Virtual painting system and paint spray gun

Information

  • Patent Application
  • 20060171771
  • Publication Number
    20060171771
  • Date Filed
    September 12, 2005
    19 years ago
  • Date Published
    August 03, 2006
    18 years ago
Abstract
The invention concerns a virtual painting system for simulating a paint application process and the resulting application of paint to a surface. The system includes a virtual paint applicator device, a position detector to detect the spatial position of the paint applicator device with respect to the surface to be painted, a data processing unit and a display device, wherein the position data of the paint applicator device are routed to the data processing unit, where they are converted into video data for rendering the virtual paint application visible, and which are further routed to the display device, in order to show a visual image of the virtual paint application process on the surface to be painted. This painting system makes possible a quick and, at the same time, realistic virtual representation of painting with a paint spray gun.
Description
FIELD OF THE INVENTION

The invention concerns a virtual painting system, more specifically to a virtual painting system for simulating a paint application process and the resulting application of paint to a surface.


BACKGROUND OF THE INVENTION

In the field of painting of surfaces with paint spray guns, it is desirable to consume the least amount of paint, cleaning agent, and painting sample objects during the training of personnel to use the paint spray gun. Thus, the training of painters is done conventionally by the actual painting of various objects, so that the painting is repeated several times for training purposes. The drawback here is that much paint and enamel and cleaning agents are consumed and the painted objects become unusable after several applications of paint, so that they must be disposed of.


Moreover, when preparing paint samples and design proposals for painting tasks, it is desirable to be able to test various paint treatments in a quick, easy, and realistic way. For this purpose, the prior art offers two possibilities, namely, the preparation of actual sample paint treatments or the simulation of a paint treatment by means of a computer-aided drawing and painting software.


The conventional means of preparing sample paint treatments consists of applying the desired paint treatments with an actual paint spray gun onto the surfaces of actual objects, which naturally achieves the original representation of the different coat of paints. The drawback here is that a sample piece must be prepared for each coat of paint, so as to compare the different coats of paint to each other. Especially when the objects to be painted are large and costly, this method is costly and cumbersome. The painting process itself is costly and time-consuming, since the surfaces of the objects first must be prepared for the painting, and the paint or enamel must dry after each coat of paint. It is difficult, if not impossible, to correct mistakes during the painting. Furthermore, paint, enamel, and environmentally harmful cleaning agents are consumed during these sample paint treatments. After selecting the desired paint treatment, the painted objects are destroyed or, if destined for recycling, the paint must be removed from them in a costly manner, thereby entailing the use of cleaning agents that are harmful to human health and the environment.


In an alternative possibility, the desired spray painting can be simulated with computer-assisted painting and drawing software on a conventional data processing system. For this purpose, the simulation of the painting or enameling task is done with conventional computer input devices, such as a computer mouse or computer drawing pen, and the display appears on the monitor of the data processing system. The colors and shapes of the painting or enameling task are set by software in the drawing and painting program, so that the visual display of the painting will appear as close as possible to an actual painting task using a manually operated paint spray gun. The drawback of this computer-assisted simulation of the manual paint application is that the conventional computer input devices-can only inadequately simulate the handling and operation of an actual paint spray gun, so that the simulation of the painting task as displayed on the monitor screen can only inadequately simulate the effects achieved during an actual painting task with an actual paint spray gun. Some effects cannot even be simulated at all in this way, such as bringing the paint spray jet closer to or further away from the surface to be painted.


SUMMARY OF THE INVENTION

The problem of the present invention is therefore to provide a painting system as well as a paint spray gun that enable a fast, resource-, health- and environment-sparing and, at the same time realistic representation of a painting process using a paint spray gun.


This problem is solved by a painting system as set forth in the claims as well as a paint applicator device as also set forth in the claims. Advantageous embodiments of the painting system and the paint applicator device will be found in the dependent claims.


With the virtual painting system and the paint applicator device of the invention it is possible to detect the spatial position of the paint applicator device with respect to the paint application surface and transmit this data to a data processing unit, and to convert the data, using the detected parameters such as distance and speed, and possibly other settings of the spray jet, into video data in the data processing unit and display them on a display device for the depiction of the virtual paint application. In this way, the virtual painting task with the paint applicator device can be depicted on the display device in a realistic manner and in real time.


Another major benefit of the painting system and the paint applicator device of the invention is that the spray parameters which can be set for the paint applicator device, such as the spray nozzle used or the air pressure for the painting task, can be set in a conventional manner and detected by a setting device arranged on the paint applicator and transmitted to the data processing unit. Moreover, it is advantageous if a color selection device makes it possible to change the properties of the paint or enamel being sprayed by the paint applicator device directly on the paint applicator device.




BRIEF DESCRIPTION OF THE DRAWING

Additional features and benefits of the invention will emerge from the following description of a preferred embodiment by means of the following drawing, which shows a virtual painting system with a data processing unit 7, a virtual paint applicator device 1, a position detection 5, 6 and a display device.




