JPH0348846A - Device for applying color developer - Google Patents

Abstract

PURPOSE:To transfer nearly the entire amt. of a color developer to plain paper by forming fluoroplastic films in the rugged parts on the peripheral surface of a color developer carrying roller. CONSTITUTION:The rugged parts extending in the longitudinal direction of a sleeve 31b of the color developer carrying roller 31 are formed on this roller and the surface thereof is coated with the film 31c consisting of the fluoroplastic, more preferably tetrafluoroethylene (co)polymer. The color devel oper 37 in a hopper 36 is taken into the recesses of the roller 31, is shaped to a desired thickness by a blade 33 and is transported to a transfer region 34. The color developer 37 is in succession attracted to electrostatic attraction in the direction of an electrode roller 21, by which the color developer 37 is stuck onto the plain paper 22 transported by a transporting belt 24. The paper 22 is thereafter superposed on exposed microcapsule paper and is pressurized. Images are thus transferred onto the paper 22.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a color developer coating device for applying granular color developer to a support such as plain paper for image recording.

[Conventional technology]

In recent years, as a color copying machine, microcapsule paper is exposed to light through an original, and the exposed microcapsule paper and color developer paper coated with a color developer are pressed together. A type of color image has appeared on the color developing paper by reacting the same color.

However, since such color developer paper is not versatile and is difficult to obtain, an apparatus for applying a color developer to a support such as plain paper has been devised.

In such a device, a particulate color developer is charged and supported on a developer-carrying roller, an electrode roller is placed opposite the developer-carrying roller at a predetermined distance, and the electrode roller is hooked onto the roller. The charged color developer is applied onto a support body conveyed by a passing conveyor belt, by being caused to fly by electrostatic attraction generated by an electric field formed between the color developer carrying roller and the support body. It is something.

[Problem to be solved by the invention]

However, such conventional color developer application devices charge the color developer by friction and cause the charged color developer to be carried on the color developer carrying roller. There was a problem that the amount of color developer used was small.

In order to solve this problem, it is conceivable to use a color developer application device in which a color developer carrying roller is provided with a large number of concave and convex portions, and the color developer is supported on the concave portions. Even if such a developer application device is used, not all of the developer carried in the recesses of the developer-carrying roller is transferred to the support, but some of the developer is transferred to the support. It remains attached to four parts of the developer carrying roller.

Therefore, in order to apply a sufficient amount of color developer using any of the above devices, it is necessary to make the transport speed of the support significantly slower than the rotation speed of the color developer carrying roller, and as a result, the color developer paper It took a lot of time to create.

The present invention was made in order to solve the above-mentioned problems, and it transfers almost the entire amount of the color developer carried on the color developer carrying roller to the support, and as a result, the color developer is transferred to the support. It is an object of the present invention to provide a developer coating device capable of coating a large amount of color developer in a short time.

[Means to solve the problem]

In order to achieve this object, the present invention charges a particulate color developer and causes it to be supported on a developer-carrying roller, and an electrode is arranged to face the developer-carrying roller at a predetermined distance. In a color developer application device that causes the charged particulate color developer to fly and coat the support body conveyed by a conveyance device interlocked with the developer, the developer carrying roller has many irregularities on its surface. The present invention is characterized in that a fluororesin coating is provided on the surface of the uneven portion.

[Effect]

In the developer coating device of the present invention having the above configuration, a large number of uneven parts are formed on the circumferential surface of the developer carrying roller, so that a large amount of the developer is carried on the developer carrying roller. be able to.

In addition, fluororesin has a chemically extremely stable molecular structure that does not incorporate other substances into its molecules, and has excellent heat resistance, chemical resistance, and non-adhesion. By coating the film with such a fluororesin, the adhesive force between the developer and the developer-carrying roller becomes extremely small. Therefore, almost all of the color developer carried on the color developer carrying roller is transferred to the support.

As a result, it becomes possible to apply a larger amount of color developer to the support in a shorter time.

〔Example〕

An embodiment embodying the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of a color developer coating apparatus according to the present invention. It is comprised of a transport unit 20 and a developer supply unit 30 that applies a developer to the support.

The casing 10 of the color developer supply device 1 is provided with an insertion port 11 for inserting the support and a discharge port 12 for discharging the support.

