Color application system and method for operating the same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-012/00
B05B-007/24
B05B-012/12
B05B-007/02
B05B-015/12
출원번호
US-0879166
(2011-09-26)
등록번호
US-9878340
(2018-01-30)
우선권정보
DE-10 2010 060 086 (2010-10-20)
국제출원번호
PCT/EP2011/066665
(2011-09-26)
§371/§102 date
20130628
(20130628)
국제공개번호
WO2012/052255
(2012-04-26)
발명자
/ 주소
Schmon, Ewald
Dettlaff, Peter
출원인 / 주소
SATA GMBH & CO. KG
대리인 / 주소
Bianco, Paul D.
인용정보
피인용 횟수 :
0인용 특허 :
20
초록▼
A color application system and method provide improved results of the color application and the operation of the color application system, for example color application errors due to varying pressure are reduced or eliminated, by using a color application system having one or more receivers for wire
A color application system and method provide improved results of the color application and the operation of the color application system, for example color application errors due to varying pressure are reduced or eliminated, by using a color application system having one or more receivers for wireless data transfer between components of the color application system, wherein one of the components is a color sprayer having a detecting unit for detecting operating parameters of the color sprayer and/or environmental parameters, and a transmitter for wirelessly transferring the operating parameters and/or environmental parameters to the receiver. In a method for operating such a color application system, the operating parameters of spray air pressure and/or optionally the pressure of the medium to be sprayed is detected in or at the color sprayer, and then the detected pressure or pressures are wirelessly transferred to one or more components of the color application system.
대표청구항▼
1. A color application system configured for wireless data transfer between components thereof, the color application system comprising: a color sprayer having a detection unit integrated therein for detecting operating parameters of the color sprayer, the color sprayer configured as a handheld gun
1. A color application system configured for wireless data transfer between components thereof, the color application system comprising: a color sprayer having a detection unit integrated therein for detecting operating parameters of the color sprayer, the color sprayer configured as a handheld gun for manual operation;a compressed air provision connected to the color sprayer by a compressed air line, the compressed air provision having a compressed air source and a compressed air regulator for provisioning of compressed air spray;a medium supply for providing a medium to be sprayed connected to the color sprayer by a medium supply line, the medium supply formed as at least one cup attached to a portion of the color sprayer;a measurement device contained within the detection unit for detecting pressure of the compressed air spray at the color sprayer;a measurement device contained within the detection unit for detecting pressure of the medium to be sprayed at the color sprayer;one or more measurement devices contained within the detection unit for detecting one or more environmental parameters selected from air pressure, air humidity, air speed, and temperature;a receiver contained within the compressed air provision, the receiver for wireless data transfer between the color sprayer and other components of the color application system; anda transmitter for wireless data transfer of detected parameters to the receiver;wherein the receiver and the transmitter are configured and arranged for transferring a detected spray air pressure to the compressed air regulator of the compressed air provision, comparing the detected spray air pressure with a pre-specified theoretical value of spray air pressure, adjusting the detected spray air pressure to adapt to the pre-specified theoretical value of spray air pressure, and transferring the adjusted spray air pressure to the color sprayer; andwherein the color application system is configured such that the compressed air spray and the medium to be sprayed are not mixed prior to the compressed air spray entering the color sprayer. 2. The color application system according to claim 1, wherein the other components of the color application system include one or more of a controller, a display unit, an operating unit, and a spray booth. 3. The color application system according to claim 2, wherein the controller is configured and arranged for monitoring and controlling the operating parameters of the color sprayer and the other components of the color application system. 4. The color application system according to claim 2, wherein the display unit is configured and arranged for displaying the detected parameters and the operating unit is configured and arranged for modifying adjustment parameters. 5. The color application system according to claim 4, wherein the display unit and the operating unit are located in the spray booth or at another site of medium application. 6. The color application system according to claim 4, wherein the display unit and the operating unit are located on the color sprayer. 7. The color application system according to claim 4, wherein the display unit and the operating unit are configured to be transportable. 8. The color application system according to claim 7, wherein the display unit and the operating unit are affixable to a wrist of an operator of the color sprayer. 9. The color application system according to claim 1, wherein the transmitter is integrated or encapsulated within the color sprayer. 10. The color application system according to claim 1, wherein the color sprayer is configured and arranged to spray medium by gravity, suspension, through a cup or cups, or through a hose line or hose lines. 11. The color application system according to claim 1, wherein the receiver and the transmitter are configured for transferring data directly to one another. 12. The color application system according to claim 1, wherein the color application system is configured for radio, WLAN, optical, or Bluetooth wireless data transfer between components. 13. The color application system according to claim 1, wherein the color application system is configured for bidirectional wireless data transfer between components. 14. The color application system according to claim 1, wherein the components are arranged such that medium exiting the medium supply line at the color sprayer is sprayed out using compressed air exiting the compressed air line. 15. The color application system according to claim 1, wherein the medium supply formed as at least one cup is attached to a top portion of the color sprayer, to a bottom portion of the color sprayer, or to at least one side portion of the color sprayer. 