KR101078790B1 - Robot cleaner with air brush - Google Patents

Abstract

The present invention relates to a robot vacuum cleaner, and an object thereof is to provide a robot vacuum cleaner that can improve suction efficiency for foreign matters staying in a cleaning blind spot which is in contact with a side structure adjacent to a running direction of the robot vacuum cleaner for cleaning.

According to the present invention, a foreign matter on the cleaning surface is sucked together with the air through the suction port installed on the lower surface by the suction motor, and the foreign matter is collected through the dust collecting part between the suction motor and the suction port, and the robot cleaner autonomously runs the area of the cleaning surface. ; Left and right injection motors installed at both sides of the suction port and independently driven from each other; An injection nozzle coupled to the left and right injection motors, for injecting air from the robot cleaner in progress adjacent to the side structure toward the cleaning blind spot where the adjacent side structure and the cleaning surface contact each other; Technical aspect of the present invention relates to a robot vacuum cleaner having an airbrush made of the same.

Robot cleaner, autonomous driving, airbrush, nozzle, spray

Description

Robot cleaner with air brush {Robot cleaner with air brush}

The present invention relates to a robot cleaner having an airbrush, and more particularly, to a foreign matter remaining in a cleaning blind spot formed on both sides of a suction port, in particular, to a foreign matter present in a narrow space by a corner portion where the cleaning surface and the side structure contact each other. It relates to a robot cleaner that can improve suction efficiency.

The conventional robot cleaner includes a main body, a driving wheel mounted on both sides of the main body, a suction port formed in the lower part of the main body, a suction motor for applying suction force to the suction port, and a dust collecting chamber mounted between the suction port and the suction motor. Is done.

Meanwhile, in the conventional robot cleaner, the suction port has a suction area having a relatively narrow width as compared with the width of the main body, and the front side of the suction port further includes a rotary brush device.

The robot cleaner of the suction brush type is a structure that rotates symmetrically toward the central suction port, as well as performing the brush type cleaning for the blind spot that does not reach the suction area of the suction port through brushes disposed on both sides of the suction port. In order to clean the widest section of the robot cleaner by sweeping the foreign matter placed in the blind spot that does not reach the suction area with the central suction port.

However, through this suction brush-type robot cleaner, the blind spots generated when the robot cleaner having a predetermined thickness and width of the main body (generally used in the circular type) can be eliminated, but in particular, on the cleaning surface. There was a limit in the case of foreign matter on the corner space where existing structures such as walls, sofas, and furniture contact the cleaning surface.

In addition, such a suction brush method is generally installed in front of the inlet of the brush, and when the non-uniform cleaning surface is present, if you want to implement the smooth running characteristics of the robot cleaner considers the installation structure of the brush considerably This brush structure was also inconvenient to be replaced periodically as a consumable and cost consideration was accompanied.

After all, this brush device increases the mechanical parts of the robot cleaner as a whole, thereby increasing the cost of the robot cleaner, and in view of the application location and mobility of the robot cleaner in general, a robot cleaner that pursues miniaturization and weight reduction of its size and weight. It was to act against the design purpose of.

Above all, in order to ensure accurate driving performance of the robot cleaner, it is necessary to prevent the phenomenon of contact with the surrounding structure when the brush is rotated. To this end, the brushes installed on both sides of the suction port are generally used to It stays in a position no larger than the left and right widths. That is, the brush rotation area of the robot cleaner does not reach the corner portion where the surrounding structure and the cleaning surface contact, and thus, a phenomenon in which foreign matter accumulates at the corner portion remains.

Therefore, the present invention is to solve the conventional problems as described above, the object is to clean the blind spot to escape the suction area of the entrance and suction port of the robot cleaner due to the narrow space where the cleaning surface and the side structure the robot cleaner is in progress. Provides a robot cleaner with an airbrush that sprays air toward the robot cleaner so that the foreign matters collide with the side structures and enter the suction zone of the robot cleaner due to the simultaneous jet of air, which promotes the scattering of the foreign matter on the blind spot. Is in.

The present invention for achieving the problem as described above and to remove the conventional drawbacks is that the foreign matter of the cleaning surface is sucked with the air through the suction port installed on the lower surface by the suction motor, foreign matter through the dust collector between the suction motor and the suction port In the robot cleaner for collecting and autonomously running the area of the cleaning surface;

Left and right injection motors installed at both sides of the suction port and independently driven from each other; An injection nozzle coupled to the left and right injection motors, for injecting air from the robot cleaner in progress adjacent to the side structure toward the cleaning blind spot where the adjacent side structure and the cleaning surface contact each other; Characterized in that consisting of.

At this time, the robot cleaner senses the side structure adjacent to the circumference of the progress by the sensing sensor to implement the driving corresponding to the shape of the detected side structure; The presence or absence of a side structure at the left or right point from the sensing sensor and at the same time can be selectively turned on, off the left or right injection motor of the corresponding position.

From the above means, the present invention can smoothly remove foreign substances present in the cleaning blind spots of the corners where the side of the wall, furniture, sofa, etc. and the cleaning surface abuts on the cleaning surface, the cleaning place to which the robot cleaner is applied and its Inefficient cleaning work resulting from the limitation of mobility can be greatly improved.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an operation state diagram of a conventional robot cleaner, Figure 2 is an illustration of the upper cover of the robot cleaner according to the present invention is removed, the lower surface by the autonomous running robot cleaner, that is, the suction motor (5) according to the present invention The cleaning function of collecting foreign matters through the dust collecting part 4 between the suction motor 5 and the suction port 3 by suctioning foreign substances on the cleaning surface together with the air through the suction port 3 installed on the suction surface 3 or the planar shape of the cleaning surface in advance or The present invention relates to a robot cleaner that recognizes while driving and autonomously runs the cleaning area for the cleaning operation.

