KR100806302B1 - Moving robot system and operating method for same - Google Patents

Abstract

A moving robot system and an operating method thereof are provided to move along the cleaning area automatically by storing the moving path along the cleaning area. A moving robot system comprises a motion control part(110), a memory(130), a driving part driving the moving robot, and a micro processor(120). The motion control part calculates information for the moving path. The memory stores the information calculated through the motion control part. The micro processor moves the moving robot along the stored moving path by controlling the driving part according to the information stored on the memory. The micro processor also controls the driving part to execute cleaning after moving according to the information of the stored moving path.

Description

Moving system and operating method for same

1 is a view showing the appearance of the robot system,

2 is a view showing the inside of the robot system according to the present invention;

Figure 3 is a flow diagram illustrating a method of setting a cleaning area with a mobile robot of the robot system according to the present invention,

4 is a flow diagram illustrating a method of operating a mobile robot in the robot system according to the present invention;

5 is a diagram illustrating an operation example of the robot system according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: mobile robot 110: motion control unit

120: microcomputer 130: memory

200: remote control 300: charging stand

The present invention relates to a robot system and a method of operating a mobile robot, and in particular, a moving path is designated so that a mobile robot that performs cleaning automatically moves to an area to be cleaned, and the mobile robot efficiently moves the indoor space accordingly. The present invention relates to a robot system and a method of operating a mobile robot.

 The use of robots is increasing throughout the industry, and not only industrial robots but also robots that can perform housework at home have been developed and used.

In particular, the use of a robot cleaner for automatically cleaning at home or indoor space has been increasing a lot, such a robot cleaner consists of a mobile robot to perform the actual cleaning, and a charging table for charging the mobile robot, etc. do.

The mobile robot normally charges the charging station with a deck, and when the user inputs a cleaning command, the mobile robot automatically moves around the indoor space to perform indoor cleaning.

Therefore, the mobile robot needs to be able to move freely in the indoor space in order to perform the cleaning. In general, the mobile robot generally performs cleaning while randomly moving without specifying a special moving path. If a predetermined time elapses after starting the cleaning, the cleaning of the mobile robot is determined to be completed, and then the cleaning is finished.

However, in order to perform the cleaning in the indoor space divided into several areas through the wall, etc., the mobile robot has to move several areas. At this time, the mobile robot moves so that the shortest moving path can be used to move to the predetermined area. It is important to set the robot.

In the case of a robot system using a conventional mobile robot, by attaching a location recognition mark to the ceiling of each partitioned area, and identifying the location recognition mark, it is possible to grasp information about the cleaning area where the mobile robot is currently cleaning.

After cleaning, after moving to another area where the location recognition mark is attached, cleaning is performed. In this case, in order to input information about the movement path, the user places the mobile robot directly below the location recognition mark and then moves to the movement path. It is inconvenient to recognize additional information. In addition, the position recognition mark must be separately attached to a place that can be recognized by the mobile robot, which is not only in appearance, but also requires that the mobile robot has an imaging means such as a separate camera to determine the position recognition mark. have.

The present invention has been made in order to solve the above problems of the prior art, the object of which is to store the movement path for each cleaning area, it is possible to move automatically by each cleaning area, and to move sequentially when selecting a plurality of cleaning areas cleaning area The present invention provides a robot system of a mobile robot and a method of operating the same.

The robot system according to the present invention for solving the above problems is a robot system having a remote control for remotely controlling the operation of the mobile robot, the mobile robot for the at least one cleaning area, the command input through the remote control According to the present invention, the moving path to the predetermined cleaning area is stored, and the cleaning path is moved to the cleaning area based on the stored moving path.

In addition, in the method of operating a mobile robot according to the present invention, the first step in which the mobile robot moves along a predetermined path as a driving signal is input to the mobile robot through a remote controller, A second step of calculating information according to a movement route from a departure area to an arrival region and storing information about the cleaning area; based on the movement path of the stored at least one cleaning area, a movement corresponding to the selected cleaning area A third step of moving according to the information of the route, and a fourth step of cleaning the cleaning area during the movement or after completion of the movement.

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

1 is a view schematically showing the appearance of a robot system according to the present invention.

