DE19614916A1 - Floor cleaning robot vehicle for use in rooms - Google Patents

Abstract

The wheeled floor cleaning robot includes a water tank, a cleaning unit, a battery power unit, a drive system and a camera system that provides feedback to the control system. The camera is mounted on the housing in such a way that it can be turned to monitor the area. Other sensors eg infra red ,ultrasonic also provide feedback of objects and walls. The drive system can operate one or more of the wheels. The control system is computer based and operates with algorithms that control the path movement.

Description

The invention relates to a driving and working robot for cleaning floor areas Chen in closed rooms or for the processing of floor space, which is limited independent, that means without direct human influence, without learning phase and without Guidance devices in the rooms or on the surfaces, oriented and reacting to obstacles. Devices for cleaning floors in closed rooms are still commonly used today hand over the surface to be worked. The amount of time and effort involved power is correspondingly high.

There are cleaning devices like vacuum cleaners and sweepers that do some of the work do it mechanically or with motor power. There are also supporting frames for mechani ized cleaning devices (cleaning machines) that accommodate the cleaning devices and as Serve chassis for these devices during the work process. There are people here too necessary to operate these devices and guide them over the area to be worked. Here are preferably large areas cleaned with these machines. And the larger the areas are, around the machines are also bigger. Even if some work is supported by engine power and therefore the muscle work can be reduced, there is always personnel for leadership of these machines required.

Furthermore, machines are known which use the so-called touch-in method Learn motion sequences over the surface to be worked on and in the following sequences do it yourself. The movement sequences are saved after learning and can be saved at Necessity can be called and repeated by the machine. This machine needed to learn the movement over the floor at least one guide (instructions) and may not respond to changes, such as obstacles, in learning the Not yet existed, react. So it always needs constant Conditions (rooms) or a supervisor. When used in a new room that is To go through the learning phase again. There are still considerations through these devices Let sensors react to obstacles. However, it has not yet been described how this succeeds and what kind of reaction it is.

Automatic machines are known which are fixed independently of the supervision by the People perform certain specified tasks. This task can be the processing of a Be a workpiece or transport or other tasks. These are called robots that be controlled by an algorithm that is stored in software and hardware. in the Algorithm is a specific workflow that is determined by external factors are recorded via sensors, some of which can be influenced. A reaction to external Factors are possible to a limited extent, namely insofar as it is provided in the algorithm. In addition, machines are known which are used for recognizing properties and for measuring Properties and for evaluating properties can be used.

Transport robots are known which move on fixed tracks. They are certain The railways are guided by various types of guidance devices or by stored routes.  and direction information (specified route). There are now robots that are on unexpected obstacles in the direction of movement due to evasion or interruption of the own movement react. The reaction is limited by the lack of information about the Obstacle and space.

The invention has for its object to provide a driving and working robot that Floor cleaning in medium and large rooms such as offices, corridors, corridors, markets and the like. And also tillage, e.g. B. Mowing the lawn in a limited area easier, automati carried out and carried out without direct human influence. Thereby from Basic human parameters, such as B. the working time or natural unlimited space a surface area is specified and in the following only the execution of the work Checked cyclically or refilled consumables and process residues removed from the machine. Movement and work flow are through the machine according to the external conditions found and detected by sensors themselves decided. It is a latest generation machine.

The invention is based on an integrated system of chassis, drive, housing, work machine, in this case floor cleaning machine, sensors for environmental detection, Control computer for evaluating the external conditions detected by the sensors, the Decision making for the further procedure by creating a room or area mo dells and the control of the drive in both direction and speed and the control of the cleaning machine both in the type of treatment and in the processing time (duration, intensity). The acquisition and evaluation and control takes place in real time, d. H. during the movement. A program that is stored on EPROMS includes the Control algorithm and coordinates the processes.  

Description of how it works

Image acquisition and processing: Two can be rotated around the top of the housing A video or matrix camera mounted on the vertical axis creates an image of the surroundings a room. The captured images are in an analog-digital wall ler converted into digital signal and buffered for further processing. The According to a given scheme, cameras are always in around the vertical axis Angle steps rotated and take a picture in the next position, so that the entire surrounding space is captured in pairs of two images each. The computer ( Computer), which is responsible for the image processing (image computer) gets itself according to his Processing cycle the data from a buffer and processes it in the following described way. The processing is controlled by software (program).

• - The contrast of the image is increased.
• - A filter smoothes the color areas (grayscale)
• - The color levels of the image are reduced
• - The contours are reinforced, the edges are emphasized.
• - The color levels are further reduced.
• - The edges are reduced to lines and the vectors of the lines are calculated.

Amounts of data are created that only contain information about the edges and lines of the pictures taken.

