CN215899538U - Robot dirt bucket subassembly of sweeping floor - Google Patents

Abstract

The utility model discloses a dust barrel assembly of a sweeping robot, which comprises a dust barrel main body, wherein the upper part and the lower part of the dust barrel are arranged on the dust barrel main body, and the upper part and the lower part of the dust barrel are communicated. The upper part of the dust barrel comprises an upper shell of the dust barrel, a dust barrel cover and a dust barrel air inlet connecting piece, a dust bag is arranged in the upper shell of the dust barrel, the dust barrel cover is movably connected with the upper shell of the dust barrel, the end part of the dust barrel air inlet connecting piece penetrates through the upper shell of the dust barrel to be connected with an air inlet pipeline, and the other end of the dust barrel air inlet connecting piece is connected with the dust bag. The lower part of the dust barrel comprises a lower dust barrel shell, a lower dust barrel shell is internally provided with a dust barrel silencing partition, a dust barrel gas outlet and dust barrel silencing cotton, the dust barrel silencing cover is positioned in the middle of the lower dust barrel shell, the dust barrel silencing cotton is attached to the inner surface of the lower dust barrel shell, and the dust barrel gas outlet is positioned at the bottom of the lower dust barrel shell. Air enters the dust bag from the air inlet pipeline through the dust barrel air inlet connecting piece and is discharged after passing through the upper part of the dust barrel and the lower part of the dust barrel.

Description

Robot dirt bucket subassembly of sweeping floor

Technical Field

The utility model belongs to the technical field of floor sweeping robots, and particularly relates to a dust barrel assembly of a floor sweeping robot.

Background

At present, along with the improvement of the living standard, the application of the sweeping robot or the dust collector in offices and families becomes more and more popular, and the sweeping robot undertakes the ground sweeping work.

The traditional cleaning robot or dust collector is complex when changing the dust bag, and the efficiency is too low. And simultaneously has no functions of filtering and noise reduction.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides a sweeping robot dust barrel assembly which is simple in structure, convenient to use, low in manufacturing cost and capable of reducing noise.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a dust barrel assembly of a sweeping robot comprises a dust barrel main body, wherein the upper part and the lower part of the dust barrel are arranged on the dust barrel main body, and the upper part and the lower part of the dust barrel are communicated; the upper part of the dust barrel comprises an upper dust barrel shell, a dust barrel cover and a dust barrel air inlet connecting piece, a dust bag is arranged in the upper dust barrel shell, the dust barrel cover is movably connected with the upper dust barrel shell, the end part of the dust barrel air inlet connecting piece penetrates through the upper dust barrel shell to be connected with an air inlet pipeline, and the other end of the dust barrel air inlet connecting piece is connected with the dust bag; the lower part of the dust barrel comprises a lower dust barrel shell, a lower dust barrel shell is internally provided with a dust barrel silencing cover, a dust barrel silencing partition, a dust barrel air outlet and dust barrel silencing cotton, the dust barrel silencing cover is positioned in the middle of the lower dust barrel shell, the dust barrel silencing partition is annularly distributed between the dust barrel silencing cover and the dust barrel silencing cotton, the dust barrel silencing cotton is attached to the inner surface of the lower dust barrel shell, and the dust barrel air outlet is positioned at the bottom of the lower dust barrel shell; air enters the dust bag from the air inlet pipeline through the dust barrel air inlet connecting piece and is discharged after passing through the upper part of the dust barrel and the lower part of the dust barrel.

Preferably, a dust bag plug-in card is arranged on a dust bag opening of the dust bag, and the dust bag plug-in card is connected with the end part of the dust barrel air inlet connecting piece.

Preferably, the dust barrel main body comprises a dust barrel main body plate and a dust barrel connecting column, and the dust barrel connecting column is fixedly connected with the dust barrel main body plate.

Preferably, the dust barrel connecting column is a hollow revolving body structure.

Preferably, the dust bucket connecting post is further provided with a dust bucket second connecting post, the cross section of the dust bucket second connecting post is of a U-shaped structure, the dust bucket second connecting post is connected with the dust bucket connecting post through a screw, a dust bucket sealing ring is sleeved at the end of the dust bucket second connecting post, dust bucket motor air inlet filter cotton and a dust bucket filter screen are further arranged in the dust bucket second connecting post, and the dust bucket motor air inlet filter cotton is located on the upper portion of the dust bucket filter screen.

