a first cyclone wall surface 7, a second cyclone wall surface 8 and a third cyclone wall surface 9, the first cyclone wall surface 7, the second cyclone wall surface 8 and the third cyclone wall surface 9 are cylindrical barrels, the second cyclone wall surface 8 is sleeved on the outer side of the first cyclone wall surface 7 and is coaxially arranged with the first cyclone wall surface 7, the third cyclone wall surface 9 is sleeved on the outer side of the second cyclone wall surface 8 and is coaxially arranged with the second cyclone wall surface 8, a cavity A10 is formed by a gap between the first cyclone wall surface 7 and the second cyclone wall surface 8, a cavity B11 is formed by a gap between the second cyclone wall surface 8 and the third cyclone wall surface 9, a cavity C12 is formed by a gap between the third cyclone wall surface 9 and the inner wall of the cleaning brush body 1, spiral air guide grooves are arranged in the cavity A10 and the cavity B11, the lower end of the cavity B11 is a dirty particle air inlet 4 of the dirty particle cyclone separation system 2, the lower end of the cavity A10 is a cyclone air outlet 6 of the dirty particle cyclone separation system 2, and the upper end of the first cyclone wall surface 7 is closed. Gaps are reserved between the upper ends of the first cyclone wall surface 7, the second cyclone wall surface 8 and the third cyclone wall surface 9 and the upper cover 13 of the scrubbing brush of the cleaning brush body 1, and the upper cover 13 of the scrubbing brush is detachably fixed on the upper side of the cleaning brush body 1. Ground brush upper cover 13 adopts transparent material, adopts transparent material can convenience of customers to see the condition of the dust in cavity C12, when piling up dust and rubbish more, opens ground brush upper cover 13 and cleans cavity C12. During operation, dirty granule that moves at a high speed enters into cavity B11 from the dirty granule air intake 4 of the lower extreme of cavity B11 and along with spiral wind-guiding groove spiral rising, under the effect of centrifugal force, thereby solid particle in the dirty granule is thrown away and drops to cavity C12 from whirlwind wall upper end clearance, the air then gets into in cavity A10 along the upper end of cavity A10 to spiral downwards along the spiral wind-guiding groove of cavity A10, finally goes out from air outlet 6 of cavity A10 lower extreme, has accomplished the separation of dirty granule.

The floor brush mechanism 5 adopts an electric rolling brush, the front end of the cleaning brush body 1 is provided with a containing cavity matched with the electric rolling brush, and the electric rolling brush is rotatably arranged in the containing cavity at the front end of the cleaning brush body 1. As can be seen in figure 3, the curved wall of the cavity shares a common component with the side wall of the cavity C12. The negative pressure airflow generator is arranged on the handheld part outside the cleaning brush body 1, the pipe connector 14 is rotatably arranged on the upper side of the cleaning brush body 1, and the pipe connector 14 can freely rotate on the cleaning brush body 1 by 360 degrees. The pipe connection 14 is connected to the air outlet 6 of the dirt particle cyclonic separation system 2 via a hose 15.

Example 2:

as shown in fig. 4, the surface cleaning brush with a dirt particle cyclone separation system of the present invention comprises a cleaning brush body 1 and a dirt particle cyclone separation system 2 arranged inside the cleaning brush body 1, wherein a floor brush suction inlet 3 is arranged at the bottom of the cleaning brush body 1, the floor brush suction inlet 3 is connected with a dirt particle air inlet 4 of the dirt particle cyclone separation system 2, a floor brush mechanism 5 is arranged at the front side of the floor brush suction inlet 3, and an air outlet 6 of the dirt particle cyclone separation system 2 is connected with a negative pressure air flow generator.

Dirty granule whirlwind piece-rate system 2 contains first whirlwind wall 7, second whirlwind wall 8 and third whirlwind wall 9, first whirlwind wall 7, second whirlwind wall 8 and third whirlwind wall 9 are cylindrical barrel, and second whirlwind wall 8 cover is established in the outside of first whirlwind wall 7 and is coaxial setting with first whirlwind wall 7, third whirlwind wall 9 cover is established in the outside of second whirlwind wall 8 and is coaxial setting with second whirlwind wall 8, the clearance constitutes cavity A10 between first whirlwind wall 7 and the second whirlwind wall 8, the clearance constitutes cavity B11 between second whirlwind wall 8 and the third whirlwind wall 9, the clearance constitutes cavity C12 between third whirlwind wall 9 and the cleaning brush body 1 shell inner wall, all be provided with the spiral wind guide slot in cavity A10 and the cavity B11, the cavity B11 lower extreme is dirty granule air intake 4 of dirty granule whirlwind piece-rate system 2, the lower extreme of cavity A10 is the whirlwind outlet 6 of dirty granule whirlwind piece-rate system 2, the upper end of first whirlwind wall 7 is sealed. Gaps are reserved between the upper ends of the first cyclone wall surface 7, the second cyclone wall surface 8 and the third cyclone wall surface 9 and the upper cover 13 of the floor brush of the cleaning brush body 1, and the upper cover 13 of the floor brush is detachably fixed on the upper side of the cleaning brush body 1. Ground brush upper cover 13 adopts transparent material, adopts transparent material can convenience of customers to see the condition of the dust in cavity C12, when piling up dust and rubbish more, opens ground brush upper cover 13 and cleans cavity C12. During operation, dirty granule that moves at a high speed enters into cavity B11 from the dirty granule air intake 4 of the lower extreme of cavity B11 and along with spiral wind-guiding groove spiral rising, under the effect of centrifugal force, thereby solid particle in the dirty granule is thrown away and drops to cavity C12 from whirlwind wall upper end clearance, the air then gets into in cavity A10 along the upper end of cavity A10 to spiral downwards along the spiral wind-guiding groove of cavity A10, finally goes out from air outlet 6 of cavity A10 lower extreme, has accomplished the separation of dirty granule.

