KR100219653B1 - Liquid electrophotographic printer - Google Patents

Abstract

A wet electrophotographic printer is disclosed. The disclosed printer includes a primary secondary tertiary roller for circulating a photosensitive belt onto a closed loop; A plurality of backup rollers provided between the secondary roller and the tertiary roller; And a developing device having a developing roller which is folded to the backup roller, and a squeeze roller for removing excess developer from the developer attached to the photosensitive belt, wherein the squeeze roller of the developing device is more than the secondary roller. The secondary roller is elastically biased to allow elastic movement in a direction in which a constant tension is applied to the photosensitive belt, and the secondary roller is positioned between the secondary roller and the tertiary roller. The photosensitive belt is designed to bend. According to this structure, the space occupied by the photosensitive belt and the developing device, in particular, can be lowered.

Description

Wet electrophotographic printer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet electrophotographic printer, and more particularly, to a wet electrophotographic printer in which the charge volume of the developing belt transfer system is reduced by improving the roller arrangement structure of the developing unit.

In general, an electrophotographic printer such as a laser printer forms a latent electrostatic image on a photosensitive medium such as a photosensitive drum or a photosensitive belt, develops the electrostatic latent image with a toner having a predetermined color, and transfers the image onto a recording sheet. It is a device that obtains an image. Electrophotographic printers are largely classified into wet and dry depending on the toner used. In the wet type, a developer in which a toner is mixed with a liquid carrier is used. Wet electrophotographic printers using such a developer have better print quality than dry powders using toner in a powder state, and can prevent damage caused by harmful toner dust.

FIG. 1 is a schematic configuration diagram showing the structure of a main part of a conventional wet electrophotographic printer, and FIG. 2 is a schematic side view showing a part of the developing apparatus shown in FIG.

Referring to FIG. 1, a conventional wet electrophotographic printer has a photosensitive belt 110 having an endless track, and a primary roller 121, 2 which is fixed by circulating the photosensitive belt 110 in a closed loop shape. The three rollers of the primary roller 122 and the tertiary roller 123 are provided. In general, the third roller 123 is a driving roller driven by a driving motor (not shown) to rotate the photosensitive belt 110, and the secondary roller 122 meanders by adjusting the tension of the photosensitive belt 110. Steering roller to prevent In addition, a main charging unit 135 for uniformly charging the photosensitive belt 110 is provided at one side of the photosensitive belt 110, and a lower portion of the photosensitive belt 110 has a laser on the photosensitive belt 110 according to an image signal. A laser scanning unit (LSU) 130 for irradiating a beam to form an electrostatic latent image, and a developing device 140 for developing an electrostatic latent image by attaching a developer containing a toner having a predetermined color to a region where the latent electrostatic image is formed. It is installed. In the case of a color printer, a plurality of developing devices 140 are provided to separately contain a plurality of LSUs 130 and a developer having a plurality of colors for color combinations.

Referring to FIG. 2, the developing device 140 is installed adjacent to the lower portion of the photosensitive belt 110. The case 141 of the developing device 140 contains a developer 148a made of a toner having a predetermined color and a liquid carrier, and a developing roller 143, a cleaning roller 144, and a squeeze roller 146, 147 at an upper portion thereof. ) Is installed. Meanwhile, two or more backup rollers 146a and 144a are installed inside the photosensitive belt 110 corresponding to the developing roller 143 and the cleaning roller 144 to compress the photosensitive belt 110. have.

The developer roller 143 serves to attach the developer 148a to the electrostatic latent image region formed on the photosensitive belt 110 by the LSU 130, wherein the developer 148a is a developer supply device ( 145 is supplied between the developing roller 143 and the photosensitive belt 110. The cleaning roller 144 removes the developer 148a remaining on the surface of the developing roller 143. The squeegee roller (Squeegee roller, 146,147) is composed of a primary squeeze roller (146) and a secondary squeeze roller (147), and used for the phenomenon of the electrostatic latent image of the developing solution (148a) attached to the photosensitive belt 110 It serves to remove the excess developer 148a.

The toner image developed on the photosensitive belt 110 by the developing device 140 is recorded on the recording paper 126 by the transfer roller 124 installed in parallel with the primary roller 121 with the photosensitive belt 110 therebetween. Is transferred). The recording paper 126 is supplied between the transfer roller 124 and a pressure roller 125 installed in parallel with the transfer roller 124 at a predetermined interval.

