JP2004345822A - Paper feeder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that when replacement of a plate of a preparation apparatus is automated to reduce the size of the apparatus, interference is caused between a preparation part unit and a side plate of a paper feeder, and in the constitution where the upper part of the side plate is cut to avoid the interference, in feeding a paper sheet near the maximum loading height, the paper sheet is a little earlier released from the regulation of the side plate, so that meandering is liable to occur to deteriorate the printing quality. <P>SOLUTION: This paper feeder is so constructed that an auxiliary plate 28 for regulating the paper side edge part in a range from the maximum loading height of paper to a step part 25a of the side plate 25 is rotatably fitted to the side plate 25 by giving a habit of turning clockwise around a pin P<SB>A</SB>to the plate 28. The paper sheet having the maximum loading height is regulated by the auxiliary plate 28, and as the paper sheets 26 decrease in number, a paper feed tray 24 is raised and moved by abutting a stay 15 of the lower part of the preparation part unit 27 on the auxiliary plate 28. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
[Industrial applications]
The present invention relates to a paper feeding device capable of supplying a large amount of paper used in a printing device or the like. In particular, the present invention relates to a paper feed tray structure in which the paper feed tray can freely move up and down and has a side plate for aligning paper.
[0002]
[Prior art]
17 and 18 are diagrams for explaining a problem in the printing apparatus.
In both figures, 1 is a plate cylinder, 2 is an ink roller, 3 is a doctor roller, 4 is an ink reservoir, 5 is an ink pipe, 6 is a stage, 7 is a clamper, 8 is a master, 9 is a platen roller, 10 is a thermal head, 11 is a cutter, 12 is a conveying roller pair, 13 is a guide plate, 15 is a stay, 17 is a press roller, 18 is a press roller arm pair, 19 is a peeling claw, 20 is a registration roller, 21 is a separation roller, and 22 is a separation roller. , 23 are paper feed rollers, 24 is a paper feed tray, 25 is a side plate, 26 is paper, and 27 is a plate making unit.
[0003]
The configuration of the device will be described.
The master 8 is wound around a roll 8a, and a roll core 8b is rotatably supported by holder means provided on a plate making unit side plate (not shown). The master 8 is pressed against a platen roller 9 rotatably supported by a plate making unit side plate (not shown) by a thermal head 10 having heating elements arranged in a line. The platen roller 9 is rotated clockwise by a stepping motor (not shown), so that the master 8 is fed out from the master roll 8a and supplied.
[0004]
The thermal head 10 is urged toward the platen roller 9 by a spring member (not shown). Downstream of the platen roller 9 in the master conveyance, a pair of conveyance rollers 12 rotatably supported on a plate making unit side plate (not shown) while being pressed against each other is provided. The conveying roller pair 12 is set at a speed slightly higher than the peripheral speed of the platen roller 9 so as to apply an appropriate tension while sliding with the master 8. The platen roller 9 is transmitted clockwise by a stepping motor (not shown) and is driven to rotate clockwise.
[0005]
On the downstream side of the platen roller 9 in the master conveyance direction, there are provided upper and lower blades (guillotine type) or rotary blade moving type cutters 11 for cutting the master 8 made into plates to an appropriate length. A curved guide plate 13 that is fixed between plate making side plates (not shown) and guides the leading end of the master 8 is provided downstream of the pair of transfer rollers 12 in the master conveyance direction. These constitute the plate making unit 27.
A stay 15 is fixed below the plate making unit 27 between the housing side plates.
[0006]
On the lower left side of the plate making section, a printing device centering on the plate cylinder 1 is arranged.
The plate cylinder 1 is configured by winding a plurality of layers of a porous support cylindrical body and a mesh screen of a resin or metal mesh (not shown) covering the outer periphery thereof. A flange (not shown) fixed to the plate cylinder 1 is rotatably supported by an ink pipe 5 as a support shaft, and is driven to rotate clockwise by transmitting a driving force by a drive transmitting means (gear or the like) (not shown).
Inside the plate cylinder 1, an ink roller 2 rotatably supported on an ink roller shaft portion by a side plate (not shown) fixed to an ink pipe 5 is driven by a plate (not shown) by drive transmission means (gear, belt, etc.). It is driven to rotate in the same direction in synchronization with the body 1.
