JP2004168540A - Sheet feeder and printer using it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a printer using a paper feeder adapted to feed a paper sheet without largely raising up a print head and reduced in size by adopting a paper feeder reduced in size and adapted to transport a record medium 16 in two ways: one direction and the other direction. <P>SOLUTION: In this paper feeder 25, when one end part of a record medium 16 transported in the discharge direction of an arrow C is pressed downward by a paper guide 31 and the other end part is released from a flap 30, a part to which a paper feed roller 29 is pressed is functioned as a fulcrum to lift up the other end part of the record medium 16, and in such a state, the paper feed roller 29 is reversed in the other direction (counterclockwise) to transport the record medium in the paper feed direction of an arrow D opposite to the paper discharge direction, thereby locating the other end part on the top face of the flap 30. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a sheet feeding device and a printer using the same, and more particularly, to a sheet feeding device capable of conveying a recording medium stored in a sheet feeding tray in both a discharge direction and a sheet feeding direction, and a printer using the same.
[0002]
[Prior art]
As shown in FIG. 4, in a conventional paper feeder 41, a plurality of thick paper-like recording media 42 made of, for example, photographic paper are stored in a paper feed tray 42. At the bottom of the paper feed tray 42, a pressure plate 44 capable of elastically urging one end of the recording medium 43 housed therein is provided.
A separation roller 45 that is rotatable clockwise is disposed on the upper side facing the pressure plate 44, so that the recording medium 42 placed on the pressure plate 44 can be pressed against the paper feed roller 45. ing.
Such a conventional sheet feeding device 41 rotates the sheet feeding roller 45 clockwise in a state where the pressure plate 44 is elastically urged upward and one end of the recording medium 43 is pressed against the sheet feeding roller 45. By driving, the uppermost recording medium 43 is separated from the lower recording medium 43 and can be conveyed in the sheet feeding direction indicated by arrow J.
[0003]
Further, as shown in FIG. 4, a conventional printer 46 using the conventional paper feeding device 41 can guide the recording medium 43 conveyed from the paper feeding device 41 in the paper feeding direction of arrow J obliquely upward. A member 47 is disposed downstream of the sheet feeding device 41 in the sheet feeding direction indicated by the arrow J.
Further, a printing unit 48 is disposed downstream of the guide member 47 and above the sheet feeding device 41. The printing unit 48 includes, for example, a platen roller 49 and a print head 50 disposed with a gap G on the upper side facing the platen roller 49.
[0004]
When such a printer 46 is, for example, a thermal transfer printer, the print head 50 is formed of a thermal head, and a gap G between the platen roller 49 and the print head 50 has a recording sheet fed from the sheet feeding device 41. The medium 43 and an ink ribbon (not shown) are transported.
Then, the print head 50 is moved down, the ink ribbon and the recording medium 43 are pressed against the platen roller 49, and the print head 50 composed of a thermal head is heated, and the platen roller 49 is rotated counterclockwise. By transporting the recording medium 43 to the downstream side of the print head 50, the ink of the ink ribbon is transferred to the recording medium 43 and a desired image is printed.
In such a conventional printer 46, a printing unit 48 is disposed above the paper feeding device 41, and a control circuit for driving and controlling the print head 50 is disposed in an empty space below the printing unit 48, for example. The space efficiency was good.
[0005]
[Patent Document]
JP-A-5-270673 JP-A-7-76144
[Problems to be solved by the invention]
However, since the recording medium 43 conveyed to the printing unit 48 of the printer 46 by the conventional paper feeding device 41 as described above is in the form of a thick paper such as photographic paper, the recording medium 43 is conveyed upward along the inclined guide surface of the guide member 47. Is done.
For this reason, the print head 50 in the head-up state has to be largely raised so that the recording medium 43 conveyed upward does not abut, and the gap G between the print head 50 and the platen roller 49 must be increased. Therefore, there is a problem that the thickness dimension becomes thick and the printer 46 becomes large.
In order to reduce the size of the printer 46 using the conventional paper feeding device 41 by reducing the distance from the paper feeding device 41 to the printer 46, the recording medium 43 that is curved upward and conveyed by the guide plate 47 is conveyed. Has a small radius of curvature, and wrinkles and the like may be generated on the printing screen of the recording medium 43.