Preferably, the dust barrel cover comprises an upper dust barrel cover, a lower dust barrel cover and dust barrel filter cotton, the upper dust barrel cover is rotatably connected with the upper dust barrel shell, the upper dust barrel cover is connected with the lower dust barrel cover through a screw, and the dust barrel filter cotton is located between the upper dust barrel cover and the lower dust barrel cover.

Preferably, the end surface of the dust bucket lower cover is of an inwards concave structure, dust bucket lower cover holes are formed in the dust bucket lower cover, and the dust bucket lower cover holes are distributed at the inwards concave bottom of the dust bucket lower cover in a circular array shape.

Preferably, a flow guide cover is arranged on an air outlet upper cover of the dust bucket on the lower dust bucket shell, and the flow guide cover is connected with the lower dust bucket shell through a screw.

The utility model has the beneficial effects that: the dust barrel component of the sweeping robot is convenient for replacing dust bags, and meanwhile, noise generated in the working process of a dust collector is reduced through multiple filtering and noise reducing functions, so that gas is filtered multiple times.

Drawings

Fig. 1 is a schematic structural diagram of a dust barrel assembly of a sweeping robot according to the present invention;

fig. 2 is a schematic cross-sectional structure view of a dust barrel assembly of the sweeping robot of the present invention;

FIG. 3 is a schematic view of the structure inside the upper portion of the bucket of the present invention;

FIG. 4 is a schematic view of the mechanism of the lower part of the dust bucket of the present invention;

FIG. 5 is a schematic view of the mechanism of the main body of the dust bucket of the present invention;

fig. 6 is a schematic structural view of the lower cover of the dust bucket of the present invention.

Description of reference numerals: 50. a dust bucket main body; 51. a dust barrel cover; 52. a dust barrel air inlet connecting piece; 53. a dust bag is arranged in the upper shell of the dust barrel; 54. a silencing cover of the dust barrel; 55. a dust barrel air outlet; 56. silencing cotton for the dust barrel; 501. a dust bucket main body plate; 502. a dust barrel connecting column; 503. a second connecting column of the dust barrel; 504. a dust barrel seal ring; 505. the air inlet of the dust barrel motor is provided with filter cotton; 506. a dust barrel filter screen; 511. a dust barrel upper cover; 512. a dust barrel lower cover; 513. the dust barrel is used for filtering cotton; 514. a dust barrel lower cover hole; 531. the dust bag is inserted in the card.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments:

as shown in fig. 1 to 6, the dust bucket assembly of the sweeping robot provided by the present invention comprises a main body 50 of the dust bucket, wherein the main body 50 of the dust bucket is provided with an upper part of the dust bucket and a lower part of the dust bucket, and the upper part of the dust bucket is communicated with the lower part of the dust bucket. The upper part of the dust barrel comprises an upper shell of the dust barrel, a dust barrel cover 51 and a dust barrel air inlet connecting piece 52, a dust bag 53 is arranged in the upper shell of the dust barrel, the dust barrel cover 51 is movably connected with the upper shell of the dust barrel, the end part of the dust barrel air inlet connecting piece 52 penetrates through the upper shell of the dust barrel to be connected with an air inlet pipeline, and the other end of the dust barrel air inlet connecting piece 52 is connected with the dust bag 53. The lower part of the dust barrel comprises a lower dust barrel shell, a lower dust barrel shell is internally provided with a dust barrel silencing cover 54, a dust barrel silencing partition, a dust barrel air outlet 55 and dust barrel silencing cotton 56, the dust barrel silencing cover 54 is positioned in the middle of the lower dust barrel shell, the dust barrel silencing partition is annularly distributed between the dust barrel silencing cover 54 and the dust barrel silencing cotton 56, the dust barrel silencing cotton 56 is attached to the inner surface of the lower dust barrel shell, and the dust barrel air outlet 55 is positioned at the bottom of the lower dust barrel shell. Air passes through the dust bucket inlet connector 52 from the inlet duct, enters the dust bag 53, passes through the upper part of the dust bucket and the lower part of the dust bucket, and is discharged.