[0007]
A doctor roller 3 is provided with a slight gap from the outer peripheral surface of the ink roller 2, and the ink in the ink pool 4 formed in the wedge-shaped space between the ink roller 2 and the doctor roller 3 is formed into a thin film on the outer surface of the ink roller 2. Supply. The ink in the ink reservoir 4 is sucked by an ink supply device (not shown) from an ink pack or the like provided outside the plate cylinder, supplied to the ink reservoir 4 through a supply hole of the ink pipe 5, and kneaded.
[0008]
A stage 6 made of a magnetic material is provided on a surface of the non-opening portion of the plate cylinder 1 along one generatrix of the plate cylinder 1. A clamper 7 is rotatably supported in parallel with the stage 6, and the clamper 7 is opened and closed at a predetermined position by an opening / closing device (not shown). The plate cylinder 1 can be detachably engaged with an ink pack or the like by a unit in its own axial direction.
[0009]
An arm shaft 18a rotatably supported by a housing side plate (not shown), and a shaft portion rotatably supported by a pair of press roller arms 18 fixed to the arm shaft 18a are provided below the plate cylinder 1 as pressing means. Press roller 17 is provided. A cam follower (not shown) is provided at one end of the arm shaft 18a. The cam follower is rotatably supported by a housing side plate (not shown) and rotates in synchronization with the plate cylinder 1. The sheet cylinder 1 comes into contact with or separates from the plate cylinder 1, and is held at a position separated from the plate cylinder 1 except when paper is passed.
[0010]
On the right side of the press roller 17, a pair of side plates 25 for restricting the movement of the side edge of the paper 26 is movably provided on the upper surface of a paper feed tray 24 that can be raised and lowered by a paper feed table motor (not shown). I have.
The side plate 25 is configured to be able to move the groove 24a of the paper feed tray 24 in a direction orthogonal to the paper feeding direction, and to be able to fix the side plate 25 at an arbitrary position according to the width of the paper to be used. In front of the sheet feeding tray 24 in the sheet feeding direction, a separation sheet feeding device including a separation roller 21, a separation roller 22, and a sheet feeding roller 23 for separating and feeding the stacked sheets of paper 26, There is provided a registration roller 20 for taking the sheet and conveying it between the plate cylinder 1 and the press roller 17.
On the left side of the plate cylinder 1, a rotatably supported peeling claw 19 for peeling the sheet from the surface of the plate cylinder 1 near the plate cylinder 1, and on the lower side, a discharged sheet 26. A discharge tray (not shown) to be loaded is provided.
[0011]
Next, the operation will be described.
An operation is started when a document is set on a document reading device (not shown) and a start button on an operation panel (not shown) is pressed. The plate cylinder 1 is rotated by a drive motor (not shown), and the used master wound on the plate cylinder 1 is peeled and discarded by a plate discharging device (not shown). The plate cylinder 1 is rotated to a position where the clamper 7 is located substantially right beside and stopped, and the clamper 7 is released to enter a plate making standby state.
[0012]
After the release of the clamper 7, a document (not shown) is sent out, and image information on the document is converted into an electric signal by a CCD or the like. The signal is supplied to the heating element of the thermal head 10 on the master 8 in a pulse form according to image information via an A / D converter, a plate making control device, and the like. A signal is applied in the main scanning direction, and a stepping motor (not shown) is rotated, and the master 8 is conveyed in the sub-scanning direction by the platen roller 9 and the conveying roller pair 12, so that the heat-sensitive film of the master 8 is heated and perforated. Plate making is performed. The tip of the master 8 is guided by the master guide plate 13 between the stage 6 and the clamper 7. If it is determined from the number of steps of a stepping motor (not shown) that the tip of the master 8 has reached the clamper 7, it is not shown. The clamper 7 is closed by the opening / closing device, and the leading end of the master 8 is sucked and clamped, and the plate cylinder 1 resumes rotation at substantially the same speed as the master transport speed. When it is determined from the number of steps of a stepping motor (not shown) that the plate making is completed, the cutter 11 is operated to cut the master 8, and the platen roller 9 and the conveying roller pair 12 are stopped. The end is pulled out by the rotation of the plate cylinder 1 and the winding around the plate cylinder 1 is completed.
