CN103592832B - Imaging device and printing transferring method thereof - Google Patents

Abstract

The present invention relates to a kind of imaging device, comprise photosensitive drums and transfer member, the developer that this imaging device uses is magnetic developer, and wherein transfer member is a crosstalk part.Because transfer member is a crosstalk part, magnetic field can be set up in interval between crosstalk part and photosensitive drums, make the magnetic developer imaged in photosensitive drums be transferred to by print media therebetween or on being positioned at therebetween offset medium by the effect in magnetic field; Compared with prior art, owing to being use the transfer that magnetic field is magnetic developer to provide external force, overcoming in prior art and be difficult to charge to some thicker print media and realize the problem of transfer printing; So this imaging device not only can realize the transfer printing to print media such as the paper of routine, the printing that could need realize thicker dull and stereotyped print media with existing flat-panel printer can also be realized.In addition, a kind of printing transferring method being suitable for imaging device transfer printing is also provided.

Description

Imaging device and printing transferring method thereof

Technical field

The present invention relates to a kind of imaging device and printing transferring method thereof, particularly relate to a kind of utilize magnetic printing transferring method to carry out transfer printing imaging device and printing transferring method.

Background technology

Imaging device is a kind of the most frequently used computer peripheral equipment, mainly comprises laser printer, duplicating machine and Multi Role Aircraft etc.; They all need to carry out transfer printing in the course of the work, namely the developer imaged in photosensitive drums are transferred on print media; It is the characteristic utilizing positive negative electricity attracting, applies positive electricity, attract and complete transfer process to developer electronegative in photosensitive drums by transfer roll to conventional print media such as paper; The dull and stereotyped print media be difficult to such as plastics, pottery etc. are thicker due to existing imaging device applies electric charge, cannot complete the transfer printing to above-mentioned dull and stereotyped print media.

For the problems referred to above, prior art utilizes the ink-jet printer improved, i.e. flat-panel printer, prints above-mentioned dull and stereotyped print media, and existing print speed and the better imaging device of print quality cannot be utilized to print, limit the dull and stereotyped range of application printed; Below will be described the existing imaging device course of work for laser printer, Fig. 1 is the structural representation of transfer printing and fixation part in existing laser printer, and this laser printer comprises handle box, transfer member and fixing; Handle box comprises powder storehouse 1, powder outlet cutter 2, developer roll 3, photosensitive drums 4, cleaning doctor 5, waste powder hopper 6 and charging roller 7; Transfer member comprises transfer roll 10, and fixing comprises fixing roller 8 and downforce roller 9; Groundwork process can be divided into seven steps such as charging, exposure, development, transfer printing, fixing, clean, electric eliminating.(1) charge: charging roller 7 pairs of photosensitive drums 4 are uniformly charged; (2) expose: laser scanner launches the laser through ovennodulation containing image information to photosensitive drums 4, form the electrostatic latent image corresponding with image to be copied on photosensitive drums 4 surface; (3) develop: due to the rotation of developer roll 3, developer between developer roll 3 and powder outlet cutter 2 is charged because of spin friction, because of the pressure extrusion of powder outlet cutter 2, thickness is evenly distributed on developer roll 3 charged developer again, when developer roll 3 rotates to the position corresponding with photosensitive drums 4, charged developer is transferred to photosensitive drums 4 surface because of the effect of electric field force make electrostatic latent image convert visual image to; (4) transfer printing: along with the rotation of photosensitive drums 4, the positive voltage effect that the print media back sides such as transfer roll 10 pairs of paper apply, produce attractive force to the electronegative developer defining visual image at photosensitive drum surface, the visual image formed by developer is transferred on the print media such as paper; (5) fixing: paper enters between fixing that is made up of upper warm-up mill 8 and lower backer roll 9 subsequently, and developer fuses into print media under the action of heat and pressure, then the visual image that developer is formed solidifies completely and record on the print medium; (6) clean: developer residual in cleaning doctor 5 pairs of photosensitive drums 4 cleans; (7) electric eliminating: utilize charging roller 7 to eliminate residual charge in photosensitive drums 4; Laser printer completes through these seven basic steps and once prints, and repeats above-mentioned 7 steps and completes high-quality print job rapidly.

