KR100238325B1 - Photosensitive belt steering apparatus for printer - Google Patents

Abstract

Disclosed is a photosensitive belt steering apparatus for a printing press having an improved structure to prevent photosensitive belt meandering without tilting the entire roller.

This disclosed apparatus includes a frame; A shaft rotatably installed in the frame; A main guide roller which is installed on the shaft so as to be flowable and rotatable in a longitudinal direction, and whose outer circumference portion is in contact with the photosensitive belt to guide the progress of the photosensitive belt; An elastic regulation member installed on the shaft so as to be positioned at each of both sides of the main guide roller, and elastically regulating the longitudinal movement of the main guide roller according to the meandering of the photosensitive belt; It is disposed on the shaft around the guide roller, and has a spacer which is inclined at a predetermined angle with respect to the outer circumferential direction of the shaft, and an inclined shell which is rotatably installed on the outer circumference of the spacer and whose outer peripheral surface is in contact with the photosensitive belt. A steering roller for correcting the meandering of the photosensitive belt in contact with the outer circumference of the inclined shell by changing the inclined direction of the inclined shell; And a driving means installed between the frame and the shaft to control the rotation angle of the shaft.

Description

Photosensitive belt steering for printing press

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photosensitive belt steering device capable of preventing lateral slip of a photosensitive belt employed in a printing press, and in particular, prevents photosensitive belt meandering without tilting the entire roller supporting the photosensitive belt. The present invention relates to a photosensitive belt steering device for a printing press having an improved structure.

In general, a printer such as a laser printer is a device for forming a latent electrostatic image by scanning a laser beam on a photosensitive medium, developing with a toner of a predetermined color using a developing unit, and then transferring it to a printing paper for printing.

Referring to FIG. 1, a general printing machine includes a photosensitive belt 10 that is wound around a driving roller 20, a transfer backup roller 30, and a steering roller 41 installed in a printer main body to rotate a predetermined track.

And around the photosensitive belt 10, an erasing lamp 60 for erasing the surface potential formed on the photosensitive belt 10, a charger 70 for charging the photosensitive belt 10 whose surface potential is reset to a predetermined electric potential, and photosensitive. A plurality of laser scanning units (LSUs) 80 for scanning a laser beam on the belt 10 to form an electrostatic latent image corresponding to each color, and a plurality of developing units for developing a portion in which an electrostatic latent image is formed ( 90) is installed.

As such, in the printer provided, the photosensitive belt 10 is wound around the rollers 20, 30, 41, and meanders in the longitudinal direction of the rollers 20, 30, 41.

Therefore, the printer includes a meander detection sensor (not shown) for detecting the meandering of the photosensitive belt 10 and a photosensitive belt steering device 40 for correcting the meandering.

1 and 2, the conventional photosensitive belt steering device 40 includes a frame 42 installed on the printing main body 1, a rotating member 46 installed on the frame 42 so as to be rotatable, and The steering roller 41 is installed on the rotating member 46 to support the photosensitive belt 10 to pivot along a predetermined track, and to prevent wrinkles of the photosensitive belt 10 passing through the steering roller 41. A pair of stabilizing rollers 43 provided on the frame 42 and an adjusting unit 50 mounted on the printing main body 1 to adjust the tilt of the steering roller 41 up and down (arrow A direction) are adjusted. Include.

The pivot member 46 is coupled by a coupling pin 47 to the pivot bar 44 elastically coupled to the frame 42, so that the pivot member 46 can rotate about a portion where the coupling pin 47 is coupled on the XY plane. Is installed. The rotating member 46 is a pressure applied to the contact portion between the steering roller 41 and the photosensitive belt 41 by the elastic member 45 interposed between the rotating bar 44 and the frame 42. Is rotated in a direction to compensate for the imbalance. The steering roller 41 has a rotating shaft 41a coupled to the installation groove 46a formed in the rotation member 46. The mounting groove 46a is provided with an elastic piece 48 for supporting the rotating shaft 41a of the steering roller 41 by pressing in the direction of the cam member 49.

The adjustment unit 50 has a drive motor 48 fixed to the frame, the center thereof is coupled to the rotation shaft 54 of the drive motor 48, a cam member 51 having a cam groove 52, and It is coupled to the rotation member 46 and includes a rotation guide protrusion 49 installed to fit in the cam groove (52). Therefore, the position of the cam groove 52 is changed by the rotation of the drive motor 48, the height of the rotation guide projection 49 is variable. Accordingly, the steering roller 41 is rotated in the direction of the arrow A around the pivot bar 44.