The dust bag opening of the dust bag 53 is provided with a dust bag plug-in card 531, and the dust bag plug-in card 531 is connected with the end part of the dust barrel air inlet connecting piece 52. Dust bag 53 is an existing pocket device that collects dust. The dirt bucket inlet connection 52 extends from the interior of the dirt bucket upper housing to the exterior of the dirt bucket upper housing. The dirt bucket air inlet connection 52 includes a dirt bucket air inlet conduit and a dirt bucket air inlet base, which are fixedly connected. The dust bucket air inlet base is provided with a dust bucket air inlet base clamping groove, and the dust bag inserting card 531 can be inserted into the dust bucket air inlet base clamping groove. The staff changes the dirt bag 53 through plug dirt bag plug-in card 531, is convenient for change the operation.

The dust barrel body 50 comprises a dust barrel body plate 501 and a dust barrel connecting column 502, and the dust barrel connecting column 502 is fixedly connected with the dust barrel body plate 501. The dust barrel connecting column 502 is a hollow revolving body structure.

The dust barrel connecting column 502 is further provided with a dust barrel second connecting column 503, the cross section of the dust barrel second connecting column 503 is of a U-shaped structure, the dust barrel second connecting column 503 is connected with the dust barrel connecting column 502 through a screw, a dust barrel sealing ring 504 is sleeved at the end of the dust barrel second connecting column 503, dust barrel motor air inlet filter cotton 505 and a dust barrel filter screen 506 are further arranged in the dust barrel second connecting column 503, and the dust barrel motor air inlet filter cotton 505 is located on the upper portion of the dust barrel filter screen 506.

The dust barrel main body plate 501 is connected with the upper dust barrel shell and the lower dust barrel shell respectively to fix the upper dust barrel shell and the lower dust barrel shell.

The dust barrel cover 51 comprises a dust barrel upper cover 511, a dust barrel lower cover 512 and dust barrel filter cotton 513, the dust barrel upper cover 511 is rotatably connected with the dust barrel upper shell, the dust barrel upper cover 511 is connected with the dust barrel lower cover 512 through screws, and the dust barrel filter cotton 513 is positioned between the dust barrel upper cover 511 and the dust barrel lower cover 512. The end surface of the dust bucket lower cover 512 is of an inwards concave structure, dust bucket lower cover holes 514 are arranged on the dust bucket lower cover 512, and the dust bucket lower cover holes 514 are distributed at the inwards concave bottom of the dust bucket lower cover 512 in a circular array shape.

The upper cover of the dust bucket air outlet 55 on the lower shell of the dust bucket is provided with a flow guide cover, and the flow guide cover is connected with the lower shell of the dust bucket through a screw. The inside of the air guide sleeve is provided with an air guide sleeve ventilation through hole which is communicated with the air outlet 55 of the dust bucket. The gas inside the lower housing of the dust bucket is exhausted through the dust bucket gas outlet 55.

The shell under the dirt bucket of this embodiment links to each other with current dust catcher, and the inside intercommunication of shell under the equipment that the dust catcher produced the negative pressure and the dirt bucket makes the inside negative pressure that produces of dirt bucket lower casing. When the dust bucket is in operation, gas in the gas inlet pipeline enters between the upper cover 511 and the lower cover 512 of the dust bucket after passing through the gas inlet connecting piece 52 of the dust bucket, and is filtered by the filter cotton 513 of the dust bucket, and meanwhile, negative pressure is generated in the upper shell of the dust bucket, so that the dust bucket cover 51 can be in adsorption connection with the upper shell of the dust bucket. The utility model does not need to design an additional structure for locking the dust barrel cover 51, and the dust barrel cover 51 can be passively locked during working. The air is filtered by the dust barrel filter cotton 513 and then filtered by the dust barrel motor air inlet filter cotton 505 and then enters the dust barrel lower shell. The gas enters the dust barrel lower shell and is silenced by the dust barrel silencing cover 54 inside the dust barrel silencing cover 54. The gas muffled by the dust bucket muffling cover 54 flows along the dust bucket to the dust bucket air outlet 55 and then is discharged out of the dust bucket lower housing through the air guide cover. While a further silencing treatment is carried out by the dust bucket silencing cotton 56. Through multi-step noise reduction, the dust collector achieves the function of reducing noise pollution during working.