The imaging devices such as duplicating machine, facsimile recorder and Multi Role Aircraft, all comprise transfer member and fixing two parts in above-mentioned laser printer, although other parts are not exist with the form of handle box, but all comprise the parts such as photosensitive drums, developer roll and charging roller, its transfer printing principle and process identical with laser printer.If can by changing the printing transferring method of these imaging devices, transfer printing can be carried out to dull and stereotyped print media such as thicker pottery, plastics, then can print high-quality color character and image rapidly on these dull and stereotyped print media, and the printing technique to dull and stereotyped print media in prior art can be simplified.

In addition, use existing laser printer to carry out in the technology of hot transfer printing, need the paper to hot transfer printing uses to carry out coating process, be transferred to after on paper to realize developer, in the process being transferred to object, allow developer easily and paper stripping; If when using laser printer to carry out hot transfer printing, not needing to carry out coating process to print media such as paper, even not needing the print media such as corresponding paper, then can reduce the expense of this hot transfer printing and simplify corresponding technique.

Summary of the invention

Fundamental purpose of the present invention is to provide a kind of imaging device utilizing magnetic printing transferring method to carry out transfer printing.

Another object of the present invention is to provide a kind of printing transferring method being applicable to above-mentioned imaging device transfer printing.

For realizing above-mentioned fundamental purpose, imaging device provided by the invention comprises photosensitive drums and transfer member; Wherein, the developer that this imaging device uses is magnetic developer, and transfer member is a crosstalk part.

From above scheme, because transfer member is a crosstalk part, magnetic field can be set up in interval between crosstalk part and photosensitive drums, make the magnetic developer imaged in photosensitive drums be transferred to by print media therebetween or on being positioned at therebetween offset medium by the effect in magnetic field; Compared with prior art, owing to being use the transfer that magnetic field is magnetic developer to provide external force, overcoming in prior art and be difficult to charge to some thicker print media and realize the problem of transfer printing; So this imaging device not only can realize the transfer printing to print media such as the paper of routine, the printing that could need realize thicker dull and stereotyped print media with existing flat-panel printer can also be realized, and higher-quality symbol and image can be printed more quickly on dull and stereotyped print media.

A concrete scheme is that wherein crosstalk part is a magnetic roller.

From above scheme, because crosstalk part is a magnetic roller, it not only can provide required magnetic field for the transfer printing of this imaging device, and can by the transmission of rotation realization to print media of magnetic roller.

Another concrete scheme is, wherein magnetic printing part is a magnetic printing medium.

From above scheme, the transfer printing being this imaging device by the magnetic field of magnetic printing medium itself provides required magnetic field; Compared with prior art, just corresponding transfer process can be completed without the need to extra transfer roll.In addition, this imaging device is utilized to carry out hot transfer printing, then can to the surface coating process of print media, its magnetic developer can naturally be held on magnetic printing medium, just can realize peeling off between magnetic developer and print media by corresponding hot transfer printing.

Another concrete scheme is also comprise fixing, this fixing well heater being fixing roller and being located in this fixing roller; Crosstalk part comprises magnetic support body and driving wheel, be fixed on the moved beneath of the drive wheel magnetic support body on the body of imaging device in photosensitive drums, namely magnetic support body can do the straight reciprocating motion in plane in the below of photosensitive drums, also can rotate around driving wheel; The upper surface of magnetic support body is used for shelving print media; Along the direct of travel of print media, fixing roller is positioned at the downstream of photosensitive drums, and above magnetic support body.

From above scheme, this imaging device can complete transfer printing work to the print media be held on magnetic support body, comprise conventional print media paper etc. and thicker dull and stereotyped print media, in addition, also corresponding transfer printing work can be completed for as the soft print media such as cloth, silk, particularly for thicker soft print media, this magnetic support body not only has good supporting role, and enough magnetic field intensitys can be provided for transfer printing, and corresponding supporting role can be provided for fixing work.

One more specifically scheme be that wherein magnetic support body does the straight reciprocating motion in plane in the below of photosensitive drums.

Another more specifically scheme be that this imaging device also comprises heating cabinet; Along the direction that print media is advanced, heating cabinet is positioned at the upstream of photosensitive drums, and above magnetic support body.

