KR100633446B1 - Mobile robot having humidifier - Google Patents

Abstract

A mobile robot capable of uniformly humidifying a room is disclosed. According to an aspect of the present invention, a mobile robot includes: a driving unit movably supporting a main body and providing a driving force for moving the main body; A humidifier installed on the main body; And a control unit controlling the driving unit.

Humidifier, Uniform Humidification, Mobile Robot, Cleaning

Description

Mobile robot having humidifier

1 is an exploded perspective view of a mobile robot according to an embodiment of the present invention;

Figure 2 is a bottom view of the mobile robot shown in Figure 1,

3 is a block diagram illustrating a control system of the mobile robot shown in FIG. 1;

4 is a perspective view of the mobile robot shown in FIG.

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

10; Main body 20; cover

30; Reducer 40; Driving part

41; Driven wheel 42; Driving wheel

45; Idle wheel 80; Control

90; Humidifier 91; Reservoir

92; Inlet 93; Evaporation Module

94; Evaporator 95; discharge pipe

97; Humidity sensor

The present invention relates to a mobile robot having a humidifier.

In general, the humidifier can be divided into centrifugal spray, ultrasonic, electrothermal, filter evaporation according to the principle of evaporating water.

The centrifugal spray humidifier evaporates the water by blowing the sucked water with a centrifugal force to hit the inner wall, and the ultrasonic humidifier transmits an electrical signal of a predetermined frequency to a vibrator placed in the water to vibrate the vibrator to evaporate the water. The electrothermal humidifier generates steam by heating water with a heater or electrode, and the filter vaporizing humidifier evaporates water by passing air through a wet filter.

These humidifiers are to create a comfortable indoor environment by maintaining the appropriate humidity in the room, most of which are fixed to any part of the room used. However, when the humidifier is used fixed to any part, the area of humidification is limited to a part where the humidifier is installed unless a special convection occurs. Therefore, the humidity of the room becomes uneven, so that the efficiency of humidification is lowered.

The present invention has been made in view of the above problems, it is an object to provide a mobile robot that can uniformly humidify the entire room.

Another object of the present invention to provide a mobile robot that can be humidified while cleaning the room.

Mobile robot according to the present invention for achieving the above object, the drive unit for supporting the main body to move, providing a driving force for moving the main body; A humidifier installed in the main body; And a control unit controlling the driving unit. And, Humidity sensor for detecting the humidity of the room; And a cover covering the main body, wherein the controller controls ON / OFF of the humidifier according to the information detected from the humidity sensor.

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The humidifier may include a reservoir for storing a fluid; An evaporation module for evaporating the fluid supplied from the water reservoir to the outside of the body; And a connecting pipe connecting the reservoir and the evaporator to supply the fluid stored in the reservoir to the evaporator.

The evaporation module, the evaporator for evaporating the fluid; And a discharge pipe for discharging the evaporated fluid to the outside. In addition, the reservoir is provided with an injection hole for injecting fluid, and each of the injection hole and the discharge pipe is exposed to the outside through the injection hole exposure hole and the discharge pipe hole formed in the cover.

The drive unit, at least one drive motor controlled by the control unit; A pair of drive wheels connected to the drive motor and installed on both sides of the main body; A pair of driven wheels connected to each of the pair of drive wheels so as to be capable of power transmission; And a pair of idle wheels for supporting the body. And, the reservoir is located in the upper body of the pair of drive wheels, driven wheels and idle wheels so that the load is uniformly applied to each of the pair of drive wheels, the driven wheel and the idle wheels. There is one each on each side of.

On the other hand, the mobile robot as described above may further include a suction unit installed in the main body for cleaning the bottom surface.

Hereinafter, with reference to the accompanying drawings will be described in detail a mobile robot according to an embodiment of the present invention.

1 to 4, the mobile robot according to an embodiment of the present invention includes a main body 10, a cover 20 coupled to the main body 10, a suction part 30, a driving part 40, The upper camera 50, the front camera 52, the obstacle detection sensor 54, the storage device 60, the transmitter / receiver 70, the controller 80 and the humidifier 90 are included. However, reference numeral I denotes the front of the robot cleaner.

The dust collecting unit 30 is provided on the main body 10 to collect dust on the floor while sucking air. Such a suction unit 30 may employ a suction unit of various robot cleaners known to allow the mobile robot to perform a cleaning function. As an example, the suction part 30 may include a suction motor (not shown), a suction port 31 formed in the main body 10 to suck dirt from the floor by suction power generated by driving the suction motor. It may include a brush 31 exposed to the outside through the suction port 31 to scatter dust from the bottom surface and a dust collecting chamber (not shown) for collecting the dust sucked through the suction port 31.

