CN220937909U - Cleaning mechanism with anti-blocking device and cleaning robot - Google Patents

Abstract

The utility model discloses a cleaning mechanism with an anti-blocking device and a cleaning robot, and aims to solve the problem that a dust suction pipe of the cleaning robot is easy to be blocked by larger garbage in the prior art, so that the cleaning robot cannot work normally. The utility model solves the technical problems by the following technical proposal: comprising the following steps: a dust collection cavity is arranged in the suction nozzle body, a dust collection opening communicated with the dust collection pipe is arranged on the side wall of the dust collection cavity, and a filtering structure is arranged at the dust collection opening. Through setting up filtering structure, can play the effect of filtering to the big rubbish of inhaling, prevent big rubbish from getting into the dust absorption pipe, cause the jam of dust absorption pipe; thereby reducing the time for manually cleaning the dust collection pipe due to the blockage of the dust collection pipe and further improving the cleaning efficiency; and because the filter effect is provided for the big garbage, the big garbage can be directly cleaned, and the dust suction pipe is not blocked by the big garbage, so that the adaptability of the dust suction pipe in use is enhanced.

Description

Cleaning mechanism with anti-blocking device and cleaning robot

Technical Field

The utility model relates to the technical field of cleaning robots, in particular to a cleaning mechanism with an anti-blocking device and a cleaning robot.

Background

In office buildings, markets, supermarkets, shopping centers, hospitals and other places, the cleaning requirements are more and more, the cleaning tasks are heavy and repeated, and the intelligent and unmanned requirements of cleaning equipment are more and more intense. However, in the indoor cleaning robot, because the robot is designed in a small size, the diameter of the dust suction pipe is small, and meanwhile, the requirement on noise is high, so that the power of the designed fan is small, and large garbage is easy to block in the dust suction pipe, so that the robot cannot work normally.

For example, chinese patent publication No. CN217118314U, publication No. 2022, 8 and 5, the name of the invention is a multifunctional integrated commercial cleaning robot, in this application, in order to ensure the dust collection effect (vacuum in the inner cavity of the suction nozzle body), the ground clearance of the suction nozzle body between them is small, although the large garbage can be prevented from being blocked in the dust collection pipe, but the adaptability to the large garbage is weak, the large paper clusters, packaging bags and the like cannot enter the cleaning mechanism, cannot be cleaned, and need to be manually interfered, so that secondary cleaning is performed, and the cleaning efficiency is reduced.

Disclosure of utility model

The utility model solves the problem that the dust suction pipe of the cleaning robot is easy to be blocked by larger garbage in the prior art, thereby influencing the cleaning robot to work abnormally, and provides the cleaning mechanism with the anti-blocking device, which can filter the larger garbage, prevent the dust suction pipe from being blocked, reduce the frequency of manual intervention and improve the cleaning efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme: a cleaning mechanism with an anti-blocking device, comprising: the suction nozzle body is internally provided with a dust collection cavity, the side wall of the dust collection cavity is provided with a dust collection opening communicated with the dust collection pipe, and the dust collection opening is provided with a filtering structure.

According to the utility model, the filter structure is arranged, so that the filter structure can play a role in filtering the sucked big garbage, and prevent the big garbage from entering the dust suction pipe to cause the blockage of the dust suction pipe; thereby reducing the time for manually cleaning the dust collection pipe due to the blockage of the dust collection pipe and further improving the cleaning efficiency; and because the filter effect is provided for the big garbage, the big garbage can be directly cleaned, and the dust suction pipe is not blocked by the big garbage, so that the adaptability of the dust suction pipe in use is enhanced.

Preferably, the filtering structure is a filtering baffle, and a plurality of filtering holes are formed in the filtering baffle.

The filter holes can enable dust to pass through, and large garbage can be prevented from entering the dust collection pipe.