DETAILED DESCRIPTION OF THE INVENTION

The virtual paint applicator device in the embodiment shown here is formed by a known paint spray gun 1 with a spray channel through which the paint or enamel located in a reservoir 2 arranged on the paint spray gun is sprayed via a nozzle 3 onto the surface being painted during the actual paint spraying. The quantity of compressed air flowing through the spray channel is controlled by setting a micrometer on the paint spray gun 1 and the position of a trigger 4, which is manipulated by the user of the paint spray gun 1. Instead of the paint spray gun 1, other devices can also be used to simulate application of paint. The virtual paint spray gun 1 need only simulate an actual paint spray gun as much as possible, especially in terms of its size, geometry, weight, etc.


In order to employ the paint spray gun 1 in the virtual painting system of the invention for the simulation of an actual paint application process and the resulting painting without actual paint application, and to depict as realistically as possible and in real time the performed paint application with the paint spray gun 1 on a projection disk 10, the position of the trigger 4 and the position and motion of the paint spray gun 1 relative to the projection disk 10 are detected and transmitted to the data processing unit 7 for calculation of the video data for the visual representation of the virtual paint application process on the projection disk 10. For this purpose, the paint spray gun 1 is configured as described hereafter.


In order to detect the position of the trigger 4, a trigger indicator is arranged on the paint spray gun 1. It detects whether the trigger 4 is activated, and furthermore it preferably detects the precise position of the trigger 4, so that not only the settings “spray channel fully open” and “spray channel closed,” but also intermediate positions can be detected.


In order to detect the position and movement of the paint spray gun 1 relative to the projection disk 10, the position detection 5, 6 has a cylindrical ultrasound receiver 5, which is arranged at the outlet opening of the spray nozzle 3 and whose longitudinal axis coincides with the direction of the paint spray that emerges when the paint spray gun 1 is used in the conventional manner.


The position detection 5, 6 also comprises an ultrasound emitter 6, arranged stationary relative to the projection disk 10, which sends position signals to the ultrasound receiver 5. The ultrasound emitter 6 is connected by a first data line 8 to the data processing unit 7 and is actuated by the latter to send position signals to the ultrasound receiver 5.


Instead of arranging the ultrasound receiver 5 on the paint spray gun 1 and the ultrasound emitter 6 on the data processing unit 7, one can also arrange the ultrasound emitter 6 on the paint spray gun 1 and the ultrasound receiver 5 on the data processing unit 7. In this case as well, the ultrasound emitter 6 is connected to the data processing unit 7. It is also possible to use signal techniques other than ultrasound, such as infrared or radio signals.


Using the control data sent by the data processing unit 7 to the ultrasound emitter 6 and the position signals received from the ultrasound receiver 5, the data processing unit 7 computes the precise spatial position of the paint spray gun 1 relative to the projection disk 10. In addition, the data processing unit 7 can compute the motion of the paint spray gun 1 in space from the position data, as well as the corresponding time data memorized in the data processing unit 7.


For this purpose, one can use a device for three-dimensional position detection, such as that disclosed in WO 92/07346.


By a second data line 9 between paint spray gun 1 and data processing unit 7, which can also be configured as a wireless radio or infrared data transmission, the trigger indicator arranged on the paint spray gun 1 transmits the position of the trigger 4 to the data processing unit 7.


The second data line 9 is also used to relay the paint application parameters which have been set on the setting device of the paint spray gun 1, such as the spray pressure, geometry of the paint spray, and the color settings which have been set on the color selection device of the paint spray gun 1, to the data processing unit 7, where they are used to calculate the video data. The spray paint and the paint application data can also be set, in an alternative embodiment not shown here, on the display device or the data processing unit 7, for example, by means of keyboard entry or a touch screen.


The display device comprises a projection apparatus 11 and a projection disk 10, whose front end facing the paint spray gun 1 serves as the paint application surface 10a for the virtual painting by means of the paint spray gun 1. The projection disk 10 is designed as a back projection disk, so that an image projected from behind onto the projection disk 10 is visible on its front end, i.e., the paint application surface 10a. The projection apparatus 11 is connected via a third data line 12 to the data processing unit 7, in order to use the video data calculated by the latter to project a representation of the virtual paint application onto the back side 10b of the projection disk 10 in real time. Instead of the projection disk 10 and the projection apparatus 1-1 shown here, another means of display can also be used, such as a high-resolution, wide-area monitor, whose display surface then represents the virtually painted surface 10a.


The virtual application of paint with the spray gun 1 on the surface to be painted 10a occurs as follows: the spray gun 1 user sets the necessary spray parameters on the spray gun 1, as in the case of an actual painting task, such as the spray pressure or the geometry of the spray jet. He then carries out the virtual paint spraying on the surface to be painted 10a, making use of the paint spray gun 1 as in an actual painting job.