The floor brush mechanism 5 adopts an electric rolling brush, the front end of the cleaning brush body 1 is provided with a containing cavity matched with the electric rolling brush, and the electric rolling brush is rotatably arranged in the containing cavity at the front end of the cleaning brush body 1. As can be seen in figure 3, the curved wall of the cavity shares a common component with the side wall of the cavity C12. The negative pressure air flow generator 15 is arranged on the inner side of the cleaning brush body 1, the negative pressure air flow generator containing cavity is formed in the rear end of the inner side of the cleaning brush body 1, the negative pressure air flow generator 15 is fixed in the negative pressure air flow generator containing cavity, and the lower end of the negative pressure air flow generator containing cavity 15 is communicated with the air outlet 6 of the dirty particle cyclone separation system 2. An operation push rod 16 is arranged on the upper side of the cleaning brush body 1, and the lower end of the operation push rod 16 is hinged on the cleaning brush body 1.

Example 3:

as shown in fig. 5 and 6, the surface cleaning brush with the dirt particle cyclone separation system of the present invention includes a cleaning brush body 1 and a dirt particle cyclone separation system 2 disposed inside the cleaning brush body 1, a floor brush suction inlet 3 is disposed at the bottom of the cleaning brush body 1, the floor brush suction inlet 3 is connected to a dirt particle air inlet 4 of the dirt particle cyclone separation system 2, a floor brush mechanism 5 is disposed at the front side of the floor brush suction inlet 3, and an air outlet 6 of the dirt particle cyclone separation system 2 is connected to a negative pressure air flow generator.

Dirty granule whirlwind piece-rate system 2 contains first whirlwind wall 7, second whirlwind wall 8 and third whirlwind wall 9, first whirlwind wall 7, second whirlwind wall 8 and third whirlwind wall 9 are cylindrical barrel, and second whirlwind wall 8 cover is established in the outside of first whirlwind wall 7 and is coaxial setting with first whirlwind wall 7, third whirlwind wall 9 cover is established in the outside of second whirlwind wall 8 and is coaxial setting with second whirlwind wall 8, the clearance constitutes cavity A10 between first whirlwind wall 7 and the second whirlwind wall 8, the clearance constitutes cavity B11 between second whirlwind wall 8 and the third whirlwind wall 9, the clearance constitutes cavity C12 between third whirlwind wall 9 and the cleaning brush body 1 shell inner wall, all be provided with the spiral wind guide slot in cavity A10 and the cavity B11, the cavity B11 lower extreme is dirty granule air intake 4 of dirty granule whirlwind piece-rate system 2, the lower extreme of cavity A10 is the whirlwind outlet 6 of dirty granule whirlwind piece-rate system 2, the upper end of first whirlwind wall 7 is sealed. Gaps are reserved between the upper ends of the first cyclone wall surface 7, the second cyclone wall surface 8 and the third cyclone wall surface 9 and the upper cover 13 of the floor brush of the cleaning brush body 1, and the upper cover 13 of the floor brush is detachably fixed on the upper side of the cleaning brush body 1. Ground brush upper cover 13 adopts transparent material, adopts transparent material can convenience of customers to see the condition of the dust in cavity C12, when piling up dust and rubbish more, opens ground brush upper cover 13 and cleans cavity C12. During operation, dirty granule that moves at a high speed enters into cavity B11 from the dirty granule air intake 4 of the lower extreme of cavity B11 and along with spiral wind-guiding groove spiral rising, under the effect of centrifugal force, thereby solid particle in the dirty granule is thrown away and drops to cavity C12 from whirlwind wall upper end clearance, the air then gets into in cavity A10 along the upper end of cavity A10 to spiral downwards along the spiral wind-guiding groove of cavity A10, finally goes out from air outlet 6 of cavity A10 lower extreme, has accomplished the separation of dirty granule.