Preferably, both sides of the dust collection opening are provided with sliding grooves, and one end of each sliding groove is provided with a through groove penetrating through the side wall of the suction nozzle body; the filtering baffle is inserted from the through groove, and two sides of the filtering baffle are matched with the sliding groove.

When the filtering baffle is installed, the filtering baffle is inserted from the penetrating groove, so that two side edges of the filtering baffle are respectively matched with the sliding groove, the filtering baffle is inserted into the suction nozzle body along the sliding groove, and the dust collection opening is completely blocked by the filtering baffle; the installation of the filtering baffle is more convenient.

Preferably, the end of the filtering baffle close to the through groove is provided with a pulling plate for conveniently pulling the filtering baffle.

When the filtering baffle is replaced, the filtering baffle can be conveniently taken out from the suction nozzle body by directly pulling the pull plate.

Preferably, a limit knob is arranged on one side of the suction nozzle body, which is positioned in the through groove, and the limit knob is rotatably arranged on the suction nozzle body.

Through rotating the knob, can play the spacing effect to filtering baffle, prevent to install the internal filtering baffle of suction nozzle and break away from.

Preferably, the dust collection opening is arranged at the top of the dust collection cavity; a rolling brush is arranged in the suction nozzle body, the rolling brush is arranged at one side of the dust collection cavity, and a dust collection inlet is arranged at one side of the dust collection cavity, which is close to the rolling brush; the periphery of the rolling brush is provided with a guide plate which is bent downwards and enters the dust collection cavity from the dust collection opening.

When the dust collection box is used, garbage and dust can enter the dust collection cavity along the guide plate, so that the garbage and the dust are prevented from being sucked out of the dust collection opening directly after entering from the dust collection inlet, the larger garbage can directly fall into the dust collection box, accumulation and blockage at the filter baffle are reduced, and maintenance frequency of the filter baffle is reduced.

Preferably, a dust collection box is arranged in the dust collection cavity; a dust box opening is arranged on the side wall of one end of the dust collection cavity in the length direction, and the dust collection box enters the dust collection cavity from the dust box opening.

Through setting up dirt box opening for can conveniently change the dust absorption box.

Preferably, the dust box opening is provided with a limiting buckle for limiting the dust collection box.

The limiting buckle can prevent the dust collection box from separating from the dust collection cavity.

The utility model also provides a cleaning robot which comprises the cleaning mechanism with the anti-blocking device; the end of the dust collection pipe far away from the dust collection cavity is communicated with a dust box, and a pressure sensor is arranged in the dust box.

The fan provides negative pressure for the dust absorption chamber, and pressure sensor is used for monitoring the inside pressure of dirt box for when the pressure of vacuum exceeded certain scope, then report to the police, thereby remind the user to clear up and maintain filtering baffle etc..

Compared with the prior art, the utility model has the beneficial effects that:

(1) The filtering baffle can prevent large garbage from entering the dust suction pipe and prevent the dust suction pipe from being blocked;

(2) The filtering baffle has a filtering effect on the large garbage, so that the large garbage can be directly cleaned, the cleaning capacity is improved, and the adaptability in use is enhanced;

(3) The filter baffle is arranged in a push-pull mode, so that the filter baffle is very convenient to install and replace, and the filter baffle is convenient to clean;

(4) The inside of the dust box is provided with a pressure sensor which is used for monitoring the pressure in the dust box, so that when the vacuum pressure exceeds a certain range, an alarm is given, and a user is reminded to clean and maintain the filtering baffle plate and the like.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a perspective view of a filter baffle of the present utility model;

FIG. 4 is a perspective view of another embodiment of the present utility model;

In the figure: 1. the vacuum cleaner comprises a suction nozzle body, 11, a limit knob, 12, a limit bayonet, 13, a through groove, 2, a dust collection cavity, 21, a dust collection opening, 211, a chute, 22, a dust collection inlet, 3, a rolling brush, 31, a rolling brush motor, 4, a side brush, 5, a dust collection box, 6, a filter baffle, 61, a filter hole, 62, a pull plate, 7, a dust collection pipe, 8, a dust collection box, 9, a fan, 91 and a fan pipe.