The support conveyance unit 20 includes an electrode roller 21, a DC power source E connected to the electrode roller 21 for applying a predetermined high voltage to the electrode roller 21, and a conveyance roller 2323 disposed at a predetermined position. cage, support 2
The conveyor belt 24 for conveying 2 is the electrode roller 21
The hook is passed to the conveyance roller 23.23.

The developer supply unit 30 also includes a developer carrying roller 31 that is grounded and a developer supplying roller 32 that is auxiliary provided to make the developer carrying roller 31 carry the developer. A homogenizing blade 33 for adjusting the thickness of the layer of color developer supported on the color agent support roller 31 to a predetermined thickness and for removing excess color developer supported on the color developer support roller 31. The removal blade 35 is provided on the downstream side of the transfer area 34. Further, the hopper 36 of the color developer supply unit 30 contains particulate color developer 3.
7 are stored. Then, the support conveyance unit 20
and the color developer supply unit 30 are opposed to each other with a predetermined distance d between them.

The developer carrying roller 31 is shown in FIGS. 2(a) and 2(b).
), it is composed of a core member 31a made of metal such as stainless steel, and a cylindrical sleeve member 31b made of aluminum, for example, arranged around the core member 31a. Further, this sleeve member 31b has groove-shaped concave portions and convex portions extending in the longitudinal direction of the sleeve member formed by knurling as specified in JIS B 0951 on its outer surface, and the surface thereof is made of fluororesin with a thickness of 10 μm. , for example, polytetrafluoroethylene or a copolymer containing polytetrafluoroethylene.
Covered by 31c. Such a color developer carrying roller has a core member 31a,! After combining the sleeve members 31b to obtain a grooved roller, the grooved roller is coated with a molten fluororesin such as polytetrafluoroethylene, and further dried and baked.

The developer coating device 1 configured as described above operates as follows.

When a driving means such as a motor (not shown) is driven, the developer carrying roller 31 and the developer supplying roller 32 are moved to the first
The color developer 37 rotates counterclockwise in the figure, and the stored color developer 37 is transferred to the color developer supporting roller 3 by the color developer supply roller 32.
It is transported to the vicinity of 1. This color developer carrying roller 31
As described above, since a large number of concave portions and convex portions are formed on the circumferential surface of the developer 37, the concave portions of the developer carrying roller 31 are absorbed into the developer 37, and a large amount of the developer is transferred to the developer carrying roller 31. A colorant 37 is supported. Then, the color developer 37 carried on the color developer carrying roller 31 is shaped into a layer having a predetermined thickness by the uniformizing blade 33.

At this time, since the color developer 37 is made of a dielectric material, each particle or aggregate of the color developer 37 is charged by contacting or rubbing against another particle or aggregate. In this state, the overall charge amount of the color developer is neutralized to zero because there are also the same number of color developers of opposite polarity. It is also possible to uniformly charge the color developer positively or negatively by coating the contact surface with an insulating polymeric material. In this way, the developer 37 is charged and carried on the surface of the developer carrying roller 31 and is conveyed toward the transfer area 34 .

On the other hand, a support 22 such as plain paper to which a color developer is applied is inserted into the casing 10 from the insertion opening 11, and is conveyed to the transfer area 34 by the conveyance belt 24 by rotation of the electrode roller 21 and conveyance rollers 23 and 23. be done. The electrode roller 21 is made of metal, and a voltage of, for example, -1 kV is applied by a DC power source E, so that an electric field is generated in the transfer area 34. The charged color developer 37 supported in a layer on the surface of the color developer supporting roller 31 is attracted by electrostatic attraction in the direction of the electrode roller 21 according to the electric field generated in the transfer area 34, and as a result, the color developer 37 is attracted to the electrode roller 21 by electrostatic attraction. A color developer is applied to the At this time, since a coating 31c of a fluororesin such as polytetrafluoroethylene is formed on the surface of the developer carrying roller 31, almost all of the carried developer is transferred to the support.

Thereafter, there is a small amount of developer that was not attracted to the electrode roller 21 even by electrostatic attraction on the surface of the developer-carrying roller 31, but these are removed when the tip of the grounded removing blade 35 carries the developer. By contacting the surface of the roller, the charge is removed and the charge is also neutralized.

