KR100444271B1 - Color image forming method and apparatus - Google Patents

Abstract

The present invention is characterized in that it is configured to enable continuous color printing by rotating the light source using a light source heat / dot using a neon lamp, conveying the paper at a constant speed, fixing the paper with a fixing device.

Description

Color image forming method and apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color image forming apparatus, and more particularly, to a color image forming method and apparatus for digitally copying a light source by dot in a system that is color printed using a thermal transfer film.

Generally, as in the case of FIG. 1, a hard copy (HARD COPY) apparatus of general paper, which is a color image forming apparatus, uses a thermal transfer film. Upon receiving the operation signal in FIG. 1, the paper 13 is pushed out of the pickup roller 5. At this time, the feeder rollers 3 and 4 are rotated at the same time as the pick-up roller 5 and operate the feeder sensor 14. When the paper tip 13 reaches the TPH 2 by calculating the distance between the feeder sensor 14 and the TPH 2, an image signal is input to make a hard copy. Here, the thermal transfer film 1 is rotated when the paper 13 reaches the tip 2 of the TPH 2. The spring 15 is brought into close contact with the thermal transfer film 1 and the paper 13. To the pressure by pressing). The closeness of the image is determined according to the resolution of the TPH 2. Colors can be obtained by converting such a film into color and inserting data for each color by repeating four times.

In order to repeat the four times, the paper 13 must be moved back to repeat the alignment of the front end of the paper 13. At this time, the pressing roller 16 should be restarted to smooth the movement of the paper 13. However, in the conventional method as described above, since the resolution is determined by the TPH 2, the practical TPH 2 has 200 DPI and 300 DPI.

The conventional thermal transfer method has a low printer resolution, and the printer speed is very low because the speed is controlled according to the control of the step motor, like a hard copy of a thermal method. Therefore, it takes a lot of printing time, mechanical conveyance is made, there is a problem that accurate color reproduction is difficult.

Therefore, the object of the present invention is to control the dot by using an optical system using a neon lamp instead of TPH and to control the dot, but to control the four colors of film at the same rotational speed to wrap the paper around the drum to increase the printing speed The present invention provides a method and apparatus for obtaining a high quality image with high accuracy.

In accordance with another aspect of the present invention, there is provided a method of forming a color image, the method comprising: supplying power;

Using the light source heat / dotted using the neon lamp from the above step; transferring the paper loaded by the guide at a constant speed while being fed by the color film and the case from the step;

Fixing the paper with a fixing device from the above step and performing continuous color printing by rotation;

Controlled by the controller drive from the step characterized in that it comprises a step of discharging the paper.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a system diagram illustrating an image forming apparatus according to an exemplary embodiment of the present invention. A dot / heat generating apparatus for forming an image by forming a dot size by cutting data to be printed and blocking a heat or constantly turning on / off an image ( 201), the color film and cases 202 and 203 to be loaded and loaded at the same time as the color film, the paper holding device 204 to fix the paper to be printed, and a power supply to control the operation of the system while supplying power to the system. And a controller driving device 205, feeder rollers 206 and 207 for feeding the paper, discharge rollers 208 and 209 for discharging the printed paper, and a pickup roller for picking up the paper to be printed. 210, a cassette 211 for storing the paper, guides 212, 213, 214, 215, and 216 for guiding the conveyance of the paper, a paper tray 217 for receiving the printed paper; To detect the jam in the paper The jam sensor 219, the discharge sensor 220 for detecting the discharge of the paper, the paper holding device (221, 222) for fixing the leading end of the paper and the detection value of the jam sensor 219 It comprises a solela 223 for controlling the leading end of the paper by the paper fixing device 221, the case 224 of the present system, and the paper fixing devices 225 and 226 for fixing the rear end of the paper. do.

3 is a detailed system diagram of the dot / heat generator 201 of FIG. 2.

A reflector 327 for reflecting light, a Leon lamp 328 for emitting light to the reflector 327, a condense lens 329 for collecting the reflected light of the reflector 327 and converting the light into heat; A stopper 330 which controls the output of the condensing lens 329 to have a constant size to form a dot size, and blocks the output heat of the stopper 330 or turns it on / off constantly to form a focal length. An AOM 331 for controlling to be controlled; an achromatic lens 332 uniformized to a desired size with respect to the output of the AOM 331; an aperture 333 for guiding the output of the achromatic lens 332; Constant dots on a cylinder lens 334, an interpoly mirror / motor 335 for reflecting and scanning the heat of the output of the cylinder lens 334, and a thermal plane scanned by the interpoly mirror / motor 335 The first F-0 lens 336 and the second F-0 lens 337 to be sized, and A detection mirror 338 for detecting heat reflected from the inter-poly mirror / motor 335 and a thermal scan signal through the first F-0 lens 336 and the second F-0 lens 337. Thermal film 339 to be printed by the camera, a detection lens 340 for focusing the heat reflected from the detection reflection mirror 338, and a slit 341 for controlling the output of the detection lens 340. And a detector photodiode 342 for detecting the generation of heat through the slit 341 so that printing is connected to the next line.

4 is a detailed view of a print dot according to an embodiment of the present invention, and pressure is applied to the paper 424, and the film 339 is formed of an ink layer / reference film, so the print dot 425 on the paper 424 is shown. ) Is shaped.