[0007]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and by using a paper feeding device capable of swinging and conveying a recording medium in one direction and the other direction, it is possible to surely prevent a print head from being greatly raised. It is an object of the present invention to provide a printer using a paper feeding device that can feed paper to a paper and that can be downsized.
[0008]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a sheet feeding apparatus including a sheet feeding tray capable of storing a plurality of recording media therein, and one end of the recording medium stored in the sheet feeding tray. A pressure plate capable of pushing the recording medium upward, and a paper feed roller capable of pressing the one end side of the recording medium pushed up by the pressure plate is disposed above the pressure plate; Is capable of being conveyed from one side of the paper feed tray to an external discharge direction by rotation of the paper feed roller in one direction, and outside the one side of the paper feed tray in the discharge direction. A paper guide that can push down the one end of the recording medium to be conveyed is provided, the recording medium is conveyed in the discharge direction and separated, and the one end is pushed downward by the paper guide. When lowered, the other end side is lifted, characterized in that so as to convey said paper feed roller in a direction opposite to the sheet feed direction the discharge direction by reversing the other direction in this state.
[0009]
As a second solution for solving the above-mentioned problem, the paper feed tray is provided with a rotatable flap on the other side opposite to the one side on which the pressure plate is provided. While the flap is in contact with the other end of the recording medium stored in the paper feed tray, the recording medium is transported in the discharge direction, and the one end is pressed down by the paper guide. When the other end is disengaged from the flap, the paper feed roller is rotated in the reverse direction to convey the recording medium in the paper feeding direction so that the other end is positioned on the upper surface of the flap. It is characterized by having done.
[0010]
Further, as a third solution for solving the above-mentioned problems, a printer using the paper feeding device of the present invention includes a paper feeding device having a paper feeding tray capable of storing a plurality of recording media therein, A printing unit capable of printing a desired image on the recording medium fed from a paper device, wherein the one end side can be pressed against the one end side of the recording medium housed in the paper feeding tray Arrange rollers,
The recording medium can be conveyed from one side of the paper feed tray to an external discharge direction by rotation of the paper feed roller in one direction, and the outside of the one side of the paper feed tray, Providing a paper guide capable of pushing down the one end side of the recording medium conveyed in the discharge direction,
The recording medium is conveyed and separated in the discharge direction, and when the one end is pushed down by the paper guide, the other end is lifted up, and in this state, the rotation of the paper feed roller is reversed in the other direction. And the other end side is conveyed in a sheet feeding direction opposite to the discharge direction, and is fed to the printing unit.
[0011]
According to a fourth aspect of the present invention, the printing unit includes a print head and a platen provided with a predetermined gap on a side facing the print head. By rotating the roller in the other direction, the recording medium is conveyed in the paper feeding direction and fed between the print head and the platen.
[0012]
Further, as a fifth solution to solve the above-mentioned problem, a rotatable flap is provided on the paper feed tray on the other side opposite to the one side, and the flap is attached to the paper feed tray. When the recording medium is conveyed in the discharge direction in a state where the recording medium is brought into contact with the upper end of the other end of the recording medium accommodated in By transporting the recording medium in the paper feeding direction by reversing the direction, the other end side is transported on the upper surface of the flap, and the recording medium is fed to the printing unit. And
[0013]
As a sixth solution for solving the above-mentioned problem, a retractable portion is formed in which the platen can be retracted in a direction away from the print head, and a state in which the platen is located in the retractable portion is defined as a feeding state of the platen. When the platen is located at the paper feed position, the recording medium can be fed to the printing unit by rotation of the paper feed roller in the other direction.
[0014]
As a seventh solution for solving the above-mentioned problem, the platen located at the sheet feeding position is provided with a cam member movable to the print head side.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a thermal transfer printer of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view of a main part of a paper feeder of the present invention and a printer using the same, FIG. 2 is a cross-sectional view of a main part for explaining the printing operation of FIG. 1, and FIG. FIG. 3 is a perspective view showing a platen roller.