[0013]
In parallel with the operation of winding the master 8 around the plate cylinder 1, the paper 26 stacked on the paper feed tray 24 is transported by the paper feed roller 23 and the separation roller 21, and one sheet is separated by the separation roller 22. And sent out. The paper 26 is conveyed toward the space between the plate cylinder 1 and the press roller 15 at a timing by the registration roller 20. When the insertion of the sheet 26 is detected by a sensor (not shown), the locking means (not shown) is released, and the press roller 17 continuously presses the sheet 26 against the plate cylinder 1 to perform printing.
[0014]
The printed paper 26 is separated from the plate cylinder 1 by the separation claw 19 approaching and separating from the plate cylinder 1, discharged and stacked on a discharge tray (not shown), and the master 8 is filled with ink. Thereafter, printing of the set number of sheets is performed by the same operation.
The paper feed tray 24 rises continuously or intermittently so that the upper surface of the paper 26 is at a substantially constant position.
The paper feed tray 24 repeats ascending until the last sheet of paper 26 runs out, descends as the loaded sheet of paper 26 runs out, and returns to the initial position.
[0015]
In a conventional printing apparatus, the operator mounts the master and discards the master. The upper part of the paper tray, which can be freely moved up and down, has few obstructions and a side for holding the side of the paper. The plate was provided close to the leading edge of the paper. However, in recent years, a fully automatic type that automatically performs plate-formation and plate-discharge has been mainstream (for example, see Patent Literature 1). The side plate provided on the upper surface of the table tray has to be installed at a position away from the leading edge of the sheet in order to avoid contact with the upper member when ascending.
As shown in FIG. 17, it is conceivable to provide a step 25a at the upper portion of the side plate 25 in order to avoid contact with the stay 15 at the lower portion of the plate making unit 27.
[0016]
However, since the side plate that regulates the side portion of the sheet is provided at a position distant from the leading edge of the sheet, a problem occurs when the sheet size is short. For example, as shown in FIG. 18, a case is considered in which the uppermost sheet at the maximum stacking height Hmax is fed by a separation conveyance device that conveys the sheets while separating the sheets. At this time, if the trailing edge of the sheet is separated from the side plate early in the course of conveyance and is not properly regulated, and the difference in the left and right frictional force of the separating portion or the like or the skew force by the feeding means is applied, When the trailing edge of the fed sheet passes through the side plate, the sheet may meander. In the state where skew occurs due to meandering, even if the sheet abuts on the registration roller and the leading edge position is aligned, it cannot be corrected up to the amount of movement in the inclined and advanced state, and it is aligned at a position slightly shifted left and right. Printing is performed. For this reason, a problem that the registration in the lateral direction of the conveyance is deteriorated is likely to occur.
[0017]
When overprinting or double-sided printing is performed on the paper printed in that state, there is a problem that the image is shifted and the print quality is deteriorated. In recent years, multi-color printing has become easier by replacing the drum.For flyers that often perform overprinting on one side, or when performing double-sided printing to reduce the amount of paper used, front and back printing is required. Image shift has become a problem. If the paper restricting member of the paper feed tray is fixed and only the stacked paper rises as in the past, the restricting member will not hit other places. It was easy to do. However, in the type in which the paper feed tray itself rises, the drive unit and the housing become obstructive with the rise, so it can be installed only at the position retracted from the contact position. However, there has been a tendency that the skew gets out of the regulation means early and the skew increases.
[0018]
[Patent Document 1]
JP-A-2003-72214 (page 3, FIG. 1)
[0019]
[Problems to be solved by the invention]
Provided is a sheet feeding device capable of preventing registration deviation of a small-size sheet in a lateral direction. That is, it is an object of the present invention to provide a method capable of restricting both sides of a sheet at least between the maximum stacking height Hmax and the step 25a.