In the conventional printer having the above structure, as illustrated in FIGS. 1 and 2, the circulation section of the photosensitive belt 110 corresponding to the developing device 140, in particular, the development section, that is, the secondary roller 122 and the third order The section between the rollers 123 is curved. This is because the photosensitive belt 110 is so thin that it sags downward between the secondary roller 122 and the tertiary roller 123. According to this deflection, the tension of the photosensitive belt 110 in the developing section is not constant and does not maintain an appropriate tension state. In consideration of this, as shown in FIG. 1, the backup rollers 143a and 146a, the developing apparatus 140, and the LSU 130 are installed so as to correspond to this curved path, and are arranged non-parallel in the vertical direction. According to the photosensitive belt 110, the photosensitive belt 110 occupies a space corresponding to the deflection height in the developing section of the photosensitive belt 110, and correspondingly, the developing apparatus 140 and the LSU 130 should also be disposed. Therefore, in the conventional printer, the size of the printer should be greater than or equal to a certain value by the volume occupied by the entire mechanism centering on the photosensitive belt 110 and the developing device 140, and there is a limit to reducing the size. Since the 140 and the LSU 130 are asymmetrically arranged, the design is not easy, and the structure for supporting the elements is complicated, as well as a free space for this.

It is an object of the present invention to provide a developing apparatus for a wet electrophotographic printer in which the actual charge volume and height of the entire structure can be significantly reduced while maintaining the length of the entire circulation path of the photosensitive belt.

1 is a schematic diagram showing the structure of a main part of a conventional electrophotographic printer;

2 is a schematic view showing an internal structure of the developing apparatus shown in FIG. 1;

3 is a schematic structural diagram of a first embodiment of a printer according to the present invention;

4 is a schematic structural diagram of a second embodiment of a printer according to the present invention;

According to the present invention for achieving the above object, a closed loop on the photosensitive belt; Primary and secondary tertiary rollers circulating the photosensitive belt onto a closed loop; A plurality of backup rollers provided at predetermined intervals between the secondary roller and the tertiary roller; A developer is contained therein, and a developer roller folded to the backup roller by attaching the developer to the developing region of the photosensitive belt between the secondary roller and the third roller, and an extra developer among the developer attached to the photosensitive belt. A plurality of developing devices having a squeeze roller for removing the developing solution, the plurality of developing devices being foldable with respect to the developing area of the photosensitive belt; A plurality of laser scanning units for developing a predetermined electrostatic latent image in the developing region of the photosensitive belt; A developing apparatus of a wet electrophotographic printer comprising: a squeeze roller of the developing apparatus is positioned closer to a linear path formed by the secondary roller and the tertiary roller than the developing roller, and the secondary roller is It is configured to be elastically biased to enable elastic movement in the direction of applying a constant tension force to the photosensitive belt, the photosensitive belt is bent between the secondary roller and the tertiary roller when the developing apparatus approaches the photosensitive belt side during printing. It is provided with a wet electrophotographic printer, characterized in that it proceeds in a predetermined path.

In the printer of the present invention, a guide roller for guiding a portion of the photosensitive belt exposed by the laser scanning unit at a position corresponding to the laser scanning unit to maintain an optical distance from the scanning unit is constant. It is desirable to be located on the opposite side of the exposed portion of the.

Hereinafter, preferred embodiments of a developing apparatus of a wet electrophotographic printer according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a schematic configuration diagram of a first embodiment of a printer according to the present invention in a state where the developing device is moved to the photosensitive belt side and is printable.

Referring to FIG. 3, the loop-shaped photosensitive belt 110 is supported by three rollers. Among the rollers, the primary roller 121 transfers the toner image developed on the photosensitive belt 110 to the transfer roller 126 in contact with the recording paper 126. The secondary roller 122 is elastically biased by the biasing device 170 so as to be movable in a direction in which the photosensitive belt 120 is given a constant tensile force. The third roller 123 is rotated by a power source not shown to circulate the photosensitive belt 110. In the developing region between the secondary roller 122 and the tertiary roller 123, backup rollers 143a positioned opposite to the exposure surface of the photosensitive belt 110 are provided at equal intervals. On the other hand, the developing device for supplying the developing solution to the photosensitive belt 110 is installed to be folded to the photosensitive belt (110). The developing roller 143 of the developing device 140 is positioned to correspond to the backup roller 143a to press the photosensitive belt 110 together. On the other hand, the squeeze roller 146 for squeezing the developer attached to the photosensitive belt 110 is installed to be closer to the photosensitive belt than the developing roller 143. That is, the developing roller 143 and the squeeze roller 146 are installed at different heights so that the photosensitive belt 110 travels along the sawtooth path between the secondary roller 122 and the tertiary roller 123. In this state, printing proceeds according to the conventional method. In FIG. 3, reference numeral 130 is a laser scanning unit for irradiating a laser beam onto the photosensitive belt 110. The laser scanning unit 130 is installed in front of each of the developing devices 140 in the advancing direction of the photosensitive belt 110 to form a predetermined electrostatic latent image in the developing area.