First, an embodiment of a printer using a paper feeding device of the present invention will be described with reference to FIG. 1. A printer P using a paper feeding device of the present invention has a frame 1 made of a metal plate or the like covering an outer peripheral portion. The frame 1 is provided with side plates 1a, 1a facing each other, and two guide pins 1b, 1b are erected on the side plates 1a, 1a at predetermined intervals.
[0016]
Further, a flat bottom plate 1c is formed at a lower portion of the frame 1. The press-contact guide plate 2 is supported by the two guide pins 1b so as to be vertically movable along the side plate 1b. As shown in FIG. 3, the press-contact guide plate 2 is formed in a horizontally long and long shape, and has an engagement groove 2a with which two guide pins 1b can be engaged. The guide pin 1b engaged with the engagement groove 2a has a tip end projecting from the engagement groove 2a fitted with a washer (not shown) to prevent the press-contact guide plate 2 from coming off.
[0017]
Since the engagement groove 2a is formed to be inclined at a predetermined angle with respect to a movement direction of the head unit 6 described later, the press-contact guide plate 2 can move up and down diagonally downward or diagonally upward.
Near the lower end of the press-contact guide plate 2, a guide groove 2b that is long in the longitudinal direction and has a predetermined width is formed.
A concave portion 2c is formed substantially at the center of the upper end of the press-contact guide plate 2, and a stepped pressing portion 2d is formed in the concave portion 2c so that a cam member 4 described later can be pressed.
[0018]
A cam support bar 3 is bridged and supported on the side plates 1a and 1a of the frame 1 facing each other. A pair of cam members 4 face each other on the cam support bar 3 near the inside of the side plate 1a. The shaft is fixed.
The cam member 4 has an arc-shaped operation portion 4a capable of pressing a step-shaped pressing portion 2d formed on the press-contact guide plate 2, and by rotating the cam member 4, the operating portion 4a is pressed by the pressing portion. 2d can be pressed to lower the press-contact guide plate 2.
The cam member 4 has a lock portion 4b protrudingly formed at the distal end of the operation portion 4a. The lock portion 4b restricts the movement of the press-contact guide plate 2 that has been lowered so that the cam member 4 can be locked.
[0019]
Further, one end of the elastic member 5 is hooked on the left end side in the drawing of the press contact guide plate 2, and the other end of the elastic member 5 is hooked on the side plate 1 a side of the frame 1. It is always elastically biased to the upper left.
Therefore, when the cam member 4 is not operated, the press-contact guide plate 2 is pulled by the elastic member 5 to the left in the drawing and is at a predetermined raised position.
When the press-contact guide plate 2 at the raised position rotates the cam member 4 and presses the pressing portion 2d by the operation portion 4a, the inclined engagement groove 2a is guided by the guide pin 1b, and the press-contact guide plate 2 is pressed. The guide plate 2 descends obliquely downward.
[0020]
When the press-contact guide plate 2 is lowered to a predetermined lowering position, the lock portion 4b is located at the pressing portion 2d, the cam member 4 is locked, and the movement of the press-contact guide plate 2 that has dropped to the predetermined position is restricted and locked. It has become so.
When the cam member 4 is rotated in the opposite direction, the lock of the press-contact guide plate 2 is released, and the press-contact guide plate 2 is raised by the urging force of the elastic member 5 to be located at the raised position. ing.
[0021]
A head unit 6 as shown in FIG. 3 is supported in the guide groove 2b of the press-contact guide plate 2, and a long press-contact plate 7 is disposed at the top of the head unit 6. The pressing plate 7 has a flat and long upper plate 7a, and both ends in the longitudinal direction of the upper plate 7a are bent downward to form side plates 7b, 7b facing each other.
The first and second head guide shafts 7c and 7d are formed so as to protrude from the side plates 7b and 7b opposed to each other, and spring support holes 7e are formed at predetermined intervals in three places on the upper plate 7a. Have been.
[0022]
A mounting plate 8 formed of a metal plate made of aluminum or the like, which is formed in a long shape similar to the pressing plate 7 and has excellent heat dissipation, is provided below the pressing plate 7. The plate 8 has a flat and long lower plate 8a formed at a position facing the upper plate 7a of the press contact plate 7, and both ends of the lower plate 8a in the longitudinal direction are bent upward to form side plates facing each other. 8b, 8b are formed.