[0020]
[Means for Solving the Problems]
According to the first aspect of the present invention, a sheet tray on which sheets are stacked and which can freely move up and down, and an upper surface of the sheet tray is provided so as to be movable in a direction orthogonal to a sheet feeding direction of the sheets, and a side edge of the sheet is provided. And a pair of side plates for abutting the side edges of the sheet, the inner surface of the side plate is supplied with the sheet being fed at least at the maximum stacking height. A movable auxiliary plate for regulating at least a rear side edge in the paper direction is provided.
[0021]
According to a second aspect of the present invention, in the paper feeder according to the first aspect, the auxiliary plate is held at a predetermined initial position by a biasing unit, and comes into contact with a fixing member as the paper feed tray rises. Characterized by being moved by
According to a third aspect of the present invention, in the paper feeder according to the second aspect, the auxiliary plate returns to the initial position as the paper feed tray is lowered.
According to a fourth aspect of the present invention, in the paper feeder according to any one of the first to third aspects, the movement of the auxiliary plate is a rotation about one point.
[0022]
According to a fifth aspect of the present invention, in the paper feeder according to any one of the first to third aspects, the movement of the auxiliary plate is a parallel movement.
According to a sixth aspect of the present invention, in the paper feeder according to any one of the first to third aspects, the movement of the auxiliary plate is a combination of a parallel movement and a rotation around one point. I do.
According to a seventh aspect of the present invention, in the paper feeder according to the fifth aspect, the parallel movement is performed by a link mechanism.
According to an eighth aspect of the present invention, in the paper feeder according to the fifth or sixth aspect, the parallel movement is performed by a sliding mechanism.
According to a ninth aspect of the present invention, there is provided a printing apparatus using the sheet feeding device according to any one of the first to eighth aspects.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 are diagrams for explaining an embodiment of the present invention.
In both figures, reference numeral 28 indicates an auxiliary plate. Other reference numerals are based on FIG. In addition, in order to avoid complication, the plate body is omitted in FIG.
The auxiliary plate 28 has a pin P serving as a rotation center. _A 1 and is rotatably attached to both side plates 25, and is given a clockwise rotation behavior by a biasing member (not shown) such as a spring, and is held at the initial position shown in FIG.
The inner surface (surface facing the paper side) of the auxiliary plate 28 is provided at a position that is substantially flush with the inner surface of the side plate 25, and is in contact with and aligned with the side edge of the paper 26 similarly to the side plate 25. It has become. The side plate 25 can be moved in the width direction of the paper in the groove on the upper surface of the paper feed tray 24 as in the related art. The relationship between the auxiliary plate and the side plate with respect to the sheet is the same in each of the following embodiments.
According to this configuration, even when the sheets having the maximum stacking height Hmax are replenished, even when the uppermost sheet is fed, both sides of the rear end are sufficiently regulated as in the case of the lowermost sheet. .
[0024]
As the number of sheets 26 decreases, the sheet feed tray 24 moves up, and the upper edge of the auxiliary plate 28 approaches the stay 15 below the plate making unit 27.
As shown in FIG. 2, when they come into contact with each other, the auxiliary plate 28 is rotated counterclockwise against the rotation behavior of the urging member, and is withdrawn from the movement path of the stay 15. At this time, since the sheet feeding position has already been sufficiently lowered and the role of the auxiliary plate has ended, no problem occurs even if the auxiliary plate 28 moves from the initial position.
When all the sheets 26 are fed, the sheet feeding tray 24 starts to descend, and returns to the initial position where sheets of the maximum stacking height can be supplied. Along with this movement, the auxiliary plate 28 also rotates clockwise according to the rotation behavior of the urging member, and also returns to the initial position shown in FIG.
[0025]
FIG. 3 is a plan view showing the vicinity of the sheet feeding tray of the embodiment shown in FIG.
In the figure, reference numeral 29 denotes a side plate of the printing apparatus main body, and 30 denotes an auxiliary side plate. The separation roller 21 is attached to a shaft 21 a, both ends of which are supported by both body side plates 29, and is disposed near the leading end of the paper 26 and substantially at the center in the width direction. The paper feed roller 23 is kept at a constant distance from the separation roller 21 by a pair of auxiliary side plates 30, and receives a driving force from outside the paper feed tray 24 by a shaft 23a.