5 is an arrangement diagram of a film according to an embodiment of the present invention.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5, when the printing signal is received from the power supply controller 205 as shown in FIG. 2, the system is operated to operate the pickup roller 210. The paper is then transferred. At this time, the feed rollers 206 and 207 operate and the paper passes through the jam sensor 219 signal, and after a predetermined time, the Soldei 223 operates so that the paper tips (21, 22, 221, 222) of the paper tip ( As the paper 218 enters, the paper is fixed, and at the same time, the paper fixing rotating device 204 is operated, at which time the 1 dot / heat generating device (light source) 201 is operated and gives a signal. An image is formed by this signal. At the same time, the film is also rotated. This is repeated four times in a row is made of color and color is overlapping color is made, and the rear end of the paper is fixed by the fixing device (225, 226). When the print signal is completed, the front end fixing device (221, 222) is released to push out the paper to pass through the discharge sensor 220, the discharge roller (208, 209) by the guide (215, 216) (225, 226) are also released so that the paper is completely pulled out and the printing is completed. In addition, the dot / heat generator (light source) 201 of FIG. 2 operates at the same time as the operation of the system, and the porogen motor 335 starts to rotate and receives a printing signal, and the neon lamp 328 is turned on to emit light. . This light is reflected through the reflecting mirror 327 and collected. The condensed light passes through the condensing lens 329 so that the light is converted to heat, and is controlled to have a predetermined size through the stopper 330 to form a dot size, and blocks the heat by the AOM 331. Or constant on / off to control the image to be formed. The heat passing through the AOM 331 is uniformly passed through the achromatic lens 332 to the desired size, which passes through the aperture 333, the polygon mirror 335 through the cylinder lens 334 ) Is reflected and heat is scanned. This row is made to have a constant dot size in plane through the first and 2F-0 lenses 336 and 337. Therefore, the heat is transferred to the paper 424 in close contact with the base film and the ink layer 339 as shown in FIG. 4. When the heat reaches the base film and the ink layer 339, the ink is separated from the base film to form an image. At this time, the base-based heat is used to operate the detector lens 340, the slit 341, and the detector lens 342 through the detector mirror 338 in order to give a printed reference to the next by the operation of the detector lens 342. It can be connected by line printing and continuous printing can be done. By repeating the operation as described above, the signal is controlled according to the color signal to allow color printing. The structure of the film is the same as the example of FIG.

As described above, the light source is controlled by using an optical system using a neon lamp instead of TPH, and the dot is controlled. However, by controlling the four colors of film at the same rotation speed, the paper is wound around the drum to increase the printing speed. It is possible to obtain a high quality image by increasing the accuracy of, and has the advantages of convenience and environmental response.

1 is a schematic diagram showing the configuration of a conventional image forming apparatus;

2 is a system diagram showing an image forming apparatus according to an embodiment of the present invention.

3 is a detailed system diagram of the heat / dot generator of FIG.

4 is a detailed view of the print dot according to an embodiment of the present invention

5 is an exemplary film according to an embodiment of the present invention

Claims (3)

In the color image forming method, Supplying power, Using a light source thermally / dotted using a neon lamp from the above step, transferring the paper loaded by the guide at a constant speed while being fed by the color film and the case from the step; Fixing the paper with a fixing device from the above step and performing continuous color printing by rotation; And discharging the paper, which is controlled by the controller driving device from the above step. In the color image forming apparatus, Dot / heat generating apparatus 201 for forming an image by forming dot size and blocking heat or turning on / off constantly by data to be printed on the image, and color film and case which are simultaneously loaded while supplying color film. 202, 203, a paper holding device 204 for fixing the paper to be printed, a power supply and controller driving device 205 for supplying power to the system and controlling the driving of the system, and feeding the paper. Feeder rollers 206 and 207, discharge rollers 208 and 209 for discharging the printed paper, a pickup roller 210 for picking up the paper to be printed, a cassette 211 for storing the paper, A guide (212, 213, 214, 215, 216) for guiding the feeding of the paper, a paper tray (217) for receiving the printed paper, a jam sensor (219) for detecting the jam of the paper, And discharge sensor 220 for detecting the discharge of the paper and And a paper holding device (221, 222) for fixing the leading end of the paper, and the solela (223) for controlling the leading end of the paper by the paper fixing device (221) by the detection value of the jam sensor (219). ), And a case (224) of the system of the present invention, and a paper holding device (225, 226) for fixing the rear end of the paper. The method of claim 2, The dot / heat generator 201 collects a reflector 327 that reflects light, a Leon lamp 328 that emits light in the reflector 327, and converts the reflected light of the reflector 327 into heat. A condenser lens 329, a stopper 330 which controls the output of the condenser lens 329 to have a constant size, and forms a dot size, and blocks an output string of the stopper 330; An AOM 331 which controls to be formed on and off by constant on / off, an achromatic lens 332 to uniformize to a desired size with respect to the output of the AOM 331, and an output of the achromatic lens 332 The aperture 333 and the cylinder lens 334 for guiding the light, the interpoly mirror / motor 335 for reflecting and scanning the heat of the output of the cylinder lens 334, and the interpoly mirror / motor 335 The first F-0 lens 336 to have a constant dot size on the thermal plane scanned at 2 F-0 lens 337, a detection mirror 338 for detecting heat reflected from the inter-poly mirror / motor 335, the first F-0 lens 336 and the second F A thermal film 339 printed by a thermal scan signal through a -0 lens 337, a detecting lens 340 for focusing the heat reflected by the reflective reflection mirror 338, and the detecting lens And a detector photodiode (342) for detecting the generation of heat through the slit (341) and for printing to be connected to the next line.

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