As shown, the robot system according to the present invention is a mobile robot 100 that can be moved to perform cleaning automatically, and the mobile robot 100 when the mobile robot 100 is in a standby state that does not perform cleaning It is composed of a charging stand 300 to function as a deck (Deck) to charge.

That is, when the mobile robot 100 is located in the charging stand 300, the internal charging battery is charged. When the cleaning execution command is input after the charging is completed, the mobile robot 100 is removed from the charging stand 300 to perform cleaning. Meanwhile, even after a cleaning execution command is input, the mobile robot 100 automatically returns to the charging stand 300 to charge the battery after the battery is exhausted during the cleaning and the battery is low.

2 is a block diagram showing the inside of the robot system according to the present invention.

As shown, a user may directly input a command to the mobile robot 100 to perform cleaning, but may also input a command to the mobile robot 100 using the remote controller 200. In particular, although the mobile robot 100 may be directly input a driving command, the movement path of the mobile robot 100 may be set through the remote controller 200.

Robot system according to the present invention, as shown, receives a signal transmitted through the remote control 200, and includes a transmission and reception unit 150 for transmitting the information on the cleaning state to the remote control 200 as needed. It is configured by. In the present embodiment, the robot system capable of bidirectional communication between the remote controller 200 and the mobile robot 100 is taken as an example. However, when the user does not need to check information on a cleaning state or the like through the remote controller 200, the mobile robot has only a receiver. It doesn't matter.

In addition, the mobile robot 100 is configured to include a microcomputer 120 for interpreting the signal received through the transmission and reception unit 150 and controls the driving unit 190 for driving the mobile robot 100 accordingly. At this time, the driving unit 190 will usually be composed of a plurality of wheels and a motor, the microcomputer 120 by adjusting the size or period of the electrical signal applied to the motor of the driving unit 190 of the mobile robot 100 Control the movement path.

On the other hand, the mobile robot 100 according to the present invention is configured to include a motion control unit 110 for calculating the information about the path the mobile robot is currently moving as the drive unit 190 is driven.

In particular, the motion controller 110 may be configured as an obstacle sensor 111, a distance sensor 112, a timer 113, as shown, the microcomputer 120 through the sensor to move the mobile robot 100 Information about the path may be stored in the memory 130.

In more detail, when the mobile robot 100 is moving, the obstacle sensor 11 may measure a distance from a wall or the like by sensing information about an obstacle in the vicinity. In addition, the distance sensor 112 may calculate information on the distance the mobile robot 100 has moved. In an embodiment, the distance sensor 112 may be connected to a motor of the driving unit 190 to detect a rotation speed and a rotation speed of a wheel, and the microcomputer 120 may move the moving robot 100 accordingly. Can be calculated.

When the timer 113 is used at the same time, the distance with the wall calculated by the obstacle sensor 111 and the actual travel distance calculated by the distance sensor 112 may be measured by the information about the movement time. In this way, the microcomputer can store all the information related to the movement path of the mobile robot 100. That is, the motion controller 110 calculates and applies information about the moving distance, the moving angle during rotation, and the moving coordinate during the movement of the mobile robot to the microcomputer 120.

Of course, it is not necessary to use both the obstacle sensor 111, the distance sensor 112, and the timer 113 in order to control the motion, and in view of cost and accuracy, a combination of some of the sensors is calculated to calculate the movement path. You may.

After the user transmits a cleaning area setting command to the mobile robot 100 using the remote controller 200, the user manually adjusts the mobile robot 100 so that information about the movement path is stored in the mobile robot.

For example, the user inputs a 'cleaning area setting' command to the mobile robot 100 through an arbitrary key operation of the remote controller 200, and then moves the mobile robot by using the left and right, up and down keys or the rotating keys of the remote controller 200. Move 100 to the desired cleaning area for cleaning.

Therefore, the microcomputer 120 calculates the information about the path to be moved after the 'cleaning area setting' command is input through the remote controller 100 through the motion controller 110 and stores the information in the memory 130.

At this time, the movement path is determined by default at the point where the charging station 300 is located. For example, if the charging station 300 is located in the living room and the user wants to set the moving path to the inner room, the mobile robot 100 recognizes that the moving path starts from the charging station after inputting the cleaning area setting command unless otherwise indicated. Information about it is input to the memory 130.

