JP2004256232A - Recording device, automatically openable delivery stacker, and liquid injection device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a automatically openable delivery stacker by button operation in a recording device provided with a mechanism for opening the delivery stacker in a turn system on a front face of the recording device. <P>SOLUTION: In this recording device provided with a feeding part 5 feeding a medium to be recorded, a recording head 21 recording on the medium to be recorded, and a delivery part 7 delivering the recorded medium, the delivery part 7 is provided with a delivery stacker 9 supporting the medium after recording, the delivery stacker can turn between a first position where it closes a stacker storage part 10 formed on the front face of the recording device and a second position where it can support the medium to be recorded, and the delivery stacker 9 can turn from the first position to the second position in the interlocking relationship with moving of a movable member 23 in the recording device by operating a switch to be operated by a worker when starting use of the recording device. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a recording apparatus including a discharge stacker. Further, the present invention relates to a liquid ejecting apparatus including a discharge stacker such as an ink jet recording apparatus that ejects a liquid such as ink from a head thereof and ejects the liquid to an ejection target medium.
[0002]
Here, the liquid ejecting apparatus is not limited to a recording apparatus such as a printer, a copying machine, and a facsimile that uses an ink jet recording head and discharges ink from the recording head to perform recording on a recording medium. A liquid corresponding to the use is ejected from a liquid ejecting head corresponding to the recording head to an ejection target medium corresponding to a recording medium, and is used in a sense including a device for attaching the liquid to the ejection target medium.
[0003]
As the liquid ejecting head, in addition to the recording head, a color material ejecting head used for manufacturing a color filter such as a liquid crystal display, and an electrode material (conductive paste) used for forming an electrode such as an organic EL display or a surface emitting display (FED). Examples include an ejection head, a biological organic matter ejection head used for biochip production, and a sample ejection head as a precision pipette.
[0004]
[Prior art]
The ink jet recording apparatus has a structure in which a recording medium fed from a feeding section is recorded in a recording section, and then discharged to a discharge section. The discharge unit is usually provided with a discharge stacker, and the recording medium after recording is discharged onto the discharge stacker and stacked.
[0005]
Since the discharge stacker is provided at the front of the recording device, a recording device that stores the discharge stacker in front of the recording device to save space when the recording device is not used has already been developed. Have been. When this type of recording apparatus is used, recording on a recording medium is performed in a state where the discharge stacker is turned downward from the front surface of the recording apparatus by hand and is almost horizontal (for example, Patent Document 1).
[0006]
[Patent Document 1]
JP-A-2002-241026
[0007]
[Problems to be solved by the invention]
However, it is originally preferable that the discharge stacker is in a state where the recording medium can be received at the front of the recording apparatus. Some users operate the discharge stacker by hand to receive the recording medium. Some people find it annoying to do so.
[0008]
Therefore, an object of the present invention is to provide a recording apparatus having a mechanism for pivotally opening a discharge stacker in the front of the recording apparatus, and a discharge stacker capable of automatically opening the discharge stacker by button operation or the like. To provide.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a recording apparatus according to a first aspect of the present invention includes a feeding unit that feeds a recording medium, a recording head that performs recording on the recording medium, and a recording medium on which recording is performed. A discharge unit that discharges the recording medium, the discharge unit includes a discharge stacker that supports the recording medium after the recording, and the discharge stacker closes a stacker storage unit formed on a front surface of the recording device. The discharge stacker is rotatable between a first position and a second position capable of supporting the recording medium, and the discharge stacker is moved inside the recording device by operating a switch or the like operated by an operator at the start of use of the recording device. The movable member is rotatable from the first position to the second position in conjunction with the movement of the movable member.
[0010]
According to the first aspect of the present invention, when the movable member in the recording apparatus moves, the discharge stacker is automatically opened in conjunction with the movement, and the recording medium can be received. In order to move the movable member of the recording apparatus, a pressing operation of a start switch or the like can be given. When the operator presses the start switch, the apparatus inside the recording apparatus enters a standby state for recording, and the discharge stacker is opened to enable recording and discharge of recorded matter.