From above scheme, due on the direction of advancing along print media, be provided with a heating cabinet in the upstream of photosensitive drums, and this heating cabinet is positioned at the top of magnetic support body, can heats print media before transfer printing, accelerate follow-up fixing, improve print speed, particularly for dull and stereotyped print media, heat in advance, even can be heated to fixing required temperature, accelerate fixing medium velocity and improve fixing quality.

Another concrete scheme is that this imaging device also comprises fixing and heating cabinet; Wherein fixing is fixing roller; Crosstalk part comprises magnetic support body and driving wheel, and be fixed on the moved beneath of the drive wheel magnetic support body on the body of imaging device in photosensitive drums, the upper surface of magnetic support body is used for shelving print media; Along the direct of travel of print media, fixing roller is positioned at the downstream of photosensitive drums, and above magnetic support body; Along the direct of travel of print media, heating cabinet is positioned at the upstream of photosensitive drums, and above magnetic support body.

From above scheme, due on the direction of advancing along print media, a heating cabinet is provided with in the upstream of photosensitive drums, and this heating cabinet is positioned at the top of magnetic support body, the fixing required temperature of print media can be heated to print media before transfer printing, pressure can be applied by fixing roller to print media in print procedure, under the pressure of fixing roller and the effect of print media heat, complete fixing.

A concrete scheme is that wherein crosstalk part comprises magnetic support body and driving wheel again, and be fixed on the moved beneath of the drive wheel magnetic support body on the body of imaging device in photosensitive drums, the upper surface of magnetic support body is provided with offset medium; Along the direct of travel of print media, be provided with heating cabinet and fixing successively; Fixing is fixing roller; Along the direct of travel of the first transfer printing of offset medium, fixing roller is positioned at the downstream of photosensitive drums, and above magnetic support body.

From above scheme, because this imaging device can first be transferred to magnetic developer on offset medium by the first transfer printing, by the second transfer printing the magnetic developer on offset medium is transferred to again and undertaken being heated on fixing temperature required print media by heating cabinet, and it is fixing to utilize the pressure between fixing roller and magnetic support body to carry out, under the effect of the heat of pressure and print media, magnetic developer fuses in print media, completes corresponding transfer printing and fixing work; Due to the magnetic field physical parameter that the magnetic support body in this imaging device is formed between offset medium and photosensitive drums, and the distance between offset medium and photosensitive drums can be fixed, and without the need to adjusting according to the thickness of print media and the isoparametric change of magnetic permeability, make this imaging device part-structure more compact, only need its fixing thickness according to print media to carry out adjusting, the print job of thick to spy or that the physical parameter such as thickness and magnetic permeability is indefinite print media can be completed easily.

Scheme is more specifically, and above-mentioned imaging device also comprises degaussing gear, and along the direct of travel of print media, degaussing gear is located at the downstream of fixing.

From above scheme, degaussing gear can carry out demagnetization to the print media after fixing, can eliminate the remanent magnetism in print media and/or magnetic developer, to meet the particular/special requirement of some environments for use to print media after completing printing.

In order to realize another object, the printing transferring method of imaging device provided by the invention, developer is magnetic developer, and the method comprises and arranges a crosstalk part, and the magnetic field making it produce is enough to adsorb the magnetic developer in photosensitive drums; Make to pass through in the gap of print media between crosstalk part and photosensitive drums.

From above scheme, by arranging a crosstalk part, its magnetic field produced is enough to adsorb the magnetic developer in photosensitive drums; And make to pass through in the gap of print media between this crosstalk part and photosensitive drums, a magnetic field is formed between print media and photosensitive drums, attractive force can be produced to the magnetic developer imaged in photosensitive drums by magnetic field, make magnetic developer be transferred on print media, complete corresponding transfer process; Compared with prior art, owing to being use magnetic field to provide external force for developer transfer process, overcoming in prior art and be difficult to charge to some thicker print media and realize the problem of transfer printing; So use this magnetic printing transferring method as the printing transferring method of imaging device, not only can realize the printing to print media such as the paper of routine, the printing that could need realize thicker dull and stereotyped print media with existing flat-panel printer can also be realized, and higher-quality symbol and image can be printed more quickly on dull and stereotyped print media.