Therefore, after the user inputs the 'cleaning area setting' command, the user moves the mobile robot 100 to the inner room by adjusting the remote controller, and then inputs information to the mobile robot 100 that the corresponding moving path corresponds to the moving path to the inner room. . The inner room is recognized and stored in the mobile robot 100 as a predetermined cleaning area. Thereafter, when the user inputs a 'room' cleaning command with the mobile robot, the mobile robot moves to the home room through the set moving path by reading information about the previously stored moving path from the memory 130.

However, if necessary, the starting point of the movement route can be set separately. In this case, the mobile robot 100 separately stores the information about the movement route for each starting point. Therefore, when a user inputs a cleaning execution command later, the controller relocates to the cleaning area according to the stored movement path after grasping information about the current location.

In addition, the mobile robot includes a cleaning execution means 140, which is composed of a suction hole for substantially cleaning, an input unit 170 capable of directly inputting an on / off command to the mobile robot, and an external cleaning state. An output unit 180, such as an LED or liquid crystal display for outputting information, and a charging battery 160 is charged when the power is supplied through the charging unit 300.

The microcomputer 120 performs cleaning after moving to the corresponding area with respect to the cleaning command input based on the movement path and the cleaning area stored in the memory 130. In this case, the driving unit 190 may be controlled to enable cleaning even during movement.

When a plurality of cleaning areas are selected, the microcomputer 120 controls to perform cleaning by sequentially moving the cleaning areas, and returns to the charging station when the cleaning is completed for all selected cleaning areas.

Figure 3 is a flow chart illustrating the flow of a method for setting the movement path with a mobile robot according to the present invention.

As shown, the user first inputs the cleaning area setting command to the mobile robot using the remote control (S11). In this case, the user may input information regarding a start point of the movement route and a cleaning area to arrive in advance. If the information on the start point of the movement path is not input separately, the mobile robot recognizes that the vehicle starts from the charging station.

Thereafter, the user adjusts the mobile robot to the area to be cleaned by using the left / right moving keys of the remote controller (S12). While moving, the microcomputer of the mobile robot grabs information about the movement path through the motion controller. At this time, the information including the distance, the moving coordinates, the moving angle is moved according to the degree of rotation of the plurality of sensors and the motor or wheel provided.

After the mobile robot moves to a desired area to be cleaned, the user inputs the information about the cleaned area to the mobile robot and inputs a movement path storage command (S13). Of course, when the information about the arrival point is previously input in step S11, the user only needs to input the moving path storing command to the moving robot. In addition, the information about the cleaning area arrives can be input through a number or a letter, so that the home room can be directly designated as a cleaning area, or simply represented by the number of the area #.

If the recognition of the movement paths of all the cleaning areas is completed through the process as described above, the cleaning area setting command is input to the mobile robot and the cleaning area setting process is terminated accordingly (S15). However, if the setting of the moving path of the other cleaning area is still required, the process returns to step S12 and the user continues the setting operation of the moving path for each cleaning area and sets the moving path for the plurality of cleaning areas.

In this case, the user may set a plurality of moving paths such as using the charging route as a starting point, the bedroom 1 as a starting point, and the bedroom 2 as a starting point. Therefore, even when the cleaning robot is sequentially cleaned, the mobile robot can efficiently move from the bedroom 1 to the inner room instead of the charging station through the moving path.

In addition, if the remaining battery capacity is insufficient during the cleaning, the battery is returned to the charging station using the information on the movement path in the area that is being cleaned, and the battery is charged. Can be done.

On the other hand, if necessary, the user may set the moving path to reach the cleaning area and set information on the size of the cleaning area or the basic cleaning time. In this case, the mobile robot performs cleaning only for the set time for each cleaning area and then moves to another area, so that the cleaning can be completed efficiently in a short time.

Figure 4 is a flow diagram illustrating a method of performing cleaning in the robot system according to the present invention.

As shown, the user of the robot system may directly input the cleaning execution command to the robot system using the remote control (S21).

In this case, the mobile robot determines whether the input cleaning execution command is a cleaning command for a specific area or a cleaning command for all areas (S22).