[0011]
Further, in the recording apparatus according to a second aspect of the present invention, in the first aspect, the discharge stacker includes a biasing unit that constantly biases the discharge stacker to the second position side. A locking claw that is rotatable around a rotation axis, and a lockable claw that can be locked to the base frame of the recording apparatus. A locking portion is formed, and the tip of the locking portion is moved upward or downward in conjunction with the movement of the movable member, thereby locking the locking portion to the locked portion. Is released, and the discharge stacker is rotated to the second position by the urging force of the urging means.
[0012]
According to this aspect, when the movable member moves, the distal end of the locking portion is moved upward or downward, and accordingly, the locking of the locking portion to the locked portion is released. As a result, the discharge stacker is opened by the urging force of the urging means.
[0013]
Further, in the recording apparatus according to a third aspect of the present invention, in the second aspect, the movable member is a carriage that can scan in the main scanning direction while supporting the recording head, and the carriage smoothly moves on the carriage. A disengagement cam formed in a mountain-like or valley-shape is provided, and the tip of the lock claw is located at a location where the disengagement cam passes by scanning the carriage, and the tip is engaged with the engagement. The locking cam is guided to another position such as upward or downward by the release cam, and the locking of the locking portion to the locked portion is released.
[0014]
According to this aspect, when the operator operates the start switch or the like, the carriage scans for the recording standby state. At this time, since the disengagement cam guides the tip of the lock claw to another position such as upward or downward along a gentle mountain or valley, the locking portion is also raised or lowered to be locked. The lock to the part is released. As a result, the discharge stacker is opened by the urging force of the urging means.
[0015]
Also, in the recording apparatus according to a fourth aspect of the present invention, in the second aspect, the discharge unit includes a discharge drive roller and a discharge driven roller driven by the discharge drive roller, and the movable member includes the discharge drive roller. A lock release gear meshing with a drive transmission gear for transmitting a driving force to the rotating shaft of the lock claw, and a lock release piece that can be locked from the lower side or the upper side to the tip of the lock claw from the lock release gear. Are extended outwardly, and when the unlocking piece is moved upward or downward by the rotation of the unlocking gear, the distal end moves upward or downward to engage the engaging portion with the engaged portion. It is characterized in that the stop comes off.
[0016]
According to this aspect, when the operator operates the start switch or the like, the discharge drive roller starts to be driven, and the rotation driving force rotates the unlocking gear, and the unlocking piece is locked to the tip of the lock claw. To move the tip upward or downward. As a result, the locking portion is raised or lowered to release the locking to the locked portion, and the discharge stacker is opened by the urging force of the urging means.
[0017]
The recording apparatus according to a fifth aspect of the present invention is the recording apparatus according to the second aspect, further comprising a driving motor as the movable member in the recording apparatus, the driving device being locked to a pinion gear rotated by the driving force of the driving motor. A release gear meshes with the lock release gear, and a lock release piece that can be locked from the lower side or the upper side of the lock release claw extends outward from the lock release gear. By moving the unlocking piece upward or downward, the distal end moves upward or downward so that the locking portion is unlocked from the locked portion. is there.
[0018]
According to this aspect, when the operator operates the start switch or the like, the drive motor starts to rotate, and the unlock gear rotates. As a result, the unlocking piece is locked to the tip of the lock claw to move the tip upward or downward, and the locking portion is raised or lowered to release the locking to the locked portion, and the discharge stacker is attached. It is opened by the urging force of the urging means.
[0019]
Further, in the recording apparatus according to a sixth aspect of the present invention, in the second aspect, the feeding unit includes a feeding roller, and the movable member includes a pulley provided on a rotation shaft of the feeding roller. An unlocking gear is provided at a position distant from the pulley, and drive can be transmitted from the pulley to the unlocking gear via a drive transmission belt. From the unlocking gear, a tip end of the lock claw is provided. The unlocking piece that can be locked from below or above extends outward, and the tip moves upward or downward by the upward or downward movement of the unlocking piece due to the rotation of the unlocking gear. The locking of the locking portion to the locked portion is released.