Accompanying drawing explanation

Fig. 1 is the structural representation of transfer printing and fixation part in existing laser printer;

Fig. 2 is the structural representation of transfer printing and fixation part in reflection imaging device first embodiment of the present invention;

Fig. 3 is the structural representation of transfer printing and fixation part in reflection imaging device of the present invention 3rd embodiment;

Fig. 4 is the structural representation of transfer printing and fixation part in reflection imaging device of the present invention 4th embodiment;

Fig. 5 is the structural representation of transfer printing and fixation part in imaging device of the present invention 7th embodiment;

Fig. 6 is the structural representation of the first transfer section in reflection imaging device of the present invention 8th embodiment;

Fig. 7 is the second transfer printing and fixation method schematic diagram in reflection imaging device of the present invention 8th embodiment.

Below in conjunction with drawings and Examples, the invention will be further described.

Embodiment

In a particular embodiment by reacting transfer printing corresponding in imaging device of the present invention and fixation part structure and printing transferring method thereof to the transfer printing of laser printer and the description of fixation part.

Imaging device first embodiment

Transfer printing and fixation part in imaging device first embodiment are conceived in reflection structural representation according to the present invention see Fig. 2, Fig. 2; Handle box is made up of powder storehouse 1, powder outlet cutter 2, developer roll 3, photosensitive drums 4, cleaning doctor 5, waste powder hopper 6 and charging roller 7; Crosstalk part is a magnetic roller 101, and magnetic roller 101 can be made up of electromagnetism build or permanent magnet core overcoat axle sleeve; Fixing is made up of upper fixing roller 8 and downforce roller 9; Powder storehouse 1 is built with magnetic developer 31.Transfer printing and fixing are: the magnetic field that magnetic roller 101 produces produces attractive force to the magnetic developer imaged in photosensitive drums 4, magnetic developer is made to be transferred on the print media such as paper 11, and enter between fixing that is made up of upper fixing roller 8 and downforce roller 9, in heat with under the effect of pressure, magnetic developer fuses in print media 11, completes transfer printing and fixing.Medium on print media is transferred to from photosensitive drums as magnetic developer owing to adopting magnetic field, both can apply on the conventional print media such as paper, also can apply on thicker dull and stereotyped print media, so this transfer printing structure and method may be used for the printing of the conventional print media such as paper, also may be used for printing thicker print media.

Imaging device second embodiment

As the explanation to imaging device second embodiment of the present invention, below only the difference with imaging device first embodiment of the present invention is described, along the direction that print media is advanced, a degaussing gear is provided with at the downstream part of fixing, carrying out demagnetization to completing fixing print media, eliminating corresponding remanent magnetism.

Imaging device the 3rd embodiment

Be transfer printing and fixation part in imaging device the 3rd embodiment are conceived in reflection structural representation according to the present invention see Fig. 3, Fig. 3; As the explanation to imaging device of the present invention 3rd embodiment, below only the difference with imaging device first embodiment of the present invention is described, cancel the magnetic roller in the first embodiment, its crosstalk part is a magnetic printing medium 11, and magnetic printing medium 11 can be covered with magnetospheric print media or the print media containing non-magnetic interlayer for print media, the surface made containing the material of magnetic.Transfer printing and fixing are: the magnetic field that magnetic printing medium 11 produces produces attractive force to the magnetic developer imaged in photosensitive drums 4, make magnetic developer be transferred on magnetic printing medium 11; Enter in fixing that is made up of upper fixing roller 8 and downforce roller 9, in heat with under the effect of pressure, magnetic developer fuses in magnetic printing medium 11, completes transfer printing and fixing; This transfer printing structure and method are applied to hot transfer printing, then to the surface coating process of print media, can naturally can carry out the stripping of carbon dust and print media.