In order to see at once the outcome of his virtual spraying on the projection disk 10, data relayed from the paint spray gun 1 to the data processing unit 7, i.e., the spatial position of the paint spray gun 1 relative to the projection disk 10, position of the trigger 4, as well as the paint selected at the paint spray gun 1 and the spray parameters, are used to calculate in the data processing unit 7 the visual representation of the application of paint to the front end of the projection disk 10 in real time, corresponding to the actual painting job. For this purpose, reference data records are kept in a data memory of the data processing unit 7, containing reference video data for different sets of spray parameters for the virtual paint applicator device 1. These reference data records have been recorded by actual paint application processes, maintaining the parameters which are stored along with the reference data records. Calculation of the video data of the virtual paint application process is done by comparing the spray parameters detected during the virtual paint application process or the presettings in the data processing unit 7 to the reference data records kept in the data processing unit 7. Insofar as intermediate values of spray parameters are detected or have been set for the virtual paint application process, an interpolation (mathematical model) is carried out between the stored reference data records in order to ascertain the virtual paint image of the virtual paint application process.


The data processing unit 7 then relays the calculated video data via the third data line 12 to the projection apparatus 11, which projects the representation of the paint application onto the back side 10b of the back projection disk 10 in real time.


Thus, the user of the paint spray gun 1 immediately sees the very realistic outcome of his virtual application of paint on the front side of the back projection disk 10.


The virtual painting system of the invention and the paint applicator device of the invention, especially in its embodiment as a paint spray gun, make it possible to train painters in the use of paint application devices without wasting paint, enamel, cleaning agents or painted objects. The virtual paint spray process can also be interrupted at any time, since the virtual paint application is merely stored in the data processing unit 7 and the interrupted paint spray process can be continued later by simply loading the memorized data once again.


Moreover, one can experiment with painting and make corrections in a realistic manner, without the needless waste of paint, enamel or painted objects. The painter can also paint in the usual manner by using an actual paint spray gun, so that the outcome of the virtual painting process comes extremely close to reality. All effects which are achievable by the manual operation of the paint spray gun can therefore be carried out and be appropriately simulated and displayed in the display device. Furthermore, the painter can evaluate and be shown deviations from the ideal values, such as the ideal spray distance and spray angle, which have an influence on the painted surfaces.

Claims
  • 1. Virtual painting system for simulating a paint application process and the resulting application of paint to a surface, comprising a virtual paint applicator device, a position detection to detect the spatial position of the paint applicator device with respect to the surface to be painted, a data processing unit and a display device, wherein the position data of the paint applicator device are routed to the data processing unit and transformed there into video data, which visualize the virtual paint application and which are further routed to the display device, in order to display a visual image of the virtual paint application process on the surface to be painted.
  • 2. Panting system according to claim 1, wherein the virtual paint applicator device is a paint spray gun.
  • 3. Painting system according to claim 1, wherein the position detection has a position transmitter, connected stationary to the data processing unit, for sending position signals, and a position receiver, connected to the paint applicator device, for receiving the position signals.
  • 4. Painting system according to claim 1, wherein the display device has a projection apparatus for projecting the video data onto the paint application surface.
  • 5. Painting system according to claim 1, wherein the paint application surface is the front end of a back projection disk.
  • 6. Painting system according to claim 1, wherein the paint color and/or the spray parameters of the virtual paint applicator device can be set in the data processing system and are used when calculating the video data.
  • 7. Painting system according to claim 6, wherein the data processing unit is designed to calculate the video data from the position of the paint applicator device, the position of the trigger of the paint applicator device and the settings for paint color and the spray parameters.
  • 8. Painting system according to claim 1, wherein reference data records are kept in the data processing unit, which contain reference video data for different sets of spray parameters of the virtual paint applicator device, these reference data records having been recorded by actual paint application processes while maintaining the respective parameters and saved in a memory of the data processing unit.
  • 9. Painting system according to claim 8, wherein the video data are calculated by comparison and interpolation of the detected or present spray parameters against the reference data records kept in the data processing unit.
  • 10. Paint applicator device, especially for use in a virtual painting system according to claim 1, wherein the device has a sensor for detecting the spatial position of the paint applicator device.
  • 11. Paint applicator device according to claim 10, wherein the paint applicator device is a paint spray gun.
  • 12. Paint applicator device according to claim 10, wherein the sensor is a position receiver for receiving position signals sent by a stationary transmitter.
  • 13. Paint applicator device according to claim 10, wherein the sensor is a position transmitter for transmitting position signals.
  • 14. Paint applicator device according to claim 10, wherein the device has a trigger indicator for detecting and relaying the position of a trigger of the paint applicator device to a data processing unit.
  • 15. Paint applicator device according to claim 14, wherein the device has a connection to the trigger indicator for a second data line in order to relay the position of the trigger.
  • 16. Paint applicator device according to claim 14, wherein the device has a trigger transmitter connected to the trigger indicator for relaying the position of the trigger.
  • 17. Paint applicator device according to claim 10, wherein the device has a paint selection device for setting the paint material and relaying that to a data processing unit to make it possible to consider the paint material setting when calculating the video data in the data processing unit.
  • 18. Paint applicator device according to claim 10, wherein the device has a setting device for setting spray parameters at the paint applicator device and relaying same to a data processing unit, in order to be able to consider the spray parameter settings when calculating the video data in the data processing unit.
Priority Claims (1)
Number Date Country Kind
20 2005 001 702.7 Feb 2005 DE national