[0020]
According to this aspect, when the operator operates the start switch or the like, the pulley provided on the rotation shaft of the feeding roller starts rotating, and the unlocking gear starts rotating via the drive transmission belt. As a result, the unlocking piece is locked to the tip of the lock claw to move the tip upward or downward, and the locking portion is raised or lowered to release the locking to the locked portion, and the discharge stacker is attached. It is opened by the urging force of the urging means.
[0021]
In the recording apparatus according to a seventh aspect of the present invention, in the first aspect, the discharge stacker is provided with a substantially semicircular driven gear that rotates integrally with a rotation shaft of the discharge stacker. The recording apparatus further includes a drive motor that is a movable member, and a gear train provided between a pinion gear provided on a drive shaft of the drive motor and the operated gear, and The discharge stacker can be opened and closed by rotating the driven gear by rotational driving.
[0022]
According to this aspect, when the operator operates the start switch or the like, the drive motor starts rotating. This rotational driving force is transmitted to the operated gear via a pinion gear and a gear train. When the driven gear rotates, the discharge stacker integrated therewith also rotates in the opening direction. Further, after the operation is completed, when the operator operates the end switch or the like, the drive motor rotates in the reverse direction, and the discharge stacker automatically closes.
[0023]
Further, in the recording apparatus according to an eighth aspect of the present invention, in the first aspect, the discharge stacker includes an urging means for constantly urging the discharge stacker to the second position side, and the ejection stacker is provided on a front side of the recording apparatus. Is provided with a lock claw that is rotatable around a rotation axis, the lock claw is provided with a locking portion located on the discharge stacker side of the rotation shaft, and the locking portion with the rotation shaft interposed therebetween. A press acting portion formed on the opposite side of the discharge stacker, and a locked portion is formed on the discharge stacker for restricting rotation of the discharge stacker to the second position by locking the locking portion. The recording apparatus includes a carriage that can scan in the main scanning direction while supporting the recording head, and a movable member that can hold a side surface of the carriage so that the carriage does not move when the carriage is at the home position. A lock lever; The lever is rotatable between a first position for holding the side surface of the carriage around the rotation axis and a second position for releasing the holding of the side surface of the carriage, and the lock lever is moved to the second position. When rotated, the distal end of the lock lever pushes the pressing action portion, and the locking portion moves to release the locking of the locking portion to the locked portion. Things.
[0024]
According to this aspect, when the operator operates the start switch or the like, the lock lever rotates to the second position side. The tip of the lock lever rotated to the second position pushes the pressing action portion of the lock claw downward or the like, so that the locking portion moves upward or the like and the locking portion is unlocked from the locked portion. The discharge stacker is opened by the urging force of the urging means.
[0025]
According to a ninth aspect of the present invention, in the recording apparatus according to the eighth aspect, the discharge stacker includes a main stacker having an auxiliary stacker storage section formed therein and a nested storage in the auxiliary stacker storage section. The auxiliary stacker is always urged to be in a state of protruding from the auxiliary stacker storage portion, and the opening is located at a position matching the main stacker and the auxiliary stacker. Is formed, and the locking portion can be locked to a lower side of the opening.
[0026]
According to this aspect, when the discharge stacker is closed, the protrusion of the auxiliary stacker is restricted. However, when the discharge stacker starts to open, the restriction of the auxiliary stacker is released, and the auxiliary stacker is automatically discharged. It extends from inside and can support a long recording medium.
[0027]
Further, an automatically openable discharge stacker according to a tenth aspect of the present invention is the automatically openable discharge stacker used in the recording apparatus according to any one of the first to ninth aspects. According to this aspect, the discharge stacker is automatically opened just by the operator operating the start switch or the like, and the recording is enabled.