The side plates 8b, 8b of the mounting plate 8 are located outside the side plates 7b, 7b of the press contact plate 7, and have a circular fitting hole (FIG. 1) in which the first head guide shaft 7c of the press contact plate 7 fits. (Not shown) and an arc-shaped long hole (not shown) into which the second head guide shaft 7d is fitted.
[0023]
The mounting plate 8 is rotatable with respect to the press contact plate 7 on the side where the second head guide shaft 7d is fitted, with the side where the first head guide shaft 7c is fitted as a fulcrum. . A spring support pin 8c is formed at a position on the surface of the lower plate 8a of the mounting plate 8 opposite to the spring support hole 7a of the press contact plate 7 at a predetermined height, and the spring support hole 7a and the spring support pin 8c, an elastic member (not shown) made of a coil spring is supported. For this purpose, the side of the mounting plate 8 to which the second head guide shaft 7d is fitted is elastically urged toward a platen roller 13 which will be described below on the lower side.
[0024]
The mounting plate 8 extends from the lower plate 8a in the right direction in the figure, and is formed integrally with a heat sink 8d having a large surface area, which is wide and bent in a substantially rectangular shape.
On the lower surface of the lower plate 8a, a long and metal head mounting base 10 is mounted. Further, a print head 11 is fixed to the lower surface of the head mounting base 10, and the print head 11 is a line thermal head having a plurality of heating elements (not shown). The printing unit M is configured by the print head 11 and a platen 13 described later.
[0025]
Support members 12, 12 are supported by the first and second head guide shafts 7c, 7d projecting outward from the side plates 8b, 8b of the mounting plate 8 so as to face each other.
The support member 12 has a pair of bearing portions 12a projecting outward, and the first and second head guide shafts 7c and 7d are inserted through the bearing portions 12a.
Further, the support member 12 is formed with a belt locking portion 12b which can be stretched across a belt 15 described later, and a lower portion of the belt locking portion 12b is notched in a vertical direction with a predetermined width. A notch groove 12c is formed, and a rotation shaft 13a of a platen 13 described later is rotatably engaged with the notch groove 12c.
Such a head unit 6 is supported by the press-contact guide plate 2 by projecting the first and second head guide shafts 7c and 7d from the bearing portion 12a of the support member 12 and engaging with the guide grooves 2b. , Can be moved in the directions of arrows A and B along the guide groove 2b.
[0026]
On the lower side facing the print head 11, a platen 13 composed of rotatable rollers constituting a printing unit M together with the print head 11 is provided. A shaft 13a is provided, and an elastic member 13b made of rubber or the like is formed around the rotation shaft 13a with a predetermined thickness to form a column.
The rotating shaft 13a protruding from both ends of the elastic member 13b in the longitudinal direction of the platen 13 is engaged with the notch groove 12c of the support member 12, and is freely movable toward and away from the print head 11. The rotating shaft 13a is located on a rail 14 to be described later and is movable in the directions of arrows A and B.
[0027]
On the bottom plate 1c of the frame 1, two rails 14 are laid in a direction parallel to the side plate 1b. On the rails 14, the tip of the rotating shaft 13a of the platen 13 projecting outward from the support member 12 is provided. positioned.
Further, the rail 14 has a left end in the figure engraved in a substantially U-shape to form a retracting portion 14a for retracting the platen 13 from above the rail 14 before printing is started. Then, as shown in FIG. 1, the state in which the platen 13 before the start of printing is located in the retracting portion 14a is the sheet feeding position of the platen 13, and when the platen 13 is located in this sheet feeding position, the printing in the head-up state is performed. A large gap is formed between the head 11 and the platen roller 13.
[0028]
Further, when the platen 13 is located at the retracting portion 14a and is in the sheet feeding position, the sheet feeding roller 29 of the sheet feeding device 25 described later rotates, so that the large gap between the print head 11 and the platen roller 13 is described later. The recording medium 16 can be fed. Further, a cam member (not shown) capable of moving the located platen 13 toward the print head 11 is provided in the retracting portion 14a.