[0026]
Since the side plate 25 does not hit the shaft 23a even when the sheet feeding tray 24 moves in the vertical direction, the regulating edge 25b cannot be extended to the leading end of the sheet.
The inner surface of the side plate 25 is basically configured to abut on the side edge of the sheet to perform the function of sheet alignment, but the movement locus of the auxiliary plate 28 is reduced in thickness (not shown). , The inner surface of the auxiliary plate coincides with the surface that abuts on the side edge of the sheet.
[0027]
4 and 5 are diagrams for explaining another embodiment of the present invention. 4A and 4B show a state after the auxiliary plate abuts on the stay, FIG. 5A shows a state when the remaining paper is low, and FIG. 5B shows a modified embodiment of the side plate.
In both figures, reference numeral 31 indicates an auxiliary plate. In order to avoid complication, the inside of the plate making unit 27 is omitted in FIG.
In this embodiment, the auxiliary plate 31 includes two pins P _B Are fitted in two inclined long holes 25c provided in the side plate 25, and are configured to move in parallel by sliding. The auxiliary plate 31 is provided with a return habit of being pushed obliquely upward and leftward by a spring or the like (not shown). Further, it is assumed that the auxiliary plate 31 is configured not to come off on the inner surface side even when there is no paper.
For the sake of simplicity, the sliding portion will be described as a combination of a pin and a long hole, but it is clear that any other commonly used sliding mechanism may be used.
[0028]
When the paper feed tray 24 rises and the stay 15 comes into contact with the auxiliary plate 31, the auxiliary plate 31 is moved to the lower right by sliding along the elongated hole 25c against the returning behavior to the upper left. . When the paper is exhausted and the paper feed tray returns to the initial position as described above, the auxiliary plate also returns to the initial position due to the return behavior.
In FIG. 4, the inclination angle of the elongated hole 25c is shown as an angle of approximately 45 ° with respect to the ascending direction of the paper feed tray 24, but this angle has some degree of freedom. In particular, the movement becomes easier when the paper tray is closer to the one that coincides with the rising direction of the paper feed tray, which is convenient.
[0029]
In FIG. 5A, the elongated hole 25c is shown as a straight line. Alternatively, for example, as shown in FIG. 5 (b), it may be used by being bent in a horizontal direction from a middle portion of the long hole 25c ′ via a curved portion. At this time, the auxiliary plate 31 does not move linearly, but the direction of the plate itself does not change and performs a so-called translational motion. Such a movement is also referred to as a parallel movement in the present invention.
Further, as shown in FIG. 5 (c), the upper one of the two long holes is a short linear long hole 25c ", and the lower long hole 25c 'is the second half. When the auxiliary plate 31 is formed in an arc shape centered on the lower end position of the elongated hole 25c ″, the movement of the auxiliary plate 31 is a parallel movement in a linear portion, and the upper pin P _B Reaches the lower end of the slot 25c ", the pin P _B It changes to rotational movement around. In this case, the auxiliary plate 31 performs an operation of a combination of parallel movement and rotation.
[0030]
6 and 7 are views for explaining still another embodiment of the present invention. FIG. 6 shows a state where the auxiliary plate is at the initial position, and FIG. 7 shows a state where the auxiliary plate is at the maximum movement position.
In both figures, reference numeral 32 indicates an auxiliary plate.
In this embodiment, the auxiliary plate regulates the trailing edge of the sheet from the sheet having the maximum stacking height to the last sheet.
The auxiliary plate 32 includes a pin P serving as a rotation center. _C 6 is rotatably attached to both side plates 25, and is given a clockwise rotation behavior by a biasing member (not shown) such as a spring, and is held at the initial position shown in FIG.
[0031]
A portion 32a of the auxiliary plate 32 that comes into contact with the stay 15 protrudes upward as compared with its surroundings. Therefore, when the paper feed tray 24 continues to rise, the auxiliary plate 32 always comes into contact with the stay 15 at the protruding portion 32a. The auxiliary plate 32 indicated by a virtual line in FIG. 7 indicates a rotation position when the sheet feeding tray 24 reaches the uppermost position. At this time, the lowermost position of the auxiliary plate is a position that comes into contact with the sheet mounting surface of the sheet feeding tray 24, so that the trailing edge of the sheet can be regulated when the last sheet is fed.