In the next stage of processing, the information is recorded separately Compare images with each other. The distances between the object lines and the optical axis of the image. Due to the different shooting angles of the cameras same object lines on the pair's pictures each have different distances from the optical one Axis (Parralaxe). The differences in the distances depend on the respective distance of the object line from the pickup point. The distance of the object line is determined using the triangulation method calculated from the pick-up point.

A model of the room is calculated from the determined data, in which the distances of the respective objects from the shooting point are included.

The whole process from taking the pictures to calculating the spatial model is constantly repeated, so that all available information in the room mo inflow dell.

The newly calculated room model is compared with the existing room model. The The correctness of the model is checked and the model is supplemented with new information.

Short-range sensors: On all four sides there are sensors for recording information the vicinity of the robot. These are once as infrared sensors with transmitter and Receiver and once designed as ultrasonic sensors with transmitter and receiver. over Both types are emitted modulated signals and receive information about themselves to obtain fixed or moving objects in the vicinity (approx. 60 cm). No information about the distance is obtained. The recorded signals are  evaluated in an intermediate stage, such that only signal information about the presence or The absence of objects in the vicinity can be forwarded to the central computer. The information is compared with the room model in the central computer. A not over Attunement triggers an immediate correction of the robot's driving pattern.

Central computer: The control information is prepared in the central computer. over Software (program) is created from the data obtained from the spatial model, the close-up range sensors, the route sensors, the processing sensors a route and processing route calculated. The distance traveled, the route worked, the obstacles (objects), the Condition of the floor, etc. taken into account. From the calculated route, each according to Recalculation of the room model is redetermined, the tax information for the Traction motors, the servomotors and the processing machine are calculated. The tax information are passed on to the respective units via amplifiers.

Processing unit: The processing unit, in this case a floor cleaning device, consists of a reservoir for residues (dirt), a reservoir for water and chemicals, the blower and the brush part. The brush part is attached to the housing and moves across the floor on wheels. If necessary, water and Chemicals are applied to the floor. Via another channel, due to negative pressure, dirt and possibly the applied emulsion via the blower into the Conveyed inside the storage container. In the brush part sensors are housed, which over the Obtain state of soil information (albedo, density, etc.). In the container and in Suction channel sensors are also arranged, which provide information about the transported material (Density) and the filling levels in the containers.

Energy supply: The total energy required for the drives and control elements and the The computer is provided by one or more accumulators integrated in the housing. Indicators show the state of charge of the batteries on the outside of the housing shown.  

An embodiment of the invention will become apparent from the accompanying drawings explained

• 1. Control unit, accumulators, blower motor with blower are in a common housing se, dirt and water tanks, processing equipment, operating equipment, control and Driving equipment housed. Above the housing, but rotatable around the vertical axis connected to it is a housing - camera dome - in which two video cameras below are brought.
• 2. There are four wheels, which are designed as rollers on rubber, attached to four even points below the base plate. The wheels are attached to a fork, which in turn is attached to the base plate so that it can rotate about the vertical axis.
  Sensors (reflective light barriers) are located on the wheels that measure the rotation of the wheel. At the upper end of the fork, in which the respective wheel is suspended, there is a disc that serves as a lever to absorb the forces from the servo and convert it into a rotary movement of the wheel fork around the vertical axis.
• 3. The wheels are individually driven by motors with reduction gears and power transmission Timing belt driven. The motors and gears are each directly on the fork, the represents the suspension, attached.
• 4. The rotation of the wheels around the vertical axis causes a change of direction when driving tion. The vertical rotation is achieved by connecting the wheel fork at the top attached wheel turntable, which are connected to the servomotor by rods. It two wheel turntables are connected in pairs to a servo.
• 5. Accumulators are housed on the base plate, which supply the current and voltage supply for the drive, the work equipment, the control and other electrical components ensures.
• 6. The brush is arranged on the underside of the base plate. It is in the vertical direction slidably mounted so that they adjust to the unevenness of the surface in height can. Various sensors are attached to the brush, the data on the nature of the subsurface.
• 7. The brush has direct contact with the surface via rollers. In it is a suction channel and a water channel. Water or chemicals are transferred via the water channel lien applied to the surface, substances that are on the Underground are sucked into the interior of the system. The channels are designed so that they Cover the entire width of the brush part.
• 8. There is a water container on the base plate for storing water and / or chemicals lien attached. A container is also attached to the base plate to hold the suctioned Collects dirt. Part of this container is with a device for separating individual Elements of the sucked emulsion designed.
• 9. A suction channel leads from the brush to the collecting container. Located in this suction channel a blower that is driven by a blower motor. The passes through the suction channel  sucked in air, the sucked in dust and / or the emulsion of dirt and water in the Collecting container. Part of the collecting container is removable, so that the dirt when necessary can be removed from the machine.
• 10. The fan is designed as a radial fan and arranged directly in the suction channel. Of the Blower motor receives signals for switching on and off as well as speed from the Control unit.
• 11. A housing is arranged on the machine, in which two video cameras are located. The Cameras are arranged so that the optical axes run parallel to each other horizontal distance between the axes is 12 cm, a vertical distance between the there are no optical axes.
• 12. The camera housing is arranged at a distance from the upper limit of the machine housing net, so that the optical view of the cameras extends up to 0.8 m in front of the machine. The camera body is rotatable around the vertical axis. It is powered by a stepper motor Machine housing is rotated around the vertical axis. The tax information on The engine gets turning from the central control computer.
• 13. There is also a converter in the housing for processing the video signals. Here the signals coming from the cameras are converted into digital signals and at Cached demand.
• 14. On the top of the machine housing, covered by a cover, there are controls directions housed that perform different settings and control functions.
• 15. The central control unit is located in the housing and consists of a microcomputer With read-only memory (EPROM), volatile memory (RAM), computing unit and interface construction groups for incoming and outgoing signals. Signals from the external sensors, the video cameras, the sensors on the brush, the inside of the Saugka nals and the collecting container, the wheel sensors and inputs via the operating device.
• 16. The image data of the two cameras, meanwhile digitized, are included in the control computer compared to others. Using a program, the parallaxes become those of the image data Objects recorded by cameras are calculated. From this the distance of the objects to the The machine is calculated and spatial coordinates are formed in a coordinate system. It a spatial model is created from the data. According to the room model that has been created an algorithm calculates the route and the processing route. The algorithm also takes into account the dimensions of the area when optimizing the route Obstacles and areas already worked on. The data obtained are used in control commands implemented and passed on to the individual tax bodies.
• 20. On the outside of the housing, in the lower area, there are two on each side of the housing Sound and infrared transmitters and receivers arranged.
• 21. The sound sensors and the infrared sensors remove fixed and movable obstacles nisse in the immediate vicinity. By comparing the runtimes can an approximate location as well as an approximate determination of the movement of the handicapped  nisse can be achieved. The results of the measurements are sent to the central control unit passed on.
• 22. The results of the short-range sensors are used for decision making in the optimization The route is not used, but if there are differences between the optically achieved Room image and the result of the close-range sensors is the room image from the control computer checked, for example, collisions with moving objects or living things to exclude.