Imaging device the 4th embodiment

That reflection is according to the structural representation of transfer printing and fixation part in inventive concept imaging device the 4th embodiment see Fig. 4, Fig. 4; Handle box is made up of powder storehouse 1, powder outlet cutter 2, developer roll 3, photosensitive drums 4, cleaning doctor 5, waste powder hopper 6 and charging roller 7; Crosstalk part is made up of magnetic support body, driving wheel 28, heating cabinet 25, powder storehouse 1 is built with magnetic developer 31, wherein magnetic support body is made up of supporting construction 27 and the magnetic patch 24 be located in supporting construction 27, and print media 23 is held on the upper surface of magnet 24; Magnetic support body does the straight reciprocating motion in plane in the below of photosensitive drums 4, repeatedly carry out transfer printing and fixing work continuously; Fixing is made up of fixing roller 21 and the well heater 22 be placed in fixing roller 21.Transfer printing and fixing are: heating cabinet 25 pairs of print media 23 heat, when print media 23 moves to the below of photosensitive drums 4, the magnetic field produced by magnetic patch 24 produces attractive force to the magnetic developer imaged in photosensitive drums 4, the magnetic developer in photosensitive drums 4 is made to be transferred on print media 23, and by fixing roller, pressure and heat are applied to the magnetic developer on print media 23, in heat with under the effect of pressure, magnetic developer fuses in print media 23, completes transfer printing and fixing.Due to heating cabinet can be used to heat print media in advance, accelerate fixation rate, improve print speed and fixing quality.

Imaging device the 5th embodiment

As the explanation to imaging device of the present invention 5th embodiment, only the difference with imaging device of the present invention 4th embodiment is described below; Cancel heating cabinet.Transfer printing and fixing are: when print media moves to the below of photosensitive drums, the magnetic field produced by magnetic patch produces attractive force to the magnetic developer imaged in photosensitive drums, the magnetic developer in photosensitive drums is made to be transferred on print media, and by fixing roller, pressure and heat are applied to the magnetic developer on print media, in heat with under the effect of pressure, magnetic developer fuses in print media, completes transfer printing and fixing.

Imaging device the 6th embodiment

As the explanation to imaging device of the present invention 6th embodiment, only the difference with imaging device of the present invention 4th embodiment is described below; Cancel and add the well heater be placed in fixing roller.Transfer printing and the fixing process of this imaging device are: heating cabinet is to printing dielectric heating to fixing required temperature, print media moves to the below of photosensitive drums, the magnetic field that magnetic patch produces produces attractive force to the magnetic developer imaged in photosensitive drums, magnetic developer is made to be transferred on print media, fixing roller applies pressure to magnetic developer, by the effect of the heat on the pressure of fixing roller and print media, magnetic developer fuses in print media, completes transfer printing and fixing.

Imaging device the 7th embodiment

That reflection is according to the structural representation of transfer printing and fixation part in inventive concept imaging device the 7th embodiment see Fig. 5, Fig. 5; Handle box is made up of powder storehouse 1, powder outlet cutter 2, developer roll 3, photosensitive drums 4, cleaning doctor 5, waste powder hopper 6 and charging roller 7; Crosstalk part is made up of magnetic support body 29, driving wheel 28 and heating cabinet 25, and powder storehouse 1 is built with magnetic developer 31, and print media 23 is held on the upper surface of magnetic support body 29; Magnetic support body makes rotary reciprocating motion in the below of photosensitive drums 4 around driving wheel 28, repeatedly carries out transfer printing and fixing work continuously; Fixing is made up of fixing roller 21 and the well heater 22 be placed in fixing roller 21.Transfer printing and fixing are: heating cabinet 25 pairs of print media 23 heat, when print media 23 moves to the below of photosensitive drums 4 with magnetic support body 29, the magnetic field that magnetic support body 29 produces produces attractive force to the magnetic developer imaged in photosensitive drums 4, the magnetic developer in photosensitive drums 4 is made to be transferred on print media 23, and by fixing roller, pressure and heat are applied to the magnetic developer on print media 23, in heat with under the effect of pressure, magnetic developer fuses in print media 23, completes transfer printing and fixing.Due to heating cabinet can be used to heat print media in advance, accelerate fixation rate, improve print speed and fixing quality.Because magnetic support body 29 makes rotary reciprocating motion around driving wheel 28, transfer printing work can be carried out by continuous print, improve transfer printing and fixation rate.

Imaging device the 8th embodiment

See Fig. 6, Fig. 6 for reflection the present invention conceives the first transfer section structural representation in eighth embodiment of the invention, magnetic support body is made up of supporting construction 27, magnetic patch 24 and offset medium 231.First transfer process is: the magnetic field that magnetic patch 24 produces produces attractive force to the magnetic developer imaged in photosensitive drums 4, magnetic developer is transferred on the surface of print media 231 from photosensitive drums, completes the first transfer process.