Therefore, when the meandering degree of the photosensitive belt 10 is detected by the meandering detection sensor, the steering roller 41 is tilted according to the position of the cam member 51. Accordingly, the photosensitive belt 10 is moved in one width direction to correct meandering.

Each of the pair of stable rollers 43 is installed in the frame 42 in a direction parallel to the steering roller 41, the portion of the photosensitive belt 10 toward the steering roller 41, the steering roller 41 While suppressing the folding of the photosensitive belt 10 in contact with the portion passing through), the height variation of the photosensitive belt according to the steering does not affect the laser scanning unit 80.

As described above, by correcting the meandering of the photosensitive belt 10 by the tilting of the entire conventional photosensitive belt steering device 41, the folding of the photosensitive belt 10 is likely to occur. In view of this, it is necessary to have two stabilizer rollers 43 described above, and the distance between the stabilizer roller 43 and the steering roller 41 (x in FIG. 1) is controlled by the steering roller 41. Since it must be long enough to bend, there is a limit to miniaturization of the overall size.

In addition, since the elastic member 45 interposed between the rotation bar 44 and the frame 42 exerts tension on the photosensitive belt 10, the structure of releasing and installing tension is complicated.

The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a photosensitive belt steering apparatus for a printing press which can correct the meandering of the photosensitive belt without tilting and meandering of the entire steering roller.

1 is a schematic view showing a printing press employing a conventional photosensitive belt steering device.

Figure 2 is a schematic exploded perspective view showing a conventional photosensitive belt steering device.

Figure 3 is a sectional view showing a photosensitive belt steering device for a printing press according to an embodiment of the present invention.

Figure 4 is a perspective view for explaining a photosensitive belt steering device for a printing press according to the present invention.

5 to 7 is a schematic view showing for explaining the operation of the photosensitive belt steering apparatus for a printing press according to the present invention.

<Explanation of symbols for main parts of the drawings>

100 ... Photosensitive belt 110 ... Frame 111 ... Installation groove

113 1st Bearing 120 Shaft 130 Main Guide Roller

132 ... 2nd Bearing 140 ... Elastic Restriction Member ... 141 ... Stopper

142 ... elastic member 150 ... steering roller 151 ... spacer

152 Set screw 153 3rd bearing 154 Inclined shell

160 ... Subguide Roller 162 ... Fourth Bearing 170 ... Driving Means

171 Drives 172 Gears 173 Gears 2

In order to achieve the above object, a photosensitive belt steering apparatus for a printer according to the present invention includes a frame; A shaft rotatably installed in the frame; A main guide roller which is installed on the shaft so as to be movable and rotated in the longitudinal direction, and a part of the outer circumference thereof contacts the photosensitive belt to guide the progress of the photosensitive belt; An elastic restraining member installed on the shaft so as to be positioned at each of both sides of the main guide rollers to elastically restrict the longitudinal movement of the main guide rollers according to the meandering of the photosensitive belt; A spacer disposed on the shaft around the guide roller, the spacer being inclined at a predetermined angle with respect to the outer circumferential direction of the shaft, and an inclined shell rotatably installed on the outer circumference of the spacer, the outer peripheral surface of which is in contact with the photosensitive belt; A steering roller for correcting meandering of the photosensitive belt in contact with the outer circumference of the inclined shell by changing the inclined direction of the inclined shell according to the rotation angle of the shaft; And a driving means installed between the frame and the shaft to control a rotation angle of the shaft.

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

3 is a cross-sectional view showing a photosensitive belt steering device for a printing press according to an embodiment of the present invention, Figure 4 is a perspective view of FIG.

As shown, the present invention, the frame 110, the shaft 120 rotatably installed in the frame 110, the main guide roller 130 for guiding the progress of the photosensitive belt 100 and the An elastic restraint member 140 disposed around the main guide roller 130 to regulate the longitudinal movement of the main guide roller 130 according to the meandering of the photosensitive belt 100, and a rotation angle of the shaft 120. Steering roller 150 for correcting the meandering of the photosensitive belt 100 and the drive means 170 is installed between the frame 110 and the shaft 120 to control the rotation angle of the shaft 120 It is configured to include).

The frame 110 has a structure in which both ends thereof face each other at a predetermined interval so that both ends of the shaft 120 may be rotatably coupled and have an installation groove 111 for installing the shaft 120. .

A first bearing 113 for rotatably supporting the shaft 120 with respect to the frame 110 is coupled to the installation groove 111.

The shaft 120 is rotatably installed on the frame 110 by the first bearing 113, the main guide roller 130, the elastic regulation member 140 and the steering roller (130) on the outer peripheral surface thereof ( 150 is rotatably installed.

