Claims
- 1. In an image development apparatus applying liquid toner to a surface bearing a latent image, a method of automatically cleaning toner contacting portions of the image development apparatus comprising,
- continuously circulating a stream of clear fluid dispersant in a circulation path,
- periodically injecting color concentrate into said clear fluid dispersant to form a dispersant-concentrate mixture for toning a latent image, then
- decomposing the dispersant-concentrate mixture into clear dispersant and color concentrate after said toning said image so that said dispersant-concentrate mixture exists only during the toning of said latent image.
- 2. The method of claim 1 further defined by collecting and re-using said clear dispersant and color concentrate.
- 3. The method of claim 2 further defined by recirculating dispersant in said stream of clear fluid dispersant.
- 4. In an image development apparatus applying a liquid toner to a surface bearing a latent image, a method of automatically cleaning toner-contacting portions of the image development apparatus comprising,
- continuously circulating a stream of clear fluid dispersant in a circulation path from a first supply tank to a toner fluid applicator and back to said supply tank,
- injecting and mixing color concentrate from a second supply tank into said stream of clear fluid dispersant to form a stream of liquid toner only in time periods when toner is to be applied to a surface bearing a latent image,
- collecting excess and used toner and then decomposing said excess and used toner to reobtain clear dispersant and color concentrate,
- returning said clear fluid dispersant and said color concentrate to respective first and second supply tanks, and
- stopping said injecting of color concentrate at the end of each toner application time period, whereby said continuously circulating stream of fluid dispersant rinses clear said toner fluid applicator and other portions of said circulation path having had contact with said liquid toner.
- 5. The method of claim 4 wherein injecting and stopping said injecting said color concentrate comprises turning a pump on and off, respectively.
- 6. The method of claim 4 further defined by treating said excess toner electrically so as to separate charge-bearing solid pigment particles from said toner, substantially particle-free fluid dispersant being returned to said supply tank, said particles collecting on a particle accumulating surface and subsequently removed from said accumulating surface for return to a concentrate tank.
- 7. The method of claim 4 further comprising pre-wetting said surface bearing a latent image with fluid dispersant prior to applying toner to said surface.
- 8. The method of claim 4 further defined by a first color concentrate being injected into said stream of fluid dispersant to form a first fluid toner, injection of said first color concentrate being stopped at an end of a first time period and thereafter rinsing said first fluid toner from said circulation path, and
- a second color concentrate being injected into said stream of fluid dispersant to form a second fluid toner, injection of said second color concentrate being stopped at an end of a second time period and thereafter rinsing said second fluid toner from said circulation path.
- 9. A method of automatically cleaning toner-contacting portions of an electrostatic color printer comprising,
- continuously circulating a stream of fluid dispersant in a circulation path from a supply tank to a toner fluid applicator and back to said supply tank,
- injecting and mixing a color concentrate containing charge-bearing solid pigment particles of a first color into said stream of fluid dispersant to form a first liquid toner during a first time period, said toner being applied at said toner fluid applicator to a surface bearing a first electrostatic latent image during said first time period, excess toner being collected and electrically treated so as to separate said charge-bearing solid pigment particles therefrom, substantially particle-free dispersant obtained thereby being returned to said supply tank,
- stopping said injecting of said color concentrate at an end of said first time period, whereby said continuously circulating stream of fluid dispersant rinses said first fluid toner from said circulation path,
- injecting and mixing a color concentrate containing charge-bearing solid pigment particles of a second color into said stream of fluid dispersant to form a second liquid toner during a second time period, said second toner being applied at said toner fluid applicator to said surface bearing a second electrostatic latent image during said second time period, excess toner being collected and electrically treated so as to separate said charge-bearing solid pigment particles therefrom, substantially particle-free dispersant obtained thereby being returned to said supply tank, and
- stopping said injecting of said color concentrate of the second color at an end of said second time period, whereby said continuously circulating stream of fluid dispersant rinses said second fluid toner from said circulation path.
- 10. The method of claim 9 wherein said pigment particles separated from said excess first and second toner are returned to respective tanks of first and second color concentrate.
- 11. The method of claim 9 wherein injecting and stopping said injecting of said color concentrates comprise respectively turning on and turning off a pump.
- 12. The method of claim 9 further comprising pre-wetting said surface with fluid dispersant prior to applying said first toner thereto.
CROSS-REFERENCE TO RELATED APPLICATION
This is a continuation-in-part of application Ser. No. 77,104 now U.S. Pat. No. 4,799,452, filed July 23, 1987.
US Referenced Citations (7)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
77104 |
Jul 1987 |
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