The ground brush mechanism 5 adopts a fixed hairbrush which is fixed at the front end of the lower side of the cleaning brush body 1, and a ground brush suction inlet 3 of the cleaning brush body is positioned at the rear side of the fixed hairbrush. The outer side of the floor brush suction inlet 3 is provided with a floor brush suction inlet sealing strip 17 matched with the shape of the floor brush suction inlet. The negative pressure airflow generator 15 is arranged on the inner side of the cleaning brush body 1, the negative pressure airflow generator containing cavity is arranged at the rear end of the inner side of the cleaning brush body 1, the negative pressure airflow generator 15 is fixed in the negative pressure airflow generator containing cavity, and the lower end of the negative pressure airflow generator containing cavity 15 is communicated with the air outlet 6 of the dirty particle cyclone separation system 2. An operation push rod 16 is arranged on the upper side of the cleaning brush body 1, and the lower end of the operation push rod 16 is hinged on the cleaning brush body 1.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A surface cleaning brush provided with a dirty particle cyclonic separation system, characterised in that: the cleaning brush comprises a cleaning brush body and a dirty particle cyclone separation system arranged in the cleaning brush body, wherein a ground brush suction inlet is arranged at the bottom of the cleaning brush body and is connected with a dirty particle air inlet of the dirty particle cyclone separation system, a ground brush mechanism is arranged on the front side of the ground brush suction inlet, and an air outlet of the dirty particle cyclone separation system is connected with a negative pressure air flow generator; the dirty particle cyclone separation system comprises a first cyclone wall surface, a second cyclone wall surface and a third cyclone wall surface, wherein the first cyclone wall surface, the second cyclone wall surface and the third cyclone wall surface are cylindrical barrels, the second cyclone wall surface is sleeved on the outer side of the first cyclone wall surface and is coaxially arranged with the first cyclone wall surface, the third cyclone wall surface is sleeved on the outer side of the second cyclone wall surface and is coaxially arranged with the second cyclone wall surface, a cavity A is formed by a gap between the first cyclone wall surface and the second cyclone wall surface, a cavity B is formed by a gap between the second cyclone wall surface and the third cyclone wall surface, a cavity C is formed by a gap between the third cyclone wall surface and the inner wall of the cleaning brush body shell, spiral air guide grooves are formed in the cavity A and the cavity B, the lower end of the cavity B is a dirty particle air inlet of the dirty particle cyclone separation system, the lower end of the cavity A is an air outlet of the dirty particle cyclone separation system, and the upper end of the first cyclone wall surface is closed.

2. A surface cleaning brush provided with a dirty particle cyclonic separation system as claimed in claim 1, wherein: gaps are reserved between the upper ends of the first cyclone wall surface, the second cyclone wall surface and the third cyclone wall surface and the upper cover of the floor brush of the cleaning brush body, and the upper cover of the floor brush can be detachably fixed on the upper side of the cleaning brush body.

3. A surface cleaning brush provided with a dirty particle cyclonic separation system as claimed in claim 2, wherein: the upper cover of the floor brush is made of transparent materials.

4. A surface cleaning brush provided with a dirt particle cyclonic separation system as claimed in claim 1, wherein: the floor brush mechanism adopts an electric rolling brush, the front end of the cleaning brush body is provided with a containing cavity matched with the electric rolling brush, and the electric rolling brush is rotatably arranged in the containing cavity at the front end of the cleaning brush body.

5. A surface cleaning brush provided with a dirt particle cyclonic separation system as claimed in claim 1, wherein: the floor brush mechanism adopts a fixed hairbrush which is fixed at the front end of the lower side of the cleaning brush body, and a floor brush suction inlet of the cleaning brush body is positioned at the rear side of the fixed hairbrush.

6. A surface cleaning brush provided with a dirty particle cyclonic separation system as claimed in claim 5, wherein: and a floor brush suction port sealing strip matched with the floor brush suction port in shape is arranged on the outer side of the floor brush suction port.

7. A surface cleaning brush provided with a dirty particle cyclonic separation system as claimed in claim 1, wherein: the negative pressure airflow generator is arranged on the outer side of the cleaning brush body, the upper side of the cleaning brush body is rotatably provided with a pipe connector, and the pipe connector is connected with an air outlet of the dirty particle cyclone separation system through a hose.

8. A surface cleaning brush provided with a dirty particle cyclonic separation system as claimed in claim 1, wherein: the negative pressure air flow generator is arranged on the inner side of the cleaning brush body, the negative pressure air flow generator containing cavity is formed in the rear end of the inner side of the cleaning brush body, the negative pressure air flow generator is fixed in the negative pressure air flow generator containing cavity, and the lower end of the negative pressure air flow generator containing cavity is communicated with an air outlet of the dirty particle cyclone separation system.

9. A surface cleaning brush provided with a dirt particle cyclonic separation system as claimed in claim 8, wherein: the upper side of the cleaning brush body is provided with an operation push rod, and the lower end of the operation push rod is hinged to the cleaning brush body.

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