It will be appreciated by those of ordinary skill in the art that the embodiments described herein are intended to assist the reader in understanding the principles of the utility model and are to be construed as being without limitation to such specifically recited embodiments and examples. Those skilled in the art can make various other specific changes and combinations based on the teachings of the present invention without departing from the spirit of the utility model, and these changes and combinations are within the scope of the utility model.

Claims (8)

1. The utility model provides a robot dirt bucket subassembly of sweeping floor which characterized in that: comprises a dust barrel main body (50), wherein the upper part and the lower part of the dust barrel are arranged on the dust barrel main body (50), and the upper part and the lower part of the dust barrel are communicated; the upper part of the dust barrel comprises an upper shell of the dust barrel, a cover (51) of the dust barrel and a connecting piece (52) of an air inlet of the dust barrel, a dust bag (53) is arranged in the upper shell of the dust barrel, the cover (51) of the dust barrel is movably connected with the upper shell of the dust barrel, the end part of the connecting piece (52) of the air inlet of the dust barrel penetrates through the upper shell of the dust barrel to be connected with an air inlet pipeline, and the other end of the connecting piece (52) of the air inlet of the dust barrel is connected with the dust bag (53); the dirt bucket lower part is including dirt bucket lower casing, be equipped with dirt bucket amortization cover (54) under the dirt bucket lower casing, dirt bucket amortization wall, dirt bucket gas outlet (55) and dirt bucket amortization cotton (56), dirt bucket amortization cover (54) are located the centre of dirt bucket lower casing, dirt bucket amortization wall is cyclic annular distribution between dirt bucket amortization cover (54) and dirt bucket amortization cotton (56), the internal surface of casing under the dirt bucket is attached in dirt bucket amortization cotton (56), dirt bucket gas outlet (55) are located the bottom of dirt bucket lower casing.

2. The sweeping robot dust bucket assembly of claim 1, wherein: a dust bag plug-in card (531) is arranged on a dust bag opening of the dust bag (53), and the dust bag plug-in card (531) is connected with the end part of the dust barrel air inlet connecting piece (52).

3. The sweeping robot dust bucket assembly of claim 1, wherein: the dust barrel main body (50) comprises a dust barrel main body plate (501) and a dust barrel connecting column (502), and the dust barrel connecting column (502) is fixedly connected with the dust barrel main body plate (501).

4. The sweeping robot dust bucket assembly of claim 3, wherein: the dust barrel connecting column (502) is of a hollow revolving body structure.

5. The sweeping robot dust bucket assembly of claim 3, wherein: still be equipped with dirt bucket second spliced pole (503) on dirt bucket spliced pole (502), the cross-section of dirt bucket second spliced pole (503) is "U" style of calligraphy structure, and dirt bucket second spliced pole (503) link to each other with dirt bucket spliced pole (502) through the screw, and the tip cover of dirt bucket second spliced pole (503) is equipped with dirt bucket sealing washer (504), still is equipped with dirt bucket motor air intake in dirt bucket second spliced pole (503) and crosses filter pulp (505) and dirt bucket filter screen (506), and dirt bucket motor air intake crosses filter pulp (505) and is located the upper portion of dirt bucket filter screen (506).

6. The sweeping robot dust bucket assembly of claim 1, wherein: the dust barrel cover (51) comprises a dust barrel upper cover (511), a dust barrel lower cover (512) and dust barrel filter cotton (513), the dust barrel upper cover (511) is rotationally connected with the dust barrel upper shell, the dust barrel upper cover (511) is connected with the dust barrel lower cover (512) through screws, and the dust barrel filter cotton (513) is located between the dust barrel upper cover (511) and the dust barrel lower cover (512).

7. The sweeping robot dust bucket assembly of claim 6, wherein: the end face of the dust bucket lower cover (512) is of an inwards concave structure, dust bucket lower cover holes (514) are formed in the dust bucket lower cover (512), and the dust bucket lower cover holes (514) are distributed at the inwards concave bottom of the dust bucket lower cover (512) in a circular array shape.

8. The sweeping robot dust bucket assembly of claim 1, wherein: and a flow guide cover is arranged on an air outlet (55) of the dust bucket on the lower shell of the dust bucket in a covering manner and is connected with the lower shell of the dust bucket through a screw.

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