[0032]
8 and 9 are views for explaining still another embodiment of the present invention.
In both figures, reference numeral 33 indicates an auxiliary plate, and reference numeral 34 indicates a link.
This embodiment is also configured such that the auxiliary plate regulates the trailing edge of the sheet from the sheet having the maximum stacking height to the last sheet.
The auxiliary plate 33 includes two links 34 having the same length and a pin P. _D Are connected rotatably. The link 34 is connected to the side plate 25 and the pin P _E The two links 34 together with the auxiliary plate 33 and the side plate 25 form a parallel link. The two links 34 are given a clockwise rotation behavior by a spring or the like (not shown), and are configured to hold the position shown in FIG. 8 as an initial position.
[0033]
As one means for reducing the assembly accuracy of the device, a leaf spring 33a is attached by a set screw 33b at a position in contact with the stay 15 on the upper portion of the auxiliary plate, and serves as a safety device. When the leaf spring 33a comes into contact with the stay 15, the leaf spring 33a slightly bends, but the strength of the related spring is selected so that the auxiliary plate 33 starts to move within the whole without being bent.
When the number of sheets decreases and the sheet feeding tray 24 moves up, the lower end of the auxiliary plate 33 reaches the upper surface of the sheet feeding tray while some sheets still remain. If the paper feed tray continues to rise further in this state, the leaf spring 33a is further bent, thereby preventing an excessive load from being applied to the auxiliary plate. The lifting of the sheet feeding tray is completed before the leaf spring 33a is completely bent.
The auxiliary plate 33 moves largely on an arc, but does not change the direction of the plate and performs a so-called translational motion. This movement form is also considered here as a parallel movement.
[0034]
FIGS. 10 and 11 are views for explaining still another embodiment of the present invention.
In the figure, reference numeral 35 indicates an auxiliary plate.
The auxiliary plate 35 has two pins P _F Slides in the long hole 25d of the side plate 25, thereby making it possible to move forward and backward in the sheet feeding direction. The regulating edge of the auxiliary plate 35 is composed of three straight portions 35a, 35b and 35c.
The straight portion 35a functions as a regulating edge when feeding paper near the maximum stacking height Hmax, and contacts the stay 15 when the paper feed tray 24 is raised, and retreats the auxiliary plate 35. And the function of a cam.
[0035]
The straight portion 35b functions as a regulating edge when feeding a sheet of intermediate height.
The straight portion 35c is formed parallel to the straight portion 35a. Since the amount by which the paper feed tray 24 is raised is an amount generated as the amount of paper is reduced, the two are basically equal.
Therefore, the contact point between the stay 15 and the linear portion 35a has a relatively fixed positional relationship with the intersection between the uppermost sheet and the linear portion 35c. That is, after the straight portion 35a contacts the stay 15, the depth at which the uppermost sheet is restricted by the straight portion 35c (the distance from the rear end of the sheet) is always constant.
[0036]
FIGS. 12, 13, and 14 are views for explaining still another embodiment of the present invention. 12 is a diagram illustrating a state where the auxiliary plate is at the initial position, FIG. 13 is a diagram illustrating a state where the remaining paper is low, and FIG. 14 is a diagram illustrating a plane around a sheet feeding tray.
In each figure, reference numeral 36 indicates an auxiliary plate.
This embodiment can be applied to the case where the drive of the shaft 23a of the paper feed roller 23 is given from the shaft 21a as shown in FIG. The transmission of the driving force may be performed by a gear train or a timing belt. The drawing shows an example of a timing belt.
[0037]
In this configuration, the shaft 23a is shortened, and the side plate 25 can be extended to near the leading end of the sheet. Therefore, as shown in FIG. _G The auxiliary plate 36 supported by the support plate can be made as long as the side plate 25. The present embodiment is the same as the embodiment shown in FIG. 1 except that the length of the auxiliary plate is longer, and therefore detailed description is omitted.
[0038]
FIGS. 15 and 16 are views for explaining still another embodiment of the present invention.
In both figures, reference numeral 37 indicates an auxiliary plate.