[0028]
In addition, a liquid ejecting apparatus according to an eleventh aspect of the present invention includes a feeding unit that feeds a medium to be ejected, an ejection head that ejects the medium to be ejected, and a discharge that ejects the ejected medium. A discharge unit comprising: a discharge stacker for supporting the ejected medium after the discharge, wherein the discharge stacker closes a stacker storage unit formed on a front surface of the liquid discharge device. The discharge stacker is rotatable between a first position and a second position capable of supporting a medium to be ejected, and the discharge stacker is operated by a switch or the like operated by an operator at the start of use of the liquid ejecting apparatus. The apparatus is characterized in that it is rotatable from the first position to the second position in conjunction with the movement of a movable member in the device.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view showing an ink jet printer 1 which is an example of a recording apparatus or a liquid ejecting apparatus provided with a discharge stacker which can be automatically opened according to the present invention, and FIG. 2 shows a state where the discharge stacker of the ink jet printer 1 is opened. FIG. 3 is a side sectional view of an ink jet printer showing an embodiment in which a lock claw is unlocked by a carriage operation to automatically open a discharge stacker, and FIGS. 4 and 5 are FIGS. FIG. 3 is a side sectional view of the ink jet printer showing a state in which the discharge stacker in the embodiment is automatically opened.
[0030]
The ink jet printer 1 includes a printer main body 3, a feeding section 5 provided on the rear side of the printer main body 3, and a discharge section 7 formed in front of the printer main body 3. A feeding tray 11 is formed in the feeding unit 5, and a plurality of sheets (corresponding to a recording medium and an ejection medium) can be stacked on the feeding tray 11. The discharge unit 7 is provided with a discharge stacker 9. When the printer is in use, the discharge stacker 9 is automatically rotated to the front side to open the stacker storage section 10 when the printer is in use, and the stacker storage section 10 is closed as shown in FIG. 1 when the printer is not in use. It is rotatable so that That is, the discharge stacker 9 is rotatable between a first position for closing the stacker storage unit 10 and a second position for closing the stacker storage unit 10.
[0031]
As shown in FIG. 3, a feed roller 13 is provided immediately downstream of the feed tray 11, and the feed roller 13 is located at the uppermost part of the feed tray 11 between the feed roller 13 and an opposing separation pad 14. And presses the paper to be fed forward.
[0032]
The fed paper reaches a paper feed roller 19 composed of a lower paper feed drive roller 15 and an upper paper feed driven roller 17, and receives a precise paper feed operation in a recording process by a drive system. The sheet is fed to a recording head 21 corresponding to a liquid ejecting head located downstream of the roller 19.
[0033]
The recording head 21 is supported by a carriage 23 slidable along a slide shaft 22, and the carriage 23 can reciprocate in a direction perpendicular to the feeding direction (hereinafter, referred to as a main scanning direction). A platen 25 is provided at a position facing the recording head 21, and the platen 25 serves to support the sheet from below when recording is performed on the sheet by the recording head 21.
[0034]
The distance between the recording head 21 and the platen 25, that is, the paper gap, can be appropriately adjusted according to the thickness of the paper by moving the carriage 23 supporting the recording head 21 up and down. In a state where the paper gap is properly adjusted, high-quality recording is performed while the paper smoothly passes over the platen 25. Are sequentially discharged by a discharge roller 27 provided in the printer. The discharge roller 27 includes a lower discharge drive roller 29 and an upper discharge jaw roller 31, and has a mechanism in which the sheet is pulled out and driven by the rotation of the discharge drive roller 29.
[0035]
The ink jet printer 1 has the above-described configuration, and a structure for automatically opening the discharge stacker 9 (automatic opening mechanism of the discharge stacker) will be described below. As shown in FIG. 3, a torsion coil spring 35 as an urging means is provided around the rotation shaft 33 of the discharge stacker 9. It is urged to rotate in the opening direction, that is, the direction shown by the arrow 37. Further, a rotary damper 36 is provided so that the discharge stacker 9 is not suddenly opened by the action of the torsion coil spring 35.