Then, the support coated with the color developer is conveyed according to the operation of the support conveyance unit 20 and is discharged from the discharge port 12 to the outside of the casing 10 .

Next, an image forming apparatus using the color developer coating apparatus according to the present invention will be explained with reference to FIG.

FIG. 3 shows a color image recording device 40 equipped with an embodiment of the color developer coating device according to the present invention.
0 has an exposure device 41.

Microcapsule paper (light-sensitive and pressure-sensitive paper) 4 is run between a paper feed roll 42 and a take-up roll 43 by this exposure device 41.
4 is exposed through the original 45.

A color developer coating device 1 according to the present invention is provided approximately at the center of the casing 46 of the color image recording device 40,
The support 22 is configured to be fed into the developer coating device 1 through the insertion port 11 by a feed roller 14 from the upper opening of the support cassette 13 .

A pressure developing device 47 is provided near the developer coating device 1, and in this pressure developing device W47, the microcapsule paper 44 exposed by the exposure device 41 and the developer coating device 1 The color developer paper 48 on which the color developer 37 is coated on the support 22 is superimposed and pressure developed, and a color image is developed on the color developer paper 48. After pressure development has been performed by the pressure developing device 47, the color developing paper is subjected to a fixing action by a heat fixing device 49.

The exposure device 41 has a halogen lamp 50, and below the halogen lamp 50, a rotating color separation filter 51 for the three primary colors is provided. This color separation filter 5
1 , a document 45 is placed on a document table 52 . Guide rollers 53 are provided on the left and right sides of this document table 52.
53 is provided, and the microcapsule paper 44 exposed by the exposure device 41 passes through guide rollers 53 and 53 provided on the downstream side thereof, and then passes through the pressure developing device 4.
Supplied within 7 days.

A developer 3 is applied onto the support 22 by the developer coating device 1.
The color developing paper 48 coated with 7 is sent between the pressure rollers 55 and 55 of the pressure developing device 47 while being superimposed on the microcapsule paper 44 by a guide roller 54. A pressure developing action is performed by the pressure applied by the pressure roller 55.

The microcapsule paper 44 that has passed through the pressure developing device 47 is wound up by a winding roller 43. On the other hand, the color developing paper 48 that has passed through the pressure developing device 47 passes through the guide roller 56, passes through the heat fixing device 49, further passes through the guide roller 57, and is discharged to the outside.

It should be noted that the developer coating device of the present invention described above is not limited to this embodiment, and modifications can be made within the scope of the invention. The sleeve member used in the present invention is not limited to one in which the uneven portion is formed in the shape of a groove, but may be one in which the unevenness is uniformly provided over the entire surface of the sleeve member, for example. Further, the developer carrying roller may have a structure in which a core member and a sleeve member are integrated.

〔Effect of the invention〕

As is clear from the detailed description above, according to the present invention, by providing the developer-carrying roller with unevenness, it becomes possible to carry a large amount of the charged color developer, and Since the surface of the roller is coated with a highly non-adhesive fluororesin, almost all of the developer supported on the developer-carrying roller is applied to the support by electrostatic attraction, resulting in color development. It becomes possible to apply the agent to the support more quickly and stably.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an embodiment of the color developer coating device of the present invention, FIG. 2(a) is a front view showing a color developer carrying roller,
Fig. 2(b) is a side view showing the developer carrying roller;
The figure is a schematic configuration diagram of a color image recording apparatus to which the color developer coating apparatus of the present invention is applied. 1... Color developer application device, 21... Electrode roller 2.
2... Support, 24... Conveyor belt, 31... Color developer carrying roller 37... Color developer.

Claims (1)

[Scope of Claims] 1. A particulate color developer is charged and supported on a color developer supporting roller, and an electrode is arranged to face the color developer supporting roller at a predetermined interval and interlocked with the electrode. In a color developer application device that causes the charged particulate color developer to fly and coat the support conveyed by a conveyance device, a large number of uneven portions are formed on the circumferential surface of the color developer carrying roller. A color developer coating device characterized in that a fluororesin coating is provided on the surface of the uneven portion. 2. The color developer coating device according to claim 1, wherein the fluororesin is polytetrafluoroethylene or a copolymer containing polytetrafluoroethylene.