By operating the cam member to push up the platen 13, the rotating shaft 13a is engaged with the notch groove 12c of the head unit 6 and is positioned on the rail 14, so that a printing standby state can be achieved.
In the printing standby state, the press-contact guide plate 2 is at the raised position, and the print head 11 is in a head-up state separated from the platen 13 by a predetermined amount.
[0029]
A belt 15 is stretched around a belt engaging portion 12b of the support member 12, and the belt 15 is an endless belt having a plurality of teeth formed in a belt shape as shown in FIG. It is stretched between the right driving pulley 15a and the driven pulley 15b on the left side in the figure.
The head unit 6 can be moved in the directions of arrows A and B along the press-contact guide plate 2 by rotating and driving the drive pulley 15 a to pull the belt 15.
[0030]
As shown in FIG. 2, a paper support member 17 capable of supporting the other end of the recording medium 16 at the left end in the drawing is disposed below the left end of the press-contact guide plate 2. . The recording medium 16 is made of, for example, cardboard printing paper or the like on which a color image can be printed. The platen 13 is fed before the start of printing by a sheet feeding device 25 described below disposed on the lower surface side of the bottom plate 1c of the frame 1. Paper can be fed to the printing unit M at the position. The recording medium 16 fed to the printing unit M can be conveyed to the paper support unit 17 through the printing unit M.
[0031]
Further, before the printing section M starts printing, the printing head 11 is in the head-up state and the platen 16 is located at the retracting section 14 and is in the sheet feeding position. The platen 13 is largely separated downward from the head 11 to facilitate feeding of the recording medium 16.
The paper support member 17 has a substantially U-shaped receiving plate 17a attached to the bottom plate 1c, and a cross section capable of pressing and holding the other end of the recording medium 16 on the upper wall of the receiving plate 17a. A pressure contact member 17b made of a friction member such as a D-shaped rubber is provided. The press-contact member 17b has the D-cut side fixed to the leaf spring 17c, and is pressed against the receiving plate 17a by the urging force of the leaf spring 17c.
[0032]
A release lever 18 capable of vertically operating a leaf spring 17c is provided outside the frame 1, and a D-shaped release shaft 18a is connected to the release lever 18 to rotate the release lever 18. The operation allows the leaf spring 17c to move up and down.
The press-contact member 17b of the sheet supporting member 17 can be moved toward and away from the upper wall of the receiving plate 17a by moving the leaf spring 17c up and down by the release lever 18. The other end of the recording medium 16 can be attached to and detached from the paper support member 17 by the contact and separation of the pressure contact member 17b from the receiving plate 17a.
Above the recording medium 16 supported by the paper supporting member 17, a sheet-shaped ink ribbon 19 is laid out. The ink ribbon 19 is wound on a winding core 20 disposed on the left end side of the frame 1 in the drawing. And the supply core 21 disposed on the right end portion side of the frame 1 in the drawing, and can be wound from the supply core 21 to the take-up core 20.
[0033]
On the lower surface side of the bottom plate 1c of the frame 1, a paper feeding device 25 of the present invention capable of transporting the recording medium 16 to the printing unit M and the paper supporting member 17 and feeding paper is detachably provided. The paper feeding device 25 has a box-shaped paper feeding tray 26 in which a plurality of recording media 16 can be stored. On the bottom plate 26 a of the paper feeding tray 26, a rotation support portion 27 a A pressure plate 27 that can rotate around the fulcrum is provided.
The arm 28a of the urging member 28 is elastically urged toward the right end on the back surface of the pressure plate 27. The urging force of the urging member 28 urges the pressure plate 27 upward. I have.
To this end, the recording medium 16 housed in the paper feed tray 26 is placed on a pressure plate 27 at one end (right side in the figure) and is constantly urged upward.
[0034]
A rotatable paper feed roller 29 is disposed above the pressure plate 27, and one end of the recording medium 16 placed on the pressure plate 27 can be pressed against the paper feed roller 29. .
In addition, a rotatable plate-like flap 30 is provided on the paper feed tray 26 at the position opposite to the side on which the pressure plate 27 is provided, above the other end of the recording medium 16 housed therein. Have been.