[0036]
At a position near the tip of the discharge stacker 9, a lock claw 39 is provided so as to be rotatable within a certain range around a rotation shaft 38, and a locking portion 41 is provided slightly inside the tip 40 of the lock claw 39. Is formed. The locking portion 41 has a locking slope 43 formed diagonally. The locking inclined surface 43 is inclined such that the locking claw 39 is rotated upward when a predetermined moment or more is applied to the discharge stacker 9 in the direction of the arrow 37 in a state where the locking claw 39 is locked to a locked portion described later. Is configured. The reason why such a configuration is employed is that when the automatic opening mechanism of the discharge stacker becomes unusable due to a failure, the discharge stacker 9 can be manually pulled forward to be opened.
[0037]
An opening is formed in the base frame 45 located inside the stacker storage section 10 of the printer body 3, and a locked section 47 is formed on the lower side thereof. The locked portion 47 is a portion where the locking portion 41 of the lock claw 39 is locked, and the opening where the locked portion 47 is formed is such that the locking portion 41 of the lock claw 39 is engaged with the locked portion 47. The locking claw 39 is formed in such a size that the locking claw 39 can come out when the locking portion 41 rotates upward from the stopped state.
[0038]
On the other hand, a disengagement cam 49 is formed on the front side of the carriage 23. The disengagement cam 49 is formed in a gently upward chevron shape as shown in an enlarged perspective view in FIG. ing. The distal end 40 of the lock claw 39 is located at a position where the disengagement cam 49 passes by scanning the carriage 23 in the main scanning direction. When the is moved, the distal end portion 40 of the lock claw 39 is guided upward by the mountain-shaped engagement release cam 49, and the locking of the locking portion 41 to the locked portion 47 is released.
[0039]
In the automatic opening mechanism of the discharge stacker having such a configuration, as shown in FIG. 3, when the start button indicated by reference numeral 51 in FIG. One round trip scanning is performed to obtain the state. As a result, the engagement release cam 49 raises the distal end portion 40 of the lock claw 39 upward, and as shown in FIG. 4, the lock portion 41 of the lock claw 39 is disengaged from the locked portion 47. As a result, since the discharge stacker 9 is in a free state, the discharge stacker 9 is slowly rotated in the direction shown by the arrow 37 by the action of the torsion coil spring 35 and the rotary damper 36, and becomes the open state shown in FIG.
[0040]
Incidentally, since the rotation range of the lock claw 39 is limited, even when the discharge stacker 9 is in the open state, it is directed upward as shown in FIG. Therefore, if the discharge stacker 9 is rotated in the direction opposite to the arrow 37 when the discharge stacker 9 is stored, the locking portion 41 of the lock claw 39 rides over the locked portion 47 and is locked by the gravity of the lock claw 39 itself. The part 41 automatically locks to the locked part 47. Alternatively, if the user closes the discharge stacker 9 with the start button 51 kept on, the closed state is brought about as described above. However, when the carriage 23 moves in the next printing operation, the locking portions 41 of the lock claws 39 are moved. Is released from the locked portion 47, and the discharge stacker 9 changes to the open state. This will be described later.
[0041]
Next, another embodiment of the present invention will be described with reference to FIGS. In the other embodiments described below, members having the same reference numerals in the drawings as the members described with reference to FIGS. 1 to 5 are the same as the members described above, and will not be described. Omitted.
FIG. 6 is a side sectional view of an ink jet printer showing an embodiment in which a discharge stacker is automatically opened by using a gear that transmits a rotational driving force to a discharge driving roller 29.
[0042]
In the present embodiment, as shown in FIG. 6, a drive transmission gear 53 is provided to transmit a driving force to the rotation shaft of the discharge drive roller 29, and an unlocking gear 55 meshes with the drive transmission gear 53. . The drive transmission gear 53 is configured so that power is transmitted from a drive motor (not shown) of the paper feed roller 19 through a gear train (not shown). A lock release piece 55 is formed on the lock release gear 55 so as to extend outward, and the lock release piece 57 is locked from below by the tip 40 of the lock claw 39 by rotation of the lock release gear 55. It is possible.