Detailed Description

The technical scheme of the utility model is further specifically described by the following specific embodiments with reference to the accompanying drawings:

Example 1: referring to fig. 1 to 4, a cleaning mechanism with an anti-blocking device includes: the vacuum cleaner comprises a suction nozzle body 1, wherein a dust collection cavity 2 and rolling brushes 3 are arranged in the suction nozzle body 1, the dust collection cavity 2 and the rolling brushes 3 are arranged side by side along the length direction of the suction nozzle body 1, side brushes 4 are arranged on the side wall, close to the rolling brushes 3, of the suction nozzle body 1, two side brushes 4 are arranged along the length direction of the suction nozzle body 1, and the rolling brushes 3 are driven by a rolling brush motor 31; a dust collection box 5 is arranged in the dust collection cavity 2, a dust collection opening 21 communicated with the dust collection pipe 7 is arranged on the side wall of the dust collection cavity 2, and a filtering structure is arranged at the dust collection opening 21; the dust collection opening 21 in this embodiment is disposed at the top end of the dust collection cavity 2, the filtering structure is a filtering baffle 6, a plurality of filtering holes 61 are disposed on the filtering baffle 6, the filtering holes 61 can enable dust to pass through, and large garbage can be prevented from entering the dust collection pipe 7.

In order to facilitate the installation and replacement of the filtering baffle 6, sliding grooves 211 are arranged on two sides of the dust collection opening 21, and one end of each sliding groove 211 is provided with a through groove 13 penetrating through the side wall of the suction nozzle body 1; when the filtering baffle 6 is installed, the filtering baffle 6 is inserted from the through groove 13, so that two side edges of the filtering baffle 6 are respectively matched with the sliding groove 211, the filtering baffle 6 is inserted into the suction nozzle body 1 along the sliding groove 211, and the dust collection opening 21 is completely blocked by the filtering baffle 6. And be provided with the arm-tie 62 that conveniently pulls filtering baffle 6 near the tip that runs through groove 13 at filtering baffle 6, when changing filtering baffle 6, directly through pulling arm-tie 62, just can be convenient take out filtering baffle 6 from suction nozzle body 1.

In addition, a limit knob 11 is arranged on one side of the suction nozzle body 1, which is positioned in the through groove 13, and the limit knob 11 is rotatably arranged on the outer side wall of the suction nozzle body 1; the limit knob 11 in this embodiment is disposed above the through groove 13, and the limit knob 11 is rotated to limit the filtering baffle 6, so as to prevent the filtering baffle 6 mounted in the suction nozzle body 1 from being separated.

In order to facilitate the installation of the dust collection box 5, a dust box opening is arranged on the side wall of one end of the dust collection cavity 2 in the length direction, the dust box opening and the through groove 13 are arranged on the same side wall of the suction nozzle body 1, and the dust collection box 5 is inserted into the dust collection cavity 2 from the dust box opening. The dust box opening part is provided with a limiting buckle 12 for limiting the dust box 5, and the limiting buckle 12 can prevent the dust box 5 from separating from the dust collection cavity 2.

A dust collection inlet 22 is arranged on one side of the dust collection cavity 2 close to the rolling brush 3; the periphery of the roller brush 3 is provided with a deflector 31, and the deflector 31 is bent downwards and enters the dust collection cavity 2 from the dust collection inlet 22. When the dust collection box is used, garbage and dust can enter the dust collection cavity 2 along the guide plate 31, so that the garbage and the dust are prevented from being sucked out of the dust collection opening 21 directly after entering from the dust collection inlet 22, the larger garbage can directly fall into the dust collection box 5, accumulation and blockage of the large garbage at the filter baffle 6 are reduced, and maintenance frequency of the filter baffle 6 is reduced.