Further, a paper guide 31 that can push down one end of the recording medium 16 that is conveyed in the discharge direction is disposed outside the upper part of the one side where the pressure plate 27 is disposed in the paper feed tray 26. .
[0035]
The paper feeding device 25 of the present invention is configured such that the paper feeding roller 29 is moved in one direction in a state where one end of the recording medium 16 urged upward by the pressure plate 27 is pressed against the paper feeding roller 29. When rotated in the rotation direction, one end of the uppermost recording medium 16 stored in the paper feed tray 26 is discharged from one side (the right side in the drawing) of the paper feed tray 26. The recording medium 16 discharged from one side of the paper feed tray 26 is pushed down along the paper guide 31 and is separated from the lower recording medium 16 and conveyed in the discharge direction of arrow C.
The conveyance of the recording medium 16 in the discharge direction is performed until the other side (the left side in the drawing) of the recording medium 16 comes off the flap 30.
As shown in FIG. 1, the thick recording medium 16 such as photographic paper separated and conveyed in the discharge direction has the other end side separated from the flap 30 with the portion where the paper feed roller 29 is pressed against the fulcrum as shown in FIG. To lift.
Then, with the other end of the recording medium 16 lifted, the paper feed roller 29 is rotated in the clockwise direction, which is the other direction, so that the recording medium 16 can be conveyed in the paper feed direction indicated by arrow D opposite to the discharge direction indicated by arrow C. It has become.
[0036]
The printing operation of the printer P using the sheet feeding device 25 of the present invention as described above will be described. First, before starting printing, as shown in FIG. Head up.
Then, the head unit 6 is located near the paper support member 17, and the platen 13 is located at the retracting portion 14a of the rail 14 to be in the paper feed position, and is further separated from the print head 11 in the head-up state. It is in a state.
Further, in the sheet supporting member 17, the leaf spring 17c is pushed down by the operation of the release lever 18, so that a gap (not shown) is formed between the pressing member 17b and the upper wall of the receiving plate 17a. .
[0037]
The recording medium 16 conveyed on the upper surface of the flap 30 of the paper feeding device 25 in the paper feeding direction of the arrow D to the printing unit M and the paper support member 17 before the start of printing is indicated by a two-dot chain line shown in FIG. So located.
Then, the other end of the recording medium 16 is supported by the sheet supporting member 17, and the platen 13 at the sheet feeding position is raised to engage the rotating shaft 13 a with the notch groove 12 c of the head unit 6.
Thereafter, by slightly moving the head unit 6 in the direction of the arrow A, the rotating shaft 13a of the platen 13 is positioned on the rail 14 to be in a printing standby state.
From this printing standby state, the cam member 4 is operated to lower the press-contact guide plate 2 obliquely downward, and the head unit 6 is lowered, whereby the print head 11 heads down and ink is transferred between the print head 11 and the platen 13. The ribbon 19 and the recording medium 16 are pressed and held.
[0038]
When the press guide plate 2 is locked by the cam member 4, the belt 15 is driven to move the head unit 6 in the direction of one end of the recording medium 16 (in the direction of arrow A), and a plurality of heat generated by the print head 11 are generated. By selectively causing the elements to generate heat based on the print information, the ink on the ink ribbon 19 is transferred to the recording medium 16 and a desired image can be printed.
[0039]
Further, the ink ribbon 19 used when the image to be printed on the recording medium 16 is a color includes, for example, inks of different colors such as yellow (Y), magenta (M), and cyan (C) for one page of the recording medium 16. Are applied in order with a length corresponding to.
Then, when, for example, an image of the first Y color is printed on the recording medium 16, the print head 11 is raised, and the head unit 6 is returned to the printing start position near the paper support member 17.
Next, by lowering the print head 11 again and moving the head unit 6 in the direction of the arrow A, the M color image is overprinted on the Y color image. Further, by repeating the same operation and superimposing and printing the image of the color C on the image of the color M, a desired color image can be printed on the recording medium 16.
[0040]
When the image printing on the recording medium 16 is completed, the press-contact guide plate 2 is raised by the cam member 4, the print head 11 is raised, and the foot unit 7 is moved in the direction of arrow B, whereby the platen 13 is initialized. The sheet feeding position is located at the retracted portion 14a in the state.