Various elements, which are not described in detail here, make it smooth unattended operation of the machine is guaranteed. So elements are provided that prevent the failure the machine due to the blockage of the suction channel (e.g. too large piece of paper sucked in) or the Prevent failure due to overfilling of the waste container.

Neither are described the elements that make the machine dangerous in borderline cases Switch off situations for people or the environment.

Claims (12)

1. driving and working robot for the processing of floors, preferably the cleaning of floors in closed rooms, characterized in that it independently orientates itself in the rooms and independently on the basis of an algorithm stored in the common housing housed computer decisions about route and processing intensity and sequence. 2. Driving and working robot according to claim 1, which is without direct influence of the People and without a given route and without a learning phase independently Moving surface moved and processed, z. B. cleans. 3. Driving and working robot according to claims 1-2, characterized in that Meßsenso in the broadest sense, which are the conditions of the space, its expansion, around the driving robot and send the data to a central control computer as in 1. called pass on. 4. driving and working robot according to claim 1, which is characterized in that a or several drive elements drive the wheels. 5. Driving and working robot according to 1, in which one or more wheels around the vertical axis are movably suspended and adjusted in the vertical axis via servomotors can, so that a change of direction is possible. Measuring sensors, e.g. B. Retro-reflective sensors, which measure the movement of the wheel and the signals to the Forward evaluation to the central control unit. 6. driving and working robot according to claim 1-2, wherein the floor cleaning machine or Soil cultivation machine is integrated in the housing and in its work with the Zentralcom computer according to a decision algorithm that is stored in hardware or software, is controlled. 7. driving and working robot according to claims 1-6, which is characterized in that data recorded by measuring sensors an image (model) of the surrounding space in one Computer is created and entered from the model by algorithms stored in the computer optimal and at the same time covering the area is calculated. 8. driving and working robot according to claims 1-6, characterized in that sensors, which are arranged on the outside of the housing, in addition the immediate surroundings record and thus the results of the optical sensors are checked and supplemented.   9. Driving and working robot that is independent of the stationary power / voltage supplies. Accumulators, which are accommodated in the common housing, serve for the energy supply. 10. driving and working robot according to claims 1-6, characterized in that by the data recorded in the central computer, the model of the room is constantly updated. 11. Driving and working robot according to claims 1-6, characterized in that the Use of the integrated processing machine is controlled by the central computer. 12. Driving and working robot according to claim 1-6, characterized in that the sensors Record the condition of the surface and the data obtained influence the regulation of the Machining and the route can have.