The main guide roller 130 is installed on the shaft 120 so as to flow and rotate in the longitudinal direction, and a portion of the outer circumference thereof contacts the photosensitive belt 100 to guide the progress of the photosensitive belt 100. . That is, when the photosensitive belt 100 meanders in the longitudinal direction of the shaft 120 by the steering roller 150, the photosensitive belt 100 moves together with the photosensitive belt 100 to cause damage such as wrinkles of the photosensitive belt 100. Can be prevented.

The main guide roller 130 is a hollow cylindrical roller installed in the shaft 120 by a plurality of second bearings 132 so as to flow and rotate. Here, the second bearing 132 is preferably a metal bearing having the shaft as the inner ring.

The elastic regulating member 140 has a pair of stoppers 141 fixed to the shaft 120 to be located at both sides of the main guide roller 130, the main guide roller 130 and the stopper 141. Interposed between the main guide roller 130 is composed of an elastic member 143 to elastically support.

As described above, when the main guide roller 130 flows in the longitudinal direction of the shaft 120 by the configured elastic regulation member 140, the load load is greatly reduced by elastically restricting the movement width. The meandering correction of the photosensitive belt 100 can be guided.

The steering roller 150 is installed to be inclined to the shaft 120 around the elastic restricting member 140, and the inclination direction is determined by the rotation angle of the shaft 120. That is, the inclination angle of the portion in contact with the photosensitive belt 100 is adjusted according to the rotation angle of the shaft 120 to correct the meandering of the photosensitive belt 100.

Preferably, the main guide roller 130 is installed to contact the image area 100a of the photosensitive belt, and the steering roller 140 is installed to contact the non-image area 100b of the photosensitive belt 100. do.

To this end, the steering roller 150 is rotatable on the outer periphery of the spacer 151 at the same inclination angle as the spacer 151 is inclined at a predetermined angle with respect to the outer circumferential direction of the shaft 120 and the spacer 151. The inclined shell 154 is installed, and the third bearing 153 is disposed between the spacer 151 and the inclined shell 154.

The spacer 151 has a hollow having a diameter corresponding to the outer diameter of the shaft 120 to be inclined to the shaft 120. The hollow is formed to be inclined with respect to the outer circumference of the shaft 120 so that the entire spacer 151 is inclined when the hollow is coupled to the shaft 120. Here, a fastening groove is formed over the shaft 120 and the spacer 151, and the spacer 151 is fixed to the shaft 120 by assembling the set screw 152 in the fastening groove. Can be.

The inclined shell 154 is rotatably installed on the outer circumference of the spacer 151 by the third bearing 153 and is in contact with the photosensitive belt 100 to correct meandering in the longitudinal direction of the shaft 120. do. The inclined shell 154 preferably has a rounded outer circumferential surface so that the contact portion with the photosensitive belt 100 is wide. That is, the height of both sides of the inclined shell 154 is the same as the height of the main guide roller 130 and the sub guide roller 160 to be described later, the height of the center portion of the inclined shell 154 is the main And the height of the subguide rollers 130 and 160 to widen the contact portion with the photosensitive belt 100 by making the curved portion of the photosensitive belt 100 contact with the outer circumference of the inclined shell 144. Can be. In addition, the outer circumferential surface of the inclined shell 154 is preferably subjected to a surface treatment such as a rubbing treatment so that the frictional force with the photosensitive belt 100 is increased.

Here, an example in which the steering roller 150 is provided on both sides of the elastic regulation member 140 is shown, but this is merely illustrative, and may be provided on at least one side of the elastic regulation member 140. .

The outer side of the steering roller 150 may be further provided with a pair of sub-guide roller 160 to support both sides of the photosensitive belt 100. The sub guide roller 160 is rotatably installed on the shaft 120 by a fourth bearing 162.

The drive means 170 is installed between the frame 110 and the shaft 120 to adjust the inclination direction of the steering roller 150 to correct the meandering of the photosensitive belt 100 the shaft 120 Control the angle of rotation. To this end, the driving means 170 includes a driving source 171 for providing a rotational force, and gear members 172 and 173 for transmitting the rotational force provided from the driving source 171 to the shaft 120.

The drive source 170 is installed in the frame 110 and has a rotation axis that is rotationally driven. The gear member includes a first gear 172 rotated about the rotation shaft and a second gear 173 rotated about the shaft 120 and driven to engage with the first gear 172.

Here, the rotation axis of the drive source 171 without the gear members 172, 173 may be disposed coaxially with the shaft to control the rotation angle of the shaft 120.

