Multiplex image reproducing method

Abstract

A method of reproducing multiplex images wherein an electrostatic image is formed on an image retainer by using a common electrostatic image forming device, the electrostatic image formed on the image retainer is developed, the steps of the above are repeated to superpose a plurality of toner images on the image retainer, and the toner images is transferred on a recording paper by one step. The developings other than the first time developing are carried out in such a manner that the surface of a developer layer on a developer feeding carrier does not contact with the surface of the toner image on the image retainer.

Claims

electrostatic images substantially to 0..!..Iadd.27. A method of reproducing multiplex images comprising the steps of

image exposure to form an electrostatic image on an image retainer having thereon an electrostatic image retaining layer by using an electrostatic image forming device,

developing the electrostatic image formed on the image retainer to form a toner image, said developing being carried out by applying an oscillating electric field between the image retainer and a developer feeding carrier to develop said electrostatic images,

repeating the foregoing steps to superpose a plurality of toner images on the image retainer, and transferring the toner images onto a recording paper in one step;

wherein said image exposure comprises dot exposing said retainer in which at least one portion of a dot of a preceding image exposure and at least one portion of a dot of a following image exposure are superposed on each other..Iaddend..Iadd.28. The method of reproducing multiplex images according to claim 27 wherein developings other than first time developing are carried out in such a manner that the surface of a developer layer on a developer feeding carrier does not contact the surface of the toner image on the image retainer..Iaddend..Iadd.29. The method of reproducing multiplex images according to claim 28 in which said dot of said preceding image exposure and said dot of said following image exposure can be varied in size..Iaddend..Iadd.30. The method of reproducing multiplex images according to claim 28 wherein the electrostatic image retaining member of the image retainer consists of a photosensitive member..Iaddend..Iadd.31. The method of reproducing multiplex images according to claim 28 wherein the electrostatic image retaining member of the image retainer consists of a dielectric member..Iaddend..Iadd.32. The method of reproducing multiplex images according to claim 28 wherein a two-component developer having a toner and an insulating carrier is used..Iaddend..Iadd.33. The method of reproducing multiplex images according to claim 28 wherein a one-component

developer consisting of an insulating toner is used..Iaddend..Iadd.34. The method of reproducing multiplex images according to claim 28 wherein the image retainer consists of an image retainer formed by laminating a photoconductive photosensitive layer and a transparent insulating layer, in that order, on an electroconductive supporting member, and the electrostatic image for forming a toner image is formed by uniform primary charging on said photosensitive image retainer, in the first developing, uniform secondary charging in a polarity reverse to said primary charging and sequential image exposure, said primary charging dropping a potential of the electrostatic images substantially to zero..Iaddend..Iadd.35. The method of reproducing multiplex images according to claim 28 wherein the image retainer consists of a photosensitive image retainer formed by laminating a photoconductive photosensitive layer and a transparent insulating layer on an electroconductive supporting member, in that order, the electrostatic image for forming a toner image is formed by primary charging, secondary charging, image exposure simultaneous with the secondary charging, and sequential uniform exposure, said primary charging dropping a potential of the electrostatic image substantially to zero..Iaddend..Iadd.36. The method of reproducing multiplex images according to claim 28 wherein the image retainer consists of a photosensitive image retainer formed by laminating a photoconductive photosensitive layer and a transparent insulating layer on an electroconductive supporting member, in that order, the electrostatic image for forming a first toner image is formed by primary charging, secondary charging and sequential image exposure, said primary charging dropping a potential of the electrostatic images substantially to zero, and then the electrostatic image for forming a second toner image is formed by primary charging, secondary charging, and sequential image exposure, said primary charging dropping a potential of the electrostatic images substantially to zero..Iaddend..Iadd.37. The method of reproducing multiplex images according to claim 28 wherein the image retainer consists of a photosensitive image retainer formed by laminating a photoconductive photosensitive layer and a transparent insulating layer on an electroconductive supporting member, in that order, the electrostatic image for forming a first toner image is formed by primary charging, secondary charging, image exposure simultaneous with the secondary charging and sequential uniform exposure, said primary charging dropping a potential of the electrostatic images substantially to zero, and then the electrostatic image for forming a second toner image is formed by primary charging, secondary charging, image exposure simultaneously with the secondary charging and sequential uniform exposure, said primary charging for forming said second toner image dropping a potential of the electrostatic images substantially to zero..Iaddend..Iadd.38. The method of reproducing multiplex images according to claim 27 wherein said image retainer is formed by laminating a photoconductive photosensitive layer and a transparent insulating layer on an electroconductive supporting member..Iaddend..Iadd.39. In a method of reproducing multiplex images comprising the steps of forming an electrostatic image on an image retainer, developing the electrostatic image formed on the image retainer by using a developer consisting of a plurality of components, and repeating the steps of the above to superpose a plurality of toner images on the image retainer, the improvement characterized in that each developing step is carried out under the conditions mentioned below:

smaller absolute value of mean charge quantity..Iaddend..Iadd.47. The method of reproducing multiplex images according to claim 44 wherein the multiplex images are formed by reducing successively the amplitude of an AC component of electric field applied between the image retainer and the developer feeding carrier in each repetition of the developing step..Iaddend..Iadd.48. The method of reproducing multiplex images according to claim 44 wherein the multiplex images are formed by increasing successively the frequency of an AC component of electric field applied between the image retainer and the and the developing feeding carrier in each repetition of the developing step..Iaddend..Iadd.49. In a method of reproducing multiplex images comprising the steps of forming an electrostatic image on an image retainer, developing the electrostatic image formed on the image retainer by using a developer consisting of a plurality of components, and repeating the above steps to superpose a plurality of toner images on the image retainer, the improvement characterized in that each developing step is carried out under the conditions mentioned below:

retainer..Iaddend..Iadd.52. A method of reproducing multiplex images comprising the steps of image exposure to form an electrostatic image on an image retainer having thereon an electrostatic image retaining layer by using a common electrostatic image forming means, developing the electrostatic image formed on the image retainer to form a toner image, repeating the above steps to superpose a plurality of toner images on the image retainer, and transferring the toner images on a recording paper in one step, wherein said image retainer is a photoconductive photosensitive member, said image exposure is carried out by uniformly charging said photoconductive photosensitive member and dot exposing said member whereby at least one portion of a dot of the preceeding image exposure and at least one portion of a dot of the following image exposure are superposed, and the developing, other than the first time developing, being carried out in such a manner that the surface of a developer layer on a developer feeding carrier does not contact the surface of the toner image on the image retainer..Iaddend..Iadd.53. The method of reproducing multiplex images according to claim 52 further comprising eliminating residual electric charges on said image retainer wherein the repeating step is conducted by repeating the forming of the electrostatic image, the

developing and the charge-eliminating..Iaddend..Iadd.54. A method of reproducing multiplex images comprising the steps of forming an electrostatic image on an image retainer having thereon an image retaining layer by using a common electrostatic image forming device, said electrostatic image forming device comprising a charger and a dot exposing means for said image retainer, developing said electrostatic image, to form a toner image comprising toner dots, said electrostatic image being developed with a toner having a charge of the same polarity as that of the charge of the electrostatic image, repeating the above steps to superpose a plurality of the toner images on said image retainer, each of the toner images being formed during separate rotations of said image retainer, and transferring the toner images onto a recording paper in one step, the developing other than the first time developing being carried out in such a manner that the surface of a developer layer on a developer feeding carrier does not contact the surface of the toner on said image retainer..Iaddend.