Next, the release lever 18 is operated to release the press-contact of the recording medium 16 by the receiving plate 17a and the press-contact member 17b, and the printed recording medium 16 is removed from the printing unit M, thereby completing a series of printing operations. .
[0041]
The sheet feeding device 25 of the present invention as described above is capable of swing conveyance in which the recording medium 16 housed therein can be conveyed in both directions of one side and the other side of the sheet feeding tray. For this reason, when the recording medium conveyed in the discharge direction is pushed down at one end by the paper guide 31, the other end is lifted up, and the recording medium 16 in this state is conveyed in the paper feeding direction, so that the lifted up end flaps. The recording medium 16 can be smoothly fed between the print head 11 and the platen 13 while being guided on the upper surface 30.
[0042]
Further, in the printer P using the paper feeding device 25 of the present invention, when feeding paper before starting printing, the platen 13 is located at the retracting portion 14a, and a large gap is formed between the platen 13 and the print head 11. Therefore, the recording medium 16 conveyed from the paper feeding device 25 in the paper feeding direction of arrow D can be smoothly conveyed to the paper support member 17 without being obstructed by the print head 11 or the platen 13.
In the embodiment of the present invention, the printer P is described as a thermal transfer printer, but the printer P may be an inkjet printer or the like other than the thermal transfer printer.
[0043]
【The invention's effect】
As described above, when the recording medium conveyed by the paper feeding device of the present invention is separated and conveyed in the discharge direction and one end is pushed down by the paper guide, the other end is lifted up, and the paper is fed in this state. Since the rollers are rotated in the other direction and are conveyed in the paper feeding direction opposite to the paper discharging direction, the recording medium can be conveyed in the paper feeding direction with the other end side lifted upward, The recording medium can be smoothly conveyed from the sheet feeding tray, and the printing section can be reliably fed without paper jam or the like.
[0044]
Further, when the other end of the recording medium conveyed in the discharge direction comes off the flap, the sheet feeding roller is reversed in the other direction and conveyed in the sheet feeding direction opposite to the discharge direction, so that the other end of the flap is turned off. Since the recording medium is located on the upper surface, the other end of the recording medium being fed is guided to the upper surface of the flap, so that the recording medium can be more reliably fed to the printing unit.
[0045]
Further, in the printer using the paper feeding device of the present invention, when one end of the recording medium separated and conveyed in the discharge direction is pushed down by the paper guide, the other end is lifted up, and in this state, the rotation of the paper feeding roller is performed. Is reversed in the other direction, the other end is conveyed in the paper feeding direction and fed to the printing unit, so that the recording medium can be fed to the printing unit without a paper jam or the like. It is possible to provide a printer capable of printing high-quality images on a recording medium.
[0046]
The printing unit includes a print head and a platen provided with a predetermined gap on a side facing the print head. By rotating a paper feed roller in the other direction, the recording medium is moved in the paper feed direction. The recording medium is fed between the print head and the platen while the other end is lifted up by the action of the paper guide. Therefore, it is possible to prevent a paper jam or the like from occurring on the recording medium being fed.
[0047]
Also, when the recording medium is conveyed in the discharge direction and the other end is disengaged from the flap, the sheet feeding roller is reversed to convey the recording medium in the sheet feeding direction, so that the other end is conveyed on the upper surface of the flap. Since the recording medium is fed to the printing unit, the recording medium can be more reliably fed to the printing unit.
[0048]
Further, the state in which the platen is located in the retracting section is defined as a platen sheet feeding position. When the platen is located in this sheet feeding position, the recording medium can be fed to the printing section by rotating the sheet feeding roller in the other direction. While the medium is being fed, the platen is largely separated from the print head, so that the recording medium being fed can be prevented from hitting the print head or the platen.
[0049]
In addition, since the platen located at the paper feed position has a cam member that can be moved to the print head side, the platen can be easily moved to the print head side from the retraction unit, and a printer with good operability can be provided. Can be provided.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a main part of a paper feeding device of the present invention and a printer using the same.
FIG. 2 is a sectional view of a main part for explaining a printing operation in FIG. 1;
FIG. 3 is a perspective view showing a head unit and a platen according to the present invention.