As shown in FIG. 2, the drive unit 40 includes a pair of driven wheels 41 provided on both sides of the front of the main body 10, and a pair of drive wheels 42 provided on both sides of the rear of the main body 10. ), A pair of drive motors 43 for rotationally driving the pair of drive wheels 42, and a power transmission member 44 for transmitting the power of the drive wheels 42 to the driven wheels 41. And an idle wheel 45 installed at the rear of the main body 10 to support the main body 10 to be movable. In this embodiment, the power transmission member 44 is composed of a timing belt, but may be formed of a gear pulley structure. In addition, although the driving motor 43 is shown as a pair in the present embodiment, only one driving motor may be applied, and the idle wheel 45 is suitable for the driving wheel 42 and the driven wheel 41. If the placement can keep the mobile robot in balance, it can be omitted. As such, the driving unit 40 may apply various known techniques as long as it can move while supporting the mobile robot in a balanced manner.

On the other hand, the drive unit 40 independently drives each drive motor 43 in the forward or reverse direction in accordance with the control signal of the control unit 80. The running direction is determined by controlling the rotation speed of each drive motor 43 differently.

 The upper camera 50 is installed on the main body 10 so that the upper image can be captured, and outputs the captured image to the controller 80. Preferably, a fisheye lens (not shown) is applied to the upper camera 50. The fisheye lens structure is disclosed in Korean Patent Publication No. 1996-7005245, Korean Patent Publication No. 1997-48669, Korean Patent Publication No. 1994-22112, etc., and is marketed by various lens manufacturers, and detailed description thereof will be omitted.

The front camera 52 is installed on the main body 10 so that the front image can be captured and outputs the captured image to the controller 80.

The obstacle detecting sensor 54 is disposed at predetermined intervals around the side surface of the main body 10 so as to transmit a signal to the outside and receive the reflected signal. The obstacle detection sensor 54 may use an optical sensor or an ultrasonic sensor. The obstacle detecting sensor 54 may also be used to measure a distance from an obstacle or a wall.

 The storage device 60 stores the upper image captured by the upper camera 50 and then assists the controller 80 to calculate the positional information or the driving information.

The transmitter / receiver 70 transmits data to be transmitted to an external device 72 through a transceiver (not shown) installed in the controller 80, and receives an external device 72 received through a transceiver (not shown). ) Is transmitted to the control unit 80. The external device 72 is generally a wireless repeater (not shown) or a remote controller (not shown) capable of inputting and outputting data.

 The controller 80 processes a signal received through the transmitter / receiver 70 and controls the above-described elements according to the signal. When a key input device (not shown) provided with a plurality of keys for setting the function of the mobile robot is further provided on the main body 10, the controller 80 processes the key signal input from the key input device.

Then, the controller 80 extracts the position recognition mark installed on the ceiling of the work area for use for position recognition from the upper image captured by the upper camera 50, and then uses the position information to locate the mobile robot. Recognize and control each element to perform the desired task using the recognized location information. In addition, the controller 80 controls ON / OFF of the humidifier 90 according to a value input from the humidity sensor 97 (see FIG. 3).

The humidifier 90 includes a reservoir 91, an evaporation module 93, and a connection pipe 96 for supplying the fluid stored in the reservoir 91 to the evaporation module 93.

The reservoir 91 is a container in which the fluid to be evaporated is stored, and the pair of wheels 41, 42, 45 so that the load is uniformly transmitted to the pair of wheels 41, 42, 45. Located at the top of the main body 10, a pair is formed on both sides. That is, the reservoir 91 is installed in the main body 10 to have the same center of gravity as the center of gravity of the mobile robot. Therefore, the reservoir 91 may be variously arranged on the main body 10 as long as its center of gravity coincides with the center of gravity of the mobile robot. Meanwhile, each of the pair of reservoirs 91 is provided with an injection hole 92 for injecting fluid into the reservoir 91. In addition, the injection hole 92 is exposed to the outside through the injection hole exposure hole 22 formed in the cover 20 to inject the fluid from the outside. An opening and closing cover 23 is installed in the injection hole exposing hole 22.

The evaporation module 93 includes an evaporator 94 for evaporating the fluid supplied from the reservoir 91 and a discharge pipe 95 for guiding the gas evaporated from the evaporator 94 to the outside of the mobile robot. The evaporator 94 is installed in the main body 10 to be located below the reservoir 91, and the fluid stored in the reservoir 91 can be easily supplied to the evaporator 94 by this structure. . The evaporator 94 may be a variety of known forms such as centrifugal spray method, ultrasonic method, heat transfer method, filter vaporization method. Since the structure and principle of the evaporator 94 is a known technique, a detailed description thereof will be omitted. In addition, the discharge pipe 95 is exposed to the outside through the discharge pipe hole 21 formed in the cover 20.