16. A color application system configured for wireless data transfer between components thereof, the color application system comprising: a color sprayer having a detection unit integrated therein for detecting operating parameters of the color sprayer;a compressed air provision connected to the color sprayer by a compressed air line, the compressed air provision having a compressed air source and a compressed air regulator for provisioning of compressed air spray;a medium supply for providing a medium to be sprayed connected to the color sprayer by a medium supply line, the medium supply formed as at least one cup attached to a portion of the color sprayer;a measurement device contained within the detection unit for detecting pressure of a compressed air spray to be sprayed at the color sprayer;a measurement device contained within the detection unit for detecting pressure of a medium to be sprayed at the color sprayer;one or more measurement devices contained within the detection unit for detecting one or more environmental parameters selected from environmental parameters, air pressure, air humidity, air speed, and environmental temperature;a display unit located on the color sprayer, the display unit configured and arranged for displaying detected parameters;an operating unit located on the color sprayer, the operating unit configured and arranged for modifying adjustment parameters;a receiver contained within the compressed air provision, the receiver for wireless data transfer between the color sprayer and other components of the color application system; anda transmitter integrated or encapsulated within the color sprayer, the transmitter for wireless transfer of detected parameters to the receiver;wherein the receiver and the transmitter are configured and arranged for transferring a detected spray air pressure to the compressed air regulator of the compressed air provision, comparing the detected spray air pressure with a pre-specified theoretical value of spray air pressure, adjusting the detected spray air pressure to adapt to the pre-specified theoretical value of spray air pressure, and transferring the adjusted spray air pressure to the color sprayer; andwherein the color application system is configured such that the compressed air spray and the medium to be sprayed are not mixed prior to the compressed air spray entering the color sprayer. 17. The color application system according to claim 16, wherein the medium supply formed as at least one cup is attached to a top portion of the color sprayer, to a bottom portion of the color sprayer, or to at least one side portion of the color sprayer. 18. A method for manually operating a color application system, the method comprising: detecting operating parameters of a color sprayer, the color sprayer configured as a handheld gun for manual operation;detecting spray air pressure of compressed air supplied to the color sprayer;detecting pressure of a medium to be sprayed from the color sprayer;wirelessly transferring the detected operating parameters of the color sprayer, the detected spray air pressure, and the detected pressure of the medium to one or more components of the color application system via a transmitter, the one or more components including the color sprayer, compressed air provisions, a medium supply formed as at least one cup attached to a portion of the color sprayer, a controller, a display unit, an operating unit, and a spray booth; andmixing the compressed air and the medium to be sprayed;wherein a receiver for receiving the detected spray air pressure is contained within the compressed air provisions. 19. The method according to claim 18, further comprising displaying the detected operating parameters of the color sprayer, the detected spray air pressure, and the detected pressure of the medium on the display unit. 20. The method according to claim 18, further comprising: transferring the detected spray air pressure to a compressed air regulator of the compressed air provisions;comparing the detected spray air pressure with a pre-specified theoretical value of spray air pressure;adjusting the detected spray air pressure to adapt to the pre-specified theoretical value of spray air pressure; andtransferring the adjusted spray air pressure to the color sprayer. 21. The method according to claim 20, further comprising monitoring the detected spray air pressure, the pre-specified theoretical value of spray air pressure, and the adjusted spray air pressure, wherein if any of the monitored pressures exceeds a maximum pressure of the color application system, displaying an indication of exceeded pressure on the display unit. 22. The method according to claim 18, further comprising: transferring the detected spray air pressure to the controller;comparing the detected spray air pressure with a pre-specified theoretical value of spray air pressure;using the controller to adjust the detected spray air pressure to adapt to the pre-specified theoretical value of spray air pressure; andtransferring the adjusted spray air pressure from the controller to a compressed air regulator of the compressed air provisions. 23. The method according to claim 18, further comprising: transferring the detected pressure of the medium to the medium supply;comparing the detected pressure of the medium with a pre-specified theoretical value of pressure of a medium;adjusting the detected pressure of the medium to adapt to the pre-specified theoretical value of pressure of a medium; andtransferring the adjusted pressure of a medium to either or both of the medium supply and the color sprayer. 24. The method according to claim 23, further comprising monitoring the detected pressure of the medium, the pre-specified theoretical value of pressure of a medium, and the adjusted pressure of the medium, wherein if any of the monitored pressures exceeds a maximum pressure of the color application system, displaying an indication of exceeded pressure on the display unit. 25. The method according to claim 18, further comprising: transferring the detected pressure of the medium to the controller;comparing the detected pressure of the medium with a pre-specified theoretical value of pressure of a medium;using the controller to adjust the detected pressure of the medium to adapt to the pre-specified theoretical value of pressure of a medium; andtransferring the adjusted pressure of the medium from the controller to either or both of the medium supply and the color sprayer.
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