Hereinafter, an operation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 5, when the photosensitive belt 100 traveling in the direction of arrow + B meanders in the direction of arrow -C, the shaft 120 is moved so that the photosensitive belt 100 is moved in the direction of arrow + C. By rotating the steering roller 140 in the clockwise direction by the rotation of, the photosensitive belt 100 and the contact portion is disposed so as to tilt to the right when viewed in a plan view. Therefore, the photosensitive belt 100 is subjected to the force in the direction of rotation of the guide roller 130 and the steering force in the direction of the arrow + C in accordance with the inclination of the steering roller 140. Accordingly, the photosensitive belt 100 is pivoted and gradually moved together with the main guide roller 130 in the arrow + C direction to correct the meandering of the photosensitive belt 100 in the arrow -C direction. At this time, the photosensitive belt 100 and the main guide roller 130 are excessively biased to the right side by the elastic force applied to the elastic control means 140 disposed on the right side.

On the other hand, when the photosensitive belt 100 is pivoted without meandering, as shown in FIG. 6, when viewed in a plan view, the steering roller 140 is disposed parallel to the radial direction of the shaft 130, and thus the photosensitive member 100 is rotated. The belt 100 is prevented from applying a force in the longitudinal direction of the shaft 120.

When the photosensitive belt 100 meanders in the direction of an arrow + C, as shown in FIG. 7, the steering roller 140 is rotated counterclockwise by rotating the shaft 120 by the driving means 150. Rotate by a predetermined angle. Therefore, the photosensitive belt 100 is subjected to the force in the direction of rotation of the guide roller 130 and the steering force in the direction of the arrow -C according to the rotation angle of the steering roller 140. Accordingly, the photosensitive belt 100 is pivoted and gradually moved along the arrow-C direction together with the main guide roller 130 to correct the meandering in the arrow + C direction of the photosensitive belt 100.

At this time, the photosensitive belt 100 and the main guide roller 130 are excessively biased to the left side by the elastic force applied to the elastic control means 140 disposed on the left side.

As described above, the photosensitive belt steering apparatus for a printing press according to the present invention is rotatably installed on the shaft 120, and the steering roller without tilting and meandering of the guide roller 130 for guiding the turning of the photosensitive belt 100. By correcting the meandering of the photosensitive belt 100 in accordance with the rotation of 140, it is possible to eliminate a pair of stable rollers that were used as essential components of the prior art, it is possible to miniaturize the size of the entire steering device.

In addition, since the main guide roller 130 moves in a direction for correcting meandering together with the photosensitive belt 100, the load of the photosensitive belt 100 is greatly reduced, thereby preventing damage to the photosensitive belt according to the tension of the photosensitive belt 100. It can be fundamentally suppressed.

Claims (6)

A frame; A shaft rotatably installed in the frame; A main guide roller which is installed on the shaft so as to be movable and rotated in the longitudinal direction, and a part of the outer circumference thereof contacts the photosensitive belt to guide the progress of the photosensitive belt; An elastic restraining member installed on the shaft so as to be positioned at each of both sides of the main guide rollers to elastically restrict the longitudinal movement of the main guide rollers according to the meandering of the photosensitive belt; A spacer disposed on the shaft around the guide roller, the spacer being inclined at a predetermined angle with respect to the outer circumferential direction of the shaft, and an inclined shell rotatably installed on the outer circumference of the spacer, the outer peripheral surface of which is in contact with the photosensitive belt; A steering roller for correcting meandering of the photosensitive belt in contact with the outer circumference of the inclined shell by changing the inclined direction of the inclined shell according to the rotation angle of the shaft; And a driving means installed between the frame and the shaft to control a rotation angle of the shaft. The method of claim 1, wherein the elastic regulation member, A stopper fixed to the shaft to be disposed between the main guide roller and the steering roller; And a resilient member interposed between the main guide roller and the stopper to elastically support the main guide roller. The apparatus of claim 1, wherein the steering roller is provided with at least one steering wheel so as to face at least one of the non-image areas located on both sides of the image area of the photosensitive belt. . The photosensitive belt steering apparatus according to claim 1 or 2, wherein the inclined shell has a rounded outer circumferential surface such that the contact portion with the photosensitive belt is wide. The method of claim 1, wherein the driving means, A drive source mounted to the frame, the drive source having a rotation shaft driven to rotate; And a gear member formed across the rotation shaft and the shaft to transfer the rotational force provided from the driving source to the shaft. According to claim 1, It is rotatably installed on the shaft in the outer position of the steering roller, the outer peripheral portion of the contact with the photosensitive belt further comprises a sub guide roller for guiding the progress of the photosensitive belt, characterized in that it further comprises Photosensitive belt steering for printers.

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