The connecting tube 96 is composed of two so as to connect each of the pair of reservoirs 91 and the evaporation module 93.

Hereinafter, the operation of the mobile robot having the configuration as described above will be described in detail.

First, the controller 80 controls the driving unit 40 to travel the work area according to the driving pattern to generate an image map of the upper area from the image captured by the upper camera 50 and store the image in the storage device 60. do. Alternatively, when the work order is received wirelessly from the key input device or the outside, it may be set to perform image mapping before the work is performed.

After the image map is created, the controller 80 recognizes the location using the image map created when the task is performed. That is, when a work request signal is wirelessly input from a key input device or an external device, the controller 80 stores the stored image map and the current image input from the upper camera 50 or the upper camera 50 and the front camera 52. Recognizing the current position of the mobile robot while comparing the, and controls the drive unit 40 to correspond to the desired driving path from the recognized position. Here, the work request signal includes a cleaning operation, a monitoring operation through a camera 50, 52, and a humidification operation.

When traveling along the target driving route, the driving error is calculated using the current position recognized by comparing the mileage measured from the encoder with the currently captured image and the stored image map, and the error is compensated for. Control the drive unit 40 to track.

While the mobile robot is traveling, the controller 80 operates the suction unit 30 and the humidifier 90 simultaneously or selectively according to a work signal.

That is, when power is supplied through a power supply unit (not shown) provided in the main body 10, the suction motor (not shown) is driven. As the suction motor is driven, a suction force is generated, and by this suction force, the mobile robot sucks the dirt on the surface to be cleaned by the suction port 31 to perform a cleaning operation.

In addition, the controller 80 determines whether to humidify based on a value input from the humidity sensor 97 and a reference value preset in the storage device 60, and performs a humidification operation when humidification is required. As described above, since the mobile robot is controlled and humidified, the humidification is performed in an area where the humidity is low in the room, and the humidification is not performed in the area where the humidity is high. Therefore, it is possible to maintain uniform humidity in the entire indoor space, and improve the efficiency of humidification. On the other hand, the humidifying operation may be performed simultaneously with the cleaning operation or separately from the cleaning operation.

 When the user inputs a signal for stopping the operation of the driving unit 40 through the external device 72, the mobile robot may perform floor cleaning or humidification while stopping in a predetermined space.

Then, when the cleaning or humidification work is completed, the user inputs the instruction during the operation through the external device 72, the control unit 80 stops a series of cleaning and humidification work and returns the mobile robot to the initial position. .

As described above, according to the present invention it is possible to uniformly humidify the indoor space by performing the humidification operation while moving the indoor space humidifier.

In addition, by mounting the humidifier on the mobile robot equipped with a cleaning function, the burden of purchasing a separate humidifier is reduced and economical, and cleaning and humidification can be performed at the same time to make the living space more convenient.

While the invention has been shown and described with respect to preferred embodiments for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, those skilled in the art will appreciate that many changes and modifications to the present invention are possible without departing from the spirit and scope of the claimed claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (9)

A driving unit movably supporting the main body and providing a driving force for moving the main body; A humidifier installed in the main body; A control unit controlling the driving unit; And, Further comprising a humidity sensor for detecting the humidity of the room, The control unit is a mobile robot, characterized in that for controlling the ON / OFF of the humidifier according to the information detected from the humidity sensor. delete The method of claim 1, wherein the humidifier, A reservoir in which the fluid is stored; And And an evaporation module for evaporating the fluid supplied from the water reservoir to the outside of the main body. The method of claim 3, wherein the evaporation module, An evaporator to evaporate the fluid; And A mobile robot comprising a; discharge pipe for discharging the evaporated fluid to the outside. The method of claim 4, wherein The reservoir is provided with an inlet for injecting a fluid, Each of the injection hole and the discharge pipe, the mobile robot, characterized in that exposed to the outside through the injection hole and the discharge pipe hole formed in the cover covering the main body. The method of claim 5, The driving unit, At least one drive motor controlled by the controller; A pair of drive wheels connected to the drive motor and installed on both sides of the main body; A pair of driven wheels connected to each of the pair of drive wheels so as to be capable of power transmission; And And a pair of idle wheels for supporting the body; The reservoir is a mobile robot, characterized in that the load is installed on the body so that the load is uniformly applied to each of the drive wheel, the driven wheel and the idle wheel. The method of claim 6, The reservoir is a mobile robot, characterized in that each one is provided on each side of the pair of driving wheels, driven wheels and idle wheels on the upper side. The method of claim 7, wherein the humidifier, And a connecting pipe connecting the reservoir and the evaporator to supply the fluid stored in the reservoir to the evaporator. delete

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