[0043]
In the automatic opening mechanism of the discharge stacker having such a configuration, when the paper feed operation by the paper feed roller 19 is started in a state where the discharge stacker 9 closes the stacker storage section 10 as shown in FIG. Since the transmission gear 53 rotates, the lock release gear 55 also rotates. Thereby, as the unlocking gear 55 rotates, the unlocking piece 57 rotates counterclockwise in FIG. 6, and the unlocking piece 57 raises the tip 40 of the lock claw 39. As a result, the locking portion 41 of the locking claw 39 is disengaged from the locked portion 47, and the discharge stacker 9 is slowly rotated in the direction shown by the arrow 37 by the action of the torsion coil spring 35 and the rotary damper 36. , And becomes an open state.
[0044]
It should be noted that the power for rotating the lock release gear 55 may use a drive motor for the paper feed roller 13 instead of a drive motor (not shown) for the paper feed roller 19. Further, when the start button indicated by reference numeral 51 in FIG. 1 is pressed, the drive transmission gear 53 is operated for a certain period of time, whereby the locking portion 41 of the lock claw 39 is moved to the locked portion 47. The locking may be released.
[0045]
Next, FIG. 7 is a side sectional view of an ink jet printer showing an embodiment in which the discharge stacker is automatically opened by using the rotational driving force from a drive motor dedicated to the unlocking gear 55. The structure of this example is such that a drive motor 59 is provided near an unlock gear 55 similar to the unlock gear described with reference to FIG. 6, and a pinion gear 61 attached to an output shaft of the drive motor 59 has teeth It is a combination. In this example as well, the rotation of the unlocking gear 55 allows the unlocking piece 57 to be locked to the distal end portion 40 of the lock claw 39 from below.
[0046]
In the automatic opening mechanism of the discharge stacker adopting such a configuration, for example, when a start button indicated by reference numeral 51 in FIG. 1 is pressed, the drive motor 59 rotates for a certain time, and the lock release gear 55 rotates, so that the lock is released. The release piece 57 lifts the tip 40 of the lock claw 39. As a result, the locking portion 41 of the locking claw 39 is disengaged from the locked portion 47, and the discharge stacker 9 is slowly rotated in the direction shown by the arrow 37 by the action of the torsion coil spring 35 and the rotary damper 36. , And becomes an open state.
[0047]
Next, FIG. 8 is a side sectional view of the ink jet printer showing an embodiment in which the discharge stacker is automatically opened by using the rotational driving force of the drive shaft of the feed roller 13. In the structure of this example, a pulley 63 is provided on the drive shaft of the feed roller 13, and a drive transmission belt 65 is wound between the pulley 63 and the unlocking gear 55 similar to the unlocking gear described with reference to FIG. 6. It was done.
[0048]
In the automatic opening mechanism of the discharge stacker that adopts such a configuration, when a print signal is input and the feed roller 13 rotates to start feeding, the driving system of the feed roller 13 is driven to rotate. The pulley 63 rotates in the direction of the arrow in the figure. Since the rotational driving force is transmitted to the unlocking gear 55 via the drive transmission belt 65, the unlocking piece 57 lifts the tip 40 of the lock claw 39. As a result, the locking portion 41 of the locking claw 39 is disengaged from the locked portion 47, and the discharge stacker 9 is slowly rotated in the direction shown by the arrow 37 by the action of the torsion coil spring 35 and the rotary damper 36. , And becomes an open state.
[0049]
Next, FIG. 9 is a side sectional view of an ink jet printer showing an embodiment in which a discharge stacker is automatically opened and closed by using a rotational driving force from a drive motor dedicated to a lock release gear. In the structure of this example, a drive motor 59, a pinion gear 61 provided on an output shaft of the drive motor 59, an intermediate gear 67 meshing with the pinion gear 61, and an opening / closing operation gear 69 meshing with the intermediate gear 67 are provided. Is provided on the printer body 3 side.
[0050]
On the other hand, a substantially semicircular driven gear 71 meshing with the opening / closing operation gear 69 is provided at the lower end side of the discharge stacker 9. When the driven gear 71 rotates around the rotation shaft 73, the discharge stacker 9 can also rotate around the same rotation shaft 73 as a rotation shaft. In this example, the torsion coil spring 35 and the rotary damper 36 are not provided unlike the embodiment shown in FIG. 3, and the discharge stacker 9 is opened and closed by the driving force from the driving motor 59.