FIG. 4 is a cross-sectional view of a main part of a conventional paper feeding device and a printer using the same.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Frame 1a Side plate 1b Guide pin 2 Pressure contact guide plate 2a Engagement groove 2b Guide groove 2d Pressing part 3 Cam support rod 4 Cam member 4a Operation part 4b Lock part 5 Elastic member 6 Head unit 7 Pressure contact plate 8 Mounting plate 9 Heat sink 10 Head Mounting stand 11 Print head 12 Support member 13 Platen 14 Rail 15 Belt 16 Recording medium 17 Paper support member 18 Release lever 19 Ink ribbon 20 Take-up core 21 Supply core 25 Paper feeder 26 Paper feed tray 27 Pressure plate 28 Biasing member 29 Paper feed roller 30 Flap 31 Paper guide M Printing unit

Claims (7)

A paper feed tray capable of storing a plurality of recording media therein, and a pressure plate capable of pushing up one end of the recording medium stored in the paper feed tray upward, and above the pressure plate, A paper feed roller capable of pressing the one end of the recording medium pushed up by the pressure plate is provided, and the recording medium is rotated from one side of the paper feed tray by rotating the paper supply roller in one direction. A paper guide that can be conveyed in an external discharge direction, and a paper guide that can push down the one end side of the recording medium that is conveyed in the discharge direction is provided outside the one side of the paper feed tray,
The recording medium is conveyed and separated in the discharge direction, and when the one end is pushed down by the paper guide, the other end is lifted up, and in this state, the paper feed roller is rotated in the other direction to reverse. A sheet feeding device wherein the sheet is conveyed in a sheet feeding direction opposite to a sheet discharging direction. The paper feed tray is provided with a rotatable flap on the other side opposite to the one side on which the pressure plate is provided, and other than the recording medium storing the flap in the paper feed tray. When the recording medium is conveyed in the discharge direction in a state where the recording medium is in contact with the end, the one end is pushed down by the paper guide, and the other end is released from the flap. 2. The sheet feeding device according to claim 1, wherein the roller is rotated in the reverse direction to convey the recording medium in the sheet feeding direction so that the other end portion is positioned on the upper surface of the flap. A sheet feeding device having a sheet feeding tray capable of storing a plurality of recording media therein, and a printing unit capable of printing a desired image on the recording medium fed from the sheet feeding device; A paper feed roller is disposed above the one end side of the recording medium housed in the tray, the paper feed roller being capable of being pressed against the one end side,
The recording medium can be conveyed from one side of the paper feed tray to an external discharge direction by rotation of the paper feed roller in one direction, and the outside of the one side of the paper feed tray, Providing a paper guide capable of pushing down the one end side of the recording medium conveyed in the discharge direction,
The recording medium is conveyed and separated in the discharge direction, and when the one end is pushed down by the paper guide, the other end is lifted up, and in this state, the rotation of the paper feed roller is reversed in the other direction. Wherein the other end is conveyed in a sheet feeding direction opposite to the discharge direction and fed to the printing unit. The printing unit includes a print head and a platen disposed with a predetermined gap on a side facing the print head.By rotating the paper feed roller in the other direction, the recording medium is 4. A printer using a paper feeding device according to claim 3, wherein the paper is conveyed in a paper feeding direction and fed between the print head and the platen. The paper feed tray is provided with a rotatable flap on the other side opposite to the one side, and the flap is applied to the upper end of the other end of the recording medium stored in the paper feed tray. When the recording medium is conveyed in the discharge direction in the contact state, and the other end is disengaged from the flap, the paper feed roller is reversed in the other direction to convey the recording medium in the paper feed direction. 5. The printer according to claim 3, wherein the other end is conveyed on the upper surface of the flap to feed the recording medium to the printing unit. . The platen forms a retractable portion that can be retracted in a direction away from the print head, and a state in which the platen is located in the retractable portion is a sheet feeding position of the platen. 6. The printer using a paper feeding device according to claim 5, wherein the recording medium can be fed to the printing unit by rotation of a paper roller in the other direction. 7. The printer according to claim 6, wherein the platen located at the paper feed position has a cam member movable on the print head side.

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