If the cleaning command for all areas is performed, the mobile robot sequentially performs cleaning while sequentially moving the set movement path (S23). For example, after moving from the charging station to bedroom 1, the cleaning is performed while moving through the moving path from bedroom 1 to bedroom 2, bedroom 2 to the room, and from the room to the charging station in order.

On the other hand, if a cleaning command for a particular area is input, rather than all areas, the mobile robot moves to the specific area to perform cleaning (S24). If the user inputs the cleaning instruction, the mobile robot will move through the pre-stored movement path directly to the home and perform cleaning.

On the other hand, if a situation that needs to charge the battery while cleaning (S31) occurs, the mobile robot moves to the charging station by moving the movement path in reverse according to the information on the stored movement path to the charging zone to complete the charging area It returns to perform cleaning again (S32).

Here, when it is impossible to return to the charging station based on the stored moving path information, the mobile station may randomly move along the wall, detect the charging station signal during the movement, and then return.

5 is a view illustrating a state in which a mobile robot of the robot system according to the present invention performs the cleaning.

At this time, the user stores the information about the movement path from the charging station 300 located in the area 5 to the area 4 in the mobile robot while directly adjusting the mobile robot through the remote controller. Then, the user sequentially stores, or stores, the movement route reaching the area 4-> area 3, area 3-> area 2, area 2-> area 1, area 1-to-charger in the mobile robot in the shortest time. The robot can be cleaned efficiently.

On the other hand, if necessary, the user may store information about a movement route from an arbitrary region to another region, such as the movement route reaching the region 3-> region 4. Therefore, even when the mobile robot is located in the area 3, the user inputs the information that the starting point is the area 3 and the desired cleaning area is the area 4 together with the cleaning execution command to the mobile robot, so that the mobile robot cleans only the area 4 in a short time. Can be done.

The robot system of the present invention and the method for operating the mobile robot are configured as described above, in the robot system comprising a remote controller and a mobile robot, the mobile robot stores information about a path traveled according to a command input through the remote controller. After that, it is configured to move along the path, so that the user can set the moving path of the mobile robot through the remote control without a separate recognition device, and at the same time, the mobile robot moves through the corresponding moving path and cleans it efficiently in a short time. This has the effect of being able to perform.

Claims (10)

In the robot system equipped with a remote control for remotely controlling the operation of the mobile robot, The mobile robot stores at least one cleaning area in accordance with a command input through the remote controller and stores a movement path to a predetermined cleaning area, and moves to the cleaning area based on the stored movement path to perform cleaning. Robot system characterized by. The method of claim 1, The mobile robot includes a motion control unit for calculating information about the movement path; A memory for storing information calculated by the motion controller; A driving unit for operating the mobile robot; And a microcomputer for controlling the driving unit according to the information stored in the memory to move the mobile robot according to the stored movement path. The method of claim 2, The micom robot system, characterized in that for controlling the driving unit to perform cleaning during or after moving in accordance with the information of the stored movement path. In the operation method of the mobile robot, A first step of moving the mobile robot along a predetermined path as a driving signal is input to the mobile robot through the remote controller; A second step of calculating information according to a movement route from the start area to the arrival area of the mobile robot and storing information on the cleaning area; A third step of moving according to the information of the movement route corresponding to the selected cleaning region based on the movement route of the at least one cleaning region; And a fourth step of cleaning the cleaning area during the movement or after the movement is completed. The method of claim 4, wherein In the first step, when the cleaning area setting command is input to the mobile robot, the mobile robot moves according to the input driving signal. The method of claim 4, wherein In the second step, when the mobile robot arrives at the predetermined cleaning area, the information about the moving path of the first step is stored in response to the input information about the cleaning area. The method of claim 6, In the second step, a movement route information including movement coordinates, movement angles, and movement distances of the mobile robot from the departure area to the arrival area is stored. The method of claim 7, wherein If a cleaning operation command is input to a plurality of cleaning areas, after the cleaning of one cleaning area is completed, moving to the next cleaning area to perform the cleaning method further comprising the step of performing the cleaning. The method of claim 8, The method of operating the mobile robot, characterized in that further comprising the step of returning to the charging station when the remaining battery level during cleaning and cleaning is complete. The method of claim 9, The step of returning to the charging station is a mobile robot operating method, characterized in that for returning to the charging station in response to the information on the stored movement path.

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