JPS59195675A - Transfer tool of visual image - Google Patents

Abstract

PURPOSE:To obtain an up-to-date visual image transfer tool solving a trouble related to the permanent deformation of an elastic body by interposing an elastic body having specific hardness on a part where a frame body and a film member are superposed each other to press the elastic body always with a visual image carrier, and at the time of non-transfer, fixing a home position so that a coupling part free from the elastic body is contacted with the visual image carrier. CONSTITUTION:A visual image transferring member 1 has a metallic frame body and a film member F. The frame body consists of two coaxial annular parts 1A, 1B which are spaced by a prescribed distance and a coupling part 1c coupling these annular parts 1A, 1B and a clamber CL is formed on the coupling part 1C. The film member F consists of an insulating film with about 200mum thickness e.g. such as ''Mylar'' film and is wound around the frame body to form a cylindrical periphery together with the coupling part. On the part OW where the frame body and the film member are superposed, the elastic body consisting of natural rubber, urethane rubber or silicone rubber having 40-50 hardness is interposed between the frame body and the film member F. The home position is fixed so that the coupling body 1C on which the clamber is formed is contacted with a photosensitive body 2.

Description

[Detailed description of the invention] (Technical field) This invention is Visible II! Regarding transfer tools.

(Prior Art) A frame body has two coaxial ring-shaped parts spaced apart from each other by a certain distance, and a connecting part that connects the straw ring-shaped parts to form a clap/pa; It has a film member that is wrapped around a frame and forms a cylindrical circular surface together with the connecting portion, and the curved portion holds a sorted transfer medium such as paper and is used as a visible image carrier. BACKGROUND OF THE INVENTION Visible image transfer tools are known that are used to transfer a visible image on a carrier onto a transfer medium.

As a problem with such a visible image transfer device.

Since the sorted transfer medium is held on the cylindrical circumferential surface of the visible image transfer tool, it may become visible when the visible image is transferred.

In addition, at the part where the visible image carrier and the transfer medium come into rolling contact, corona discharge is performed from the back side of the film member to uniformly charge the back side to generate a transfer electric field. Since the contact is like a line contact, uneven charging tends to occur, and this uneven charging tends to cause transfer defects.

In order to solve this problem, an elastic body is interposed in the overlapping part of the frame and the film member of the visible image transfer tool.
By pressing against a visible image carrier, which is a visible image transfer tool, the transfer medium and the visible image carrier come into surface contact by utilizing the deformation of the elastic body during transfer. A visible one-elephant transfer tool has also been proposed.

This improvement effectively solves the aforementioned problems of decreased sharpness (I7) and uneven charging.

If the pressing force that presses the visible image transfer tool against the visible image carrier is not released even when the transfer is not performed, the elastic body at the contact area between the two may be permanently deformed. This deformation adversely affects the durability of the resist 1 and the visible image transfer tool. Furthermore, when a visible image transfer device is used in a color separation type color copying machine, the misalignment of the resist causes color distortion and is a decisive drawback. To avoid this problem, the visible image transfer tool can be
11 The pressure applied to the carrier may be released during non-transfer, but this J! A complex mechanism is required to realize 1.

(Objective) Therefore, an object of the present invention is to provide a new visible image transfer tool which solves the problem of permanent deformation of the elastic body without using any special structure.

(composition) The present invention will be explained below.

The visible image transfer device (σ) of the present invention includes a frame and a film member.

The frame has two ring-shaped parts and a connecting part. 2
The two ring-shaped parts are at a certain distance from each other! #ll apart,
Moreover, they are coaxial with each other. Also, the connecting part ()-1 ko' 1 and 2
It connects two ring-shaped parts, but does not form a cla/pa.

The film member is wound around the frame and forms a cylindrical peripheral surface together with the connecting portion IS.

Hardness 4 is applied to the overlapping parts of the frame film member.
0 to 50 elastic bodies are interposed.

And, this visible image transfer tool is always applied with an appropriate pressing force.
The home position is determined such that the connecting portion, which is in pressure contact with the visible image carrier but does not have an elastic body, comes into contact with the visible image carrier during non-transfer.

Hereinafter, description will be given based on specific examples.

Figure 1 shows a visible image transfer member embodying the present invention.

This visible image transfer member 1 includes a metal frame and a film member F.
It has

The frame has two coaxial ring-shaped parts IA and iB that are spaced a predetermined distance from each other and a connecting part IC that connects the stiffeners, and a clapper CL is formed in the connecting part. .

The film member F is, for example, an insulating film having a thickness of 100 μmN degrees, such as a Mylar film, and is wrapped around the frame to form a circular surface in the shape of a cylindrical circumferential surface together with the connecting portion.

The part where the frame body and the film member overlap, that is, the spear 1
In the shaded part OW in the figure, the hardness is 40 to 50.
A zero elastic body is interposed between the frame and the film member F. Figure 3 shows this state. The symbol EL/1' in FIG. 3 indicates an elastic body.

This elastic body EL has a hardness of 40 to 50, and examples thereof include J4 physical K&2, urethane rubber, ethylene propylene rubber, natural rubber, silicone rubber, and the like.

The outer circumferential surface of the film member F17) forms a smooth cylindrical circumferential surface together with the portion of the connecting portion rc that does not cover the film member.

The appropriate thickness for the elastic body EL '7') is 1 to 37n7π, but a value around 27t1711 is practical.・
2 figures & 1. Only the parts necessary for explanation of the color copying equipment using this visible image transfer tool are schematically shown for explanatory purposes.

In the figure, reference numeral 2 is a light body since it is a visible image carrier, 1 and 3 are chargers, 4 is a color separation filter, 5, 6.7 are developing devices, 8 is a resist roller, 9 is a transfer charger/key, 1o is a static elimination charger, 11 is a claw, 12 is a pre-cleaning charger, 13 is an cleaner, 14 is a snow removal charger, shown below.