[0051]
In the automatic opening mechanism of the discharge stacker adopting such a configuration, for example, when a start button indicated by reference numeral 51 in FIG. The force is transmitted to the driven gear 71. As a result, the discharge stacker 9 rotates in the direction of arrow A 75 and is opened together with the rotation of the operated gear 71. When the discharge stacker 9 is in a usable open state, the rotation of the drive motor 59 is automatically stopped by applying a torque equal to or more than a predetermined value to a contact (not shown). The function is activated, and the transmission of the drive to the discharge stacker 9 is stopped.
[0052]
On the other hand, in this example, the closing operation of the discharge stacker 9 can also be performed automatically. That is, when the end button (the button indicated by reference numeral 51 is also used) is pressed while the discharge stacker 9 is open, the drive motor 59 rotates in the reverse direction, and the operated gear 71 also rotates in the reverse direction. I will do it. Therefore, the discharge stacker 9 can rotate in the direction of arrow B 75 and automatically close.
[0053]
Next, an embodiment having a function of automatically expanding a discharge stacker will be described with reference to FIGS. FIG. 10 is a side sectional view of an ink jet printer showing an embodiment having a function of automatically expanding the discharge stacker, and FIG. 11 is a side view of the ink jet printer showing a state at the time of starting opening of the discharge stacker in the embodiment of FIG. 12 is a sectional side view of the ink jet printer in a state where the discharge stacker is opened in the embodiment of FIG. 10, and FIG. 13 is an ink jet printer in a state where the discharge stacker is opened in the embodiment of FIG. It is a perspective view of.
[0054]
In the structure of this example, when the carriage 23 is not used, the side surface of the carriage 23 can be held so that the carriage 23 does not move when the carriage 23 is located at the home position for performing a flushing operation or the like, that is, when the carriage 23 is located at the home position. Lock lever 77 is provided. The lock lever 77 is rotatable around a rotation shaft 79 within a range of 90 degrees. A lock claw 83 rotatable around a rotation shaft 81 is provided near the lock lever 77 in the printer main body 3. The lock claw 83 has locking portions on both sides of the rotation shaft 81. 85 and a pressing portion 87 are formed.
[0055]
On the other hand, the discharge stacker 9 includes a main stacker 89, and an auxiliary stacker storage section 91 is formed in the main stacker 89. A first auxiliary stacker 93 and a second auxiliary stacker 95 are nested in the auxiliary stacker storage unit 91, and a spring extension force of a first compression spring 97 provided on the base end side of the auxiliary stacker storage unit 91. The first auxiliary stacker 93 is accommodated in the auxiliary stacker storage portion 91 against the second auxiliary stacker 95 against the spring extension force of the second compression spring 99 provided on the base end side of the first auxiliary stacker 93. Are stored in the first auxiliary stacker 93.
[0056]
A main opening 101, a first opening 103, and a second opening 105 (see FIGS. 12 and 13) are formed at corresponding positions in the main stacker 89, the first auxiliary stacker 93, and the second auxiliary stacker 95, respectively. When the first auxiliary stacker 93 and the second auxiliary stacker 95 are nested in the auxiliary stacker storage section 91, the first opening 103 and the second opening 105 are connected to the main opening 101. They are aligned.
[0057]
As shown in FIG. 10, when the discharge stacker 9 is in the closed state, the locking claw 83 penetrates the aligned main opening 101, the first opening 103, and the second opening 105, and the locking portion 85 is connected to these openings. By locking to the lower side (constituting the locked portion), the rotation of the discharge stacker 9 in the opening direction by the torsion coil spring 35 is restricted. Also, at this time, the leading end portions of the first auxiliary stacker 93 and the second auxiliary stacker 95 abut on the upper side of the sheet discharge stacker storage unit 10, and these auxiliary stackers become the springs of the first compression spring 97 and the second compression spring 99. The state of being stored in the auxiliary stacker storage section 91 against the extension force is maintained.