The auxiliary plate 37 has two pins P _H Thus, the side plate 25 is slidably attached to the elongated hole 25e and can move in the vertical direction. The auxiliary plate 37 is given an upward return behavior by a biasing means such as a spring (not shown).
When the auxiliary plate 37 comes into contact with the stay 15, the auxiliary plate 37 is translated downwardly against the upward return behavior. Since the side plate 25 regulates the side edge of the sheet near the lowermost position, the auxiliary plate 37 does not need to go down to the bottom, and only needs to have a function of escaping the stay 15.
Also in this configuration, of the two slots 25e, the slot near the rear end of the sheet 26 is shortened, and the other slot is rotated so that the auxiliary plate 37 is rotated about the lower end. May be partially formed in an arc shape.
[0039]
【The invention's effect】
According to the present invention, when the plate exchange of the plate making apparatus is automated and the apparatus is miniaturized, interference generated between the plate making unit and the side plate of the sheet feeding device can be avoided with a simple configuration, Skew of paper due to insufficient regulation of the side plate can be prevented, and high quality printing can be performed.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an embodiment of the present invention.
FIG. 2 is a diagram for explaining an embodiment of the present invention.
FIG. 3 is a plan view showing the vicinity of a sheet feeding tray in the embodiment shown in FIG. 1;
FIG. 4 is a diagram for explaining another embodiment of the present invention.
FIG. 5 is a diagram for explaining another embodiment of the present invention.
FIG. 6 is a diagram for explaining still another embodiment of the present invention.
FIG. 7 is a diagram for explaining still another embodiment of the present invention.
FIG. 8 is a diagram for explaining still another embodiment of the present invention.
FIG. 9 is a diagram for explaining still another embodiment of the present invention.
FIG. 10 is a diagram for explaining still another embodiment of the present invention.
FIG. 11 is a diagram for explaining still another embodiment of the present invention.
FIG. 12 is a diagram for explaining still another embodiment of the present invention.
FIG. 13 is a view for explaining still another embodiment of the present invention.
FIG. 14 is a view for explaining still another embodiment of the present invention.
FIG. 15 is a view for explaining still another embodiment of the present invention.
FIG. 16 is a view for explaining still another embodiment of the present invention.
FIG. 17 is a diagram illustrating a problem in the printing apparatus.
FIG. 18 is a diagram illustrating a problem in the printing apparatus.
[Explanation of symbols]
1 plate cylinder
2 Ink roller
8 Master
9 Platen roller
10 Thermal head
20 Registration roller
21 Separation roller
23 Paper feed roller
24 paper tray
25 Side plate
26 paper
27 Plate making unit
28, 31, 32, 33, 35, 36, 37 Auxiliary plate

Claims (9)

A sheet tray on which sheets are stacked and which can freely move up and down, and an upper surface of the sheet tray is provided so as to be movable in a direction perpendicular to a sheet feeding direction of the sheet, and is brought into contact with a side edge of the sheet to form the sheet; In a sheet feeding device having a pair of side plates that align side edges of the sheet, at least an inner surface portion of the side plate is provided with at least a sheet that is being fed at a maximum stacking height with respect to a sheet feeding direction. A sheet feeding device, comprising a movable auxiliary plate regulated by an edge. 2. The sheet feeding device according to claim 1, wherein the auxiliary plate is held at a predetermined initial position by a biasing unit, and is moved by abutting on a fixing member as the sheet feeding tray rises. Paper feeder. 3. The sheet feeding device according to claim 2, wherein the auxiliary plate returns to the initial position as the sheet feeding tray moves down. 4. The sheet feeding device according to claim 1, wherein the movement of the auxiliary plate is a rotation about one point. 4. The sheet feeding device according to claim 1, wherein the movement of the auxiliary plate is a parallel movement. 4. The paper feeding apparatus according to claim 1, wherein the movement of the auxiliary plate is a combination of a parallel movement and a rotation around one point. 6. The sheet feeding device according to claim 5, wherein the parallel movement is performed by a link mechanism. 7. The paper feeding device according to claim 5, wherein the parallel movement is performed by sliding with a pin and a long hole. A printing apparatus using the sheet feeding device according to claim 1.

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