The light suppressor 2 is drum-shaped, and its diameter is <+zo)4rl, which is the same as the width of the visible image transfer member 1. Visible image transfer tool 1) Pu 1, with a pressing force of J~z kg; suppresses the body and light body 2, but when not transferring, that is, when color copying is performed and there is no fang 1 As shown in Figure 3, the home position is determined so that the connecting portion 1c formed with the clamper comes into contact with the light body 2.

During copying, the photoreceptor 2, the controller O1, and the image transfer tool 1 rotate in synchronization with each other in the direction of the arrow.

The photoreceptor 2 is uniformly charged by the Charcher 3.

Next, the image of the document is exposed by the color-separated light image of the document by the Finotor 4. The electrostatic latent image formed in this way is developed by the forging device 5 using a colored toner complementary to the color of the color separation.

A notebook-shaped transfer paper S as a transfer medium is fed from a cassette (not shown), and is placed at a destination D: fA k v
The troller 8 holds the teeth 1 and waits for 1, and the transfer iron 1
0 times*! 1. Clamp the WJ to the visible image transfer tool 7) Clamp/Paper.

It is held on the circumferential surface of the image transfer tool 1, and the transfer section'\ feeding fang 1 overlaps the visible image on the photoreceptor 2''. At this time, the transfer charger 9 & fucorona are released to charge the inner circumferential surface of the film member of the visible image transfer tool 1 to the opposite polarity to the visible image, and thus the visible image on the photoreceptor 2. is transfer paper S
transferred on top. At this point, due to the deformation of the elastic body EL, the contact between the transfer paper S and the photoreceptor 2 becomes surface contact.

Visible image +7) After transfer, photoreceptor 2&'! After being subjected to corona discharge by the pre-cleaning charger 12, residual toner is removed by the cleaner 13, and static electricity is further removed by the static elimination charger 14.

Next, is the photoreceptor 2 uniformly charged by the charr/yar 3?
Then, the above-mentioned process D is repeated. However, the color separated by the filter 4 changes, and the developing device 6 performs development using a tantatoner, which is colored in a complementary color to the separated color. If you get a visible image,
As described above, the visible image is transferred onto the transfer paper S in a superimposed manner with the previously transferred visible image in alignment. The same process is performed once again with different colors of color separation. This time, the gong 5 image device 7 is used.

The colors used for color separation constitute three primary colors, and the three toner colors used for ribs and images also constitute three primary colors that are complementary to the colors for color separation.

Therefore, when the visible f-image obtained by the developing unit 7 is transferred onto the transfer paper S, the images of the three primary colors are superimposed and transferred onto the transfer paper S, and one transfer is performed. Photographed 3
A visible image of the seeds provides a visible image of a color reproduction.

After the visible image has been transferred, the photoreceptor 2 is subjected to removal of residual toner and neutralization.

On the other hand, the visible image transfer tool 1 is neutralized by the static eliminating charger 10, and the clamp on the transfer paper S is released.

Subsequently, the transfer paper S is separated from the visible image transfer tool 1 by the action of the separation claw 110. After I7'), the color visual image is fixed on the transfer paper S by a fixing device (not shown), and the transfer paper S is discharged to the outside of the device.

(Effects) The visible image transfer device according to the present invention has an elastic body interposed in the overlapping portion of the frame and the film member, and is constantly pressed against the visible image holder, so that during transfer, The contact between the transfer medium and the visible image becomes surface contact, and uneven charging due to the transfer charger does not occur, and the visible image can be transferred without deteriorating the printing properties. Practical example C) mentioned above
In this case, the thickness of the elastic body is 1 to 3 mm, the original diameter of the film member is 1 ( ) 0 μm, the diameter of the visible image transfer tool and the photoreceptor is 1201
1. Pressing force j ~ z kri ψ) 83, in the transfer part,
When the transfer medium (transfer II) comes into contact with the visible image carrier, the cavity, the light body, an area of 111 fields 31 1π valleys is brought into contact.

In addition, when the transfer is slow, the connecting part of the frame without the elastic body is pressed against the optical iron carrier, so there is no problem caused by deformation of the elastic body or bending. .

[Brief explanation of the drawing]

Figure 1.1 is a perspective view showing an actual example of the present invention, and Figure 2 is an explanatory front view of important parts of an example of a color copying machine using the visible image transfer tool shown in Figure 1. Figure 3 is the actual sister example shown in Figures 1 and 1.・The usage example shown in Figure 2 is shown. It is a diagram for explaining the home position. 1... Visible image transfer tool, IA, IB... Ring-shaped part, IC... Connecting part, CL... Clamper, F...
...Film 8B+4, OW...The part where the film member F and the frame overlap and where an elastic body should be interposed, EL...Elastic body, 2...As a visible image carrier photoreceptor

Claims (1)

[Claims] A frame body having two coaxial ring-shaped parts spaced apart from each other by a certain distance and a connecting part connecting the stiff ring-shaped parts and forming a clamper, and this frame. a film member that is wrapped around the body and forms a cylindrical circumferential surface together with the connecting portion, holding a sheet-like transfer medium in the curved portion, and rolling contact with the visible image carrier; used to transfer the visible image on the visible image carrier onto the transfer medium;
The visible image transfer device has a hardness of 40 to 40 in the area where the frame and the film member overlap.
5017) An elastic body is interposed to press the visible image carrier at all times, and when non-transfer is performed, there is a connecting portion without an elastic body. A special feature is that the home position is determined so as to be in contact with the visible image carrier. Visible image transfer tool.