See Fig. 7, Fig. 7 is the schematic diagram of the second transfer printing and fixation method in reflection imaging device of the present invention 8th embodiment, and the second transfer printing and fixing are: heating cabinet 33 is heated to fixing required temperature to the print media 32 be held on heating cabinet 33 and offset medium 231 completes first time transfer printing; Offset medium 231 continue to advance until transfer printing workplace moves out from the below of photosensitive drums, print media 32 marches to directly over offset medium 231 workplace, in the effect of fixing roller 211 and well heater 221, the magnetic developer 31 on offset medium 231 is made to incorporate in print media 32 by heat and pressure, supporting construction 27, magnetic patch 24 and offset medium 231 playback, and complete second time transfer printing and fixing.

The printing transferring method embodiment of imaging device of the present invention is embodied in imaging device embodiment of the present invention illustrates, repeats no more.

Design of the present invention is mainly by setting up a magnetic field in the region between print media and photosensitive drums; By the effect of magnetic field force, the magnetic developer imaged in photosensitive drums is transferred on print media, and carries out fixing; According to this design, the structure of magnetic printing transferring method, transfer member and print media also have multiple apparent change.

Claims (7)

1. imaging device, comprises photosensitive drums, transfer member and fixing,

It is characterized in that:

The developer that described imaging device uses is magnetic developer;

Described transfer member is a crosstalk part;

Described fixing the well heater being fixing roller and being located in described fixing roller;

Described crosstalk part comprises magnetic support body and driving wheel, be fixed on magnetic support body described in the described drive wheel on the body of described imaging device and do the straight reciprocating motion in plane in the below of described photosensitive drums, the upper surface of described magnetic support body is used for shelving print media;

Along the direct of travel of described print media, described fixing roller is positioned at the downstream of described photosensitive drums, and above described magnetic support body.

2. imaging device according to claim 1, is characterized in that:

Also comprise heating cabinet;

Along the direct of travel of print media, described heating cabinet is positioned at the upstream of described photosensitive drums, and above described magnetic support body.

3. imaging device according to claim 1, is characterized in that:

Described magnetic support body is made up of supporting construction, magnetic patch and offset medium, and the upper surface of described offset medium forms the upper surface of described magnetic support body;

Along the direct of travel of described print media, be provided with heating cabinet and described fixing successively.

4., according to the arbitrary described imaging device of claims 1 to 3, it is characterized in that:

Also comprise degaussing gear;

Along the direct of travel of described print media, described degaussing gear is located at the downstream of described fixing.

5. imaging device, comprises photosensitive drums, transfer member and fixing;

It is characterized in that:

The developer that described imaging device uses is magnetic developer;

Described transfer member is a crosstalk part;

Also comprise heating cabinet;

Described fixing is fixing roller;

Described crosstalk part comprises magnetic support body and driving wheel, be fixed on magnetic support body described in the described drive wheel on the body of described imaging device and do the straight reciprocating motion in plane in the below of described photosensitive drums, the upper surface of described magnetic support body is used for shelving print media;

Along the direct of travel of described print media, described fixing roller is positioned at the downstream of described photosensitive drums, and above described magnetic support body;

Along the direct of travel of print media, described heating cabinet is positioned at the upstream of described photosensitive drums, and above described magnetic support body.

6. imaging device according to claim 5, is characterized in that:

Also comprise degaussing gear;

Along the direct of travel of described print media, described degaussing gear is located at the downstream of described fixing.

7. the printing transferring method of imaging device, developer is magnetic developer, comprising:

Arrange a crosstalk part, the magnetic field making it produce is enough to adsorb the magnetic developer in photosensitive drums;

Also arrange fixing, described fixing the well heater being fixing roller and being located in described fixing roller;

Described crosstalk part comprises magnetic support body and driving wheel, be fixed on magnetic support body described in the described drive wheel on the body of described imaging device and do the straight reciprocating motion in plane in the below of described photosensitive drums, the upper surface of described magnetic support body is used for shelving print media;

Along the direct of travel of described print media, described fixing roller is positioned at the downstream of described photosensitive drums, and above described magnetic support body;

Make to pass through in the gap of print media between described crosstalk part and described photosensitive drums.