According to the utility model, the filter baffle 6 is arranged, so that the filter baffle can filter the sucked big garbage, and prevent the big garbage from entering the dust suction pipe 7 to cause the blockage of the dust suction pipe 7; thereby reducing the time for manually cleaning the dust collection pipe 7 due to the blockage of the dust collection pipe 7 and further improving the cleaning efficiency; and because the filter effect is provided for the big garbage, the big garbage can be directly cleaned, and the dust suction pipe 7 is not blocked by the big garbage, so that the adaptability in use is enhanced. In addition, in the utility model, the filtering baffle 6 is arranged in a push-pull mode, so that the filtering baffle 6 is very convenient to install and replace, and the filtering baffle 6 is convenient to clean.

Example 2: referring to fig. 4, a cleaning robot includes the cleaning mechanism with the anti-blocking device; the end part of the dust collection pipe 7 far away from the dust collection cavity 2 is communicated with a dust box 8, and a pressure sensor is arranged in the dust box 8; the dust box 8 is communicated with the fan 9 through the fan pipe 91, and negative pressure is provided for the dust collection cavity 2 through the fan 9.

In this embodiment, the pressure sensor is used to monitor the pressure inside the dust box 8, so that when the vacuum pressure exceeds a certain range, an alarm is given, thereby reminding the user to clean and maintain the filtering baffle 6 and the like.

The above-described embodiments are merely preferred embodiments of the present utility model, and the present utility model is not limited in any way, and other variations and modifications may be made without departing from the technical aspects set forth in the claims.

Claims (8)

1. The utility model provides a take cleaning mechanism of anti-blocking device which characterized in that includes: the suction nozzle body is internally provided with a dust collection cavity, the side wall of the dust collection cavity is provided with a dust collection opening communicated with the dust collection pipe, and the dust collection opening is provided with a filtering structure;

The filtering structure is a filtering baffle;

The two sides of the dust collection opening are provided with sliding grooves, and one end of each sliding groove is provided with a through groove penetrating through the side wall of the suction nozzle body; the filtering baffle is inserted from the through groove, and two sides of the filtering baffle are matched with the sliding groove.

2. The cleaning mechanism with anti-blocking device according to claim 1, wherein a plurality of filter holes are provided on the filter baffle.

3. The cleaning mechanism with anti-clogging device as recited in claim 1, wherein the end of the filtering baffle adjacent to the through slot is provided with a pull plate for facilitating pulling of the filtering baffle.

4. The cleaning mechanism with an anti-blocking device according to claim 1, wherein a limit knob is provided on one side of the suction nozzle body located in the through slot, and the limit knob is rotatably provided on the suction nozzle body.

5. The cleaning mechanism with anti-blocking device according to any one of claims 1 to 4, wherein the dust suction opening is provided at the top of the dust suction chamber; a rolling brush is arranged in the suction nozzle body, the rolling brush is arranged at one side of the dust collection cavity, and a dust collection inlet is arranged at one side of the dust collection cavity, which is close to the rolling brush; the periphery of the rolling brush is provided with a guide plate which is bent downwards and enters the dust collection cavity from the dust collection opening.

6. The cleaning mechanism with anti-blocking device according to any one of claims 1 to 4, wherein a dust collection box is provided in the dust collection chamber; a dust box opening is arranged on the side wall of one end of the dust collection cavity in the length direction, and the dust collection box enters the dust collection cavity from the dust box opening.

7. The cleaning mechanism with anti-blocking device according to claim 6, wherein a limiting buckle for limiting the dust collection box is arranged at the opening of the dust collection box.

8. A cleaning robot comprising the cleaning mechanism with an anti-blocking device according to any one of claims 1 to 7; the end of the dust collection pipe far away from the dust collection cavity is communicated with a dust box, and a pressure sensor is arranged in the dust box.