In general, such a known robot cleaner has a plurality of sensor units for sensing a structure such as a wall, furniture, etc. disposed on a cleaning area along the circumference of the main body 2, and the position and distance of the structure detected from the sensor unit. Based on the location of the surrounding structure, the driving and stop of the robot cleaner and steering of the front, rear, left and right directions are performed, and a series of autonomous driving for the corresponding cleaning area is realized.

The sensor unit may be used in various forms such as a position sensor, a distance sensor, a vision sensor, and a detailed description of a widely used technology configuration, such as a position recognition of a robot cleaner by a side structure and an associated operation of a driving device. Is omitted.

In the above-mentioned known robot cleaner, the robot cleaner provided with the airbrush according to the present invention is provided on both sides of the suction port 3 provided on the lower surface of the main body 2, and the airbrush type blower which independently drives each other. Units 10 and 10 "are provided.

That is, as shown in FIG. 3, the blowing unit 10 includes: left and right injection motors 11 fixedly installed in the main body 2 through the fixture 11a and independently driven; The injection nozzle 12 is coupled to the left and right injection motors 11 and injects air toward the cleaning blind spot S (see FIG. 1) where the side structure 1 and the cleaning surface contact each other.

As shown in FIG. 4, while the robot cleaner is being cleaned along the side structure 1, the robot cleaner sprays air toward the foreign matter placed in the cleaning blind spot generated by abutment of the adjacent side structure 1 with the cleaning surface. Dispersion of foreign matters placed in the zone and these dispersed foreign matters are to hit the side structure (1) to be collected in the suction zone of the suction port (3) of the robot cleaner.

Preferably, the injection direction of the air injected through the injection nozzles 12 disposed on both sides of the suction port 3 is inclined at an acute angle a toward the side structure from the front, which is the traveling direction of the robot cleaner. do. By maintaining the oblique air injection direction toward both fronts in this way, foreign matters in the blind spots of the cleaning blind spots are hit by the side structure 1 by the injected air, so that they are concentrated in front of the suction port 3.

Preferably, the injection nozzle 12 forms an air passage narrowing toward the outlet 12a from one end coupled with the injection motor 11, so that the foreign matter of the cleaning blind spot hits the side structure 1 and then the inlet port. (3) Make sure that the injection speed is sufficient to flow to the side. Of course, the size of the injection nozzle related to the injection speed of the air and the specification of the injection motor can be selected from various types in connection with the type of foreign matter for cleaning purposes.

In addition, on the front lower surface where the suction port 3 of the robot cleaner is installed, a diffusion barrier 9 which is generally curved backward is installed at the rear of the suction port 3 to clean the front of the diffusion barrier 9. As shown in FIG. 4, the outlet 12a of the injection nozzle 12 is preferably disposed behind the diffusion barrier 9.

On the other hand, in general, when the robot cleaner is being cleaned along the edges of the cleaning surface, the robot cleaner usually forms a blind spot for only one side of the robot cleaner when it is moved around the wall, sofa, or furniture. According to the intake port (3) according to the selective drive of both of the pair of blowing units (10, 10 ").

That is, as shown in FIG. 5, of both sides of the robot cleaner in progress through the plurality of sensors 6 installed along the side circumference of the robot cleaner R, the side structure 1 is formed by the sensors 6. ) By driving only the injection motor 11 located in the selected one direction is sensed to implement independent air injection through the corresponding injection nozzle (11).

As described above, the air blowing units 10 and 10 ″ disposed on both sides of the suction port 3 of the robot cleaner R according to the present invention and independently driven from each other are controlled by the outside of the robot cleaner R. More precisely, by injecting air toward the inclined direction forming an acute angle (a) from the traveling direction, as described above, the foreign matter on the cleaning blind spot which is often formed during the robot cleaner near the side structure is sucked into the robot cleaner. Although the main purpose is to move to the front lower surface, which is an area, even if the side structure 1 does not exist, the robot cleaner which moves substantially by spraying foreign substances located on both sides of the ongoing cleaning area. An extended cleaning suction zone will be realized.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an operation state diagram of a conventional robot cleaner

Figure 2 is an illustration of a robot cleaner having a according to the present invention

Figure 3 is an illustration of an airbrush blowing unit according to the present invention

Figure 4 is an operating state of the airbrush blowing unit according to the invention

5 is an operation state diagram of the robot cleaner according to the present invention

<Description of the symbols for the main parts of the drawings>

(R): Robot Cleaner

(10) (10 "): (Airbrush Type) Blowing Unit

(11): injection motor

(12): injection nozzle

(6): Sensor

Claims (4)

By suctioning the foreign matter of the cleaning surface with the air through the suction port installed on the lower surface by the suction motor, collects the foreign matter through the dust collector between the suction motor and the suction port, and detect the adjacent side structure during the process through the sensor for detection In the robot cleaner for autonomously traveling the area of the cleaning surface; Left and right injection motors installed on both sides of the suction port to independently drive each other; A spray nozzle coupled to the left and right injection motors for injecting air from the robot cleaner in progress adjacent to the side structure toward the cleaning blind spot where the adjacent side structure and the cleaning surface are in contact with each other; At the left or right side of the robot cleaner in progress from the sensor for detecting the presence of the side structure and at the same time the left or right injection motor for the on-off injection motor, characterized in that to selectively turn on and off robotic vacuum. delete The method of claim 1, The outlet of the injection nozzle is installed behind the suction region of the robot cleaner, the robot cleaner with an airbrush, characterized in that arranged at an acute angle toward the side structure from the front in the traveling direction of the robot cleaner. The method of claim 1, The injection nozzle is a robot cleaner having an air brush, characterized in that the air flow path is narrowed toward the outlet from one end coupled to the injection motor.

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