According to the above structure, as described above by the height difference between the developing roller 143 and the squeeze roller 146, the photosensitive belt 110 proceeds on the serrated traveling path and thus passes the photosensitive path. The squeeze effect of the developer attached to the belt 110 appears. According to this structure, the developer attached to the photosensitive belt 110 can be squeezed without using a conventional squeeze roller, so that a squeeze roller is not necessary.

In addition, since the upper side of the developing apparatus partially overlaps with the traveling path of the photosensitive belt 110, that is, unlike the prior art, the lower side of the photosensitive belt 110 and the upper side of the photosensitive device 140 share some regions. In addition, since the developing apparatus 140 and the LSU 130 are arranged in a straight line and arranged in parallel in the vertical direction, the total charge space is reduced, and in particular, the height of the entire mechanism can be lowered. For example, the height of the A3 type printer is about 20cm while according to the present invention can be lowered to about 11cm.

Fig. 4 is a schematic structural diagram of a second embodiment of a printer according to the present invention in which a developing device is moved to a photosensitive belt side and is printable.

In the present embodiment, unlike the first embodiment shown in FIG. 3, a guide roller 160 for guiding a portion of the photosensitive belt 110 through which the laser beam from the laser scanning unit 130 arrives is provided.

4, as in the first embodiment described above, the loop-shaped photosensitive belt 110 is supported by three rollers. The secondary roller 122 is also elastically biased by the bias device 170 so as to be movable in a direction in which a constant tensile force is applied to the photosensitive belt 120. The third roller 123 is rotated by a power source not shown to circulate the photosensitive belt 110. On the other hand, in the developing region between the secondary roller 122 and the tertiary roller 123, a backup roller 143a located on the opposite side of the exposure surface of the photosensitive belt 110 is provided at equal intervals, and the photosensitive belt 110 The guide roller 160 is provided in front of each of the backup rollers 143a in the direction of travel. As described above, the guide roller 160 is formed from the laser scanning unit 130 when the developing device 140 installed to be foldable to the photosensitive belt 110 is bent in the developing region of the photosensitive belt 110. To guide the photosensitive belt 110 to maintain a constant optical distance to the exposed portion of the photosensitive belt 110. On the other hand, the squeeze roller 146 for squeezing the developer attached to the photosensitive belt 110 is installed to be closer to the photosensitive belt than the developing roller 143, the photosensitive belt 110 is secondary roller 122 And bent while being serrated between the third roller 123.

As described above, the second embodiment scans a portion where the laser beam from the laser scanning unit 160 arrives when the developing apparatus 140 approaches the photosensitive belt 110 and becomes printable. A constant distance and a constant optical distance from the unit are always maintained. According to this structure, the guide roller 160 not only serves to guide the exposed portion of the photosensitive belt 110 as described above, but also has a function of squeezing more than the developer attached thereon.

As described above, according to the present invention, the space occupied by the photosensitive belt and the developing apparatus, in particular, the space occupied by the photosensitive belt is greatly reduced in comparison with the related art. In particular, in the case of the first embodiment, the number of parts is reduced because the squeeze backup roller as in the conventional printer is unnecessary. In addition, by guiding the exposure area of the photosensitive belt that the laser beam reaches, it is possible to prevent the variation of the laser beam's reach according to the change in tensile force of the photosensitive belt and its traveling path.

According to the present invention, the internal design of the printer can be facilitated, and the volume occupied by the internal components of the printer can be lowered, in particular, the height can be reduced, and thus the product can be made thin and light. The scope of the present invention is not limited by the above-described embodiments, and can be embodied in various forms based on conventional techniques, which also belong to the technical scope of the present invention.

Claims (3)

Primary, secondary and tertiary rollers for circulating the photosensitive belt onto the closed loop; A plurality of backup rollers provided at predetermined intervals between the secondary roller and the tertiary roller; A plurality of developing devices including a developing roller corresponding to the backup roller, and a squeeze roller for removing excess developer attached to the photosensitive belt; A plurality of laser scanning units for developing a predetermined electrostatic latent image in the developing region of the photosensitive belt; In the developing device for a wet electrophotographic printer provided, The squeeze roller of the developing apparatus is positioned closer to the linear path formed by the secondary roller and the tertiary roller than the developing roller, and the secondary roller is elastically moved in the direction of applying a constant tensile force to the photosensitive belt. It is configured to be elastically biased so that, when the developing apparatus is approached to the photosensitive belt side during printing, the photosensitive belt between the secondary roller and the tertiary roller is configured to proceed in a curved path Type printer. The method of claim 1, A guide roller for guiding a portion of the photosensitive belt exposed by the laser scanning unit at a position corresponding to the laser scanning unit so as to maintain an optical distance from the scanning unit at a position opposite to the exposure portion of the photosensitive belt; Wet electrophotographic printer, characterized in that. The wet electrophotographic printer according to any one of claims 1 to 3, wherein the developing devices and the laser scanning units are arranged in a straight line and arranged in parallel in the horizontal direction.

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