[0058]
In the automatic opening mechanism of the discharge stacker adopting such a configuration, for example, when a start button indicated by reference numeral 51 in FIG. 1 is pressed, the lock lever 77 rotates 90 degrees clockwise from the vertical state shown in FIG. The fixed state of the carriage 23 is released. At the same time, the distal end portion 78 (see FIG. 11) of the lock lever 77 presses the pressing action portion 87 of the lock claw 83 downward, and the lock claw 83 rotates counterclockwise around the rotation shaft 81. Thereby, as shown in FIG. 11, the locking of the locking portion 85 to the lower side (the locked portion) of the main opening 101, the first opening 103, and the second opening 105 is released.
[0059]
As a result, the discharge stacker 9 rotates clockwise by the action of the torsion coil spring 35, and the first auxiliary stacker 93 and the second auxiliary stacker 95 are moved by the spring extension force of the first compression spring 97 and the second compression spring 99. Is pushed upward (the state of FIG. 11). When the discharge stacker 9 further rotates clockwise by the action of the torsion coil spring 35, the discharge stacker 9 is opened as shown in FIGS. 12 and 13, and the first auxiliary stacker 93 and the second auxiliary stacker 95 is fully extended. When the discharge stacker 9 rotates clockwise in FIG. 11, the locking portion 85 of the lock claw 83 is unlocked in the order of the second opening 105 and the first opening 103. , The second auxiliary stacker 95 and the first auxiliary stacker 93 in this order.
[0060]
When storing the discharge stacker 9, the discharge stacker 9 is rotated so that the stacker storage unit 10 is closed in a state where the first auxiliary stacker 93 and the second auxiliary stacker 95 are pushed into the main stacker 89. The locking portion 85 of the lock claw 83 may be locked to the lower sides of the main opening 101, the first opening 103, and the second opening 105.
[Brief description of the drawings]
FIG. 1 is a perspective view of a printer including a discharge stacker that can be automatically opened according to the present invention.
FIG. 2 is a perspective view showing a state where the discharge stacker is opened.
FIG. 3 is a side sectional view of an embodiment in which a discharge stacker is automatically opened by a carriage operation.
FIG. 4 is a side sectional view showing a state in which the discharge stacker of the embodiment of FIG. 3 automatically opens.
FIG. 5 is a side sectional view showing a state in which the discharge stacker of the embodiment of FIG. 3 automatically opens.
FIG. 6 is a side sectional view of an embodiment using a gear related to a discharge drive roller.
FIG. 7 is a side sectional view of an embodiment using a dedicated drive motor.
FIG. 8 is a side cross-sectional view of an embodiment using a rotational driving force of a driving shaft of a feeding roller.
FIG. 9 is a side sectional view of an embodiment using a dedicated drive motor.
FIG. 10 is a side sectional view of an embodiment having a function of automatically extending a discharge stacker.
11 is a side sectional view showing a state at the time of starting discharge stacker opening in the embodiment of FIG. 10;
FIG. 12 is a side sectional view showing a discharge stacker opened state of the embodiment of FIG. 10;
FIG. 13 is a perspective view of the printer showing the discharge stacker opened state of the embodiment of FIG. 10;
[Explanation of symbols]
1. Inkjet printer, 3. Printer body, 5. Feeding section, 7. Ejection section
9 discharge stacker, 10 stacker storage section, 11 feed tray,
13 feed roller, 14 separation pad, 15 paper feed drive roller,
17 paper feed driven roller, 19 paper feed roller, 21 recording head,
22 slide shaft, 23 carriage, 25 platen, 27 discharge roller,
29 discharge drive roller, 31 discharge toothed roller, 33 rotation axis of discharge stacker
35 torsion coil spring, 36 rotary damper, 37 arrow, 38 rotating shaft, 39 locking claw, 40 tip of locking claw, 41 locking part, 43 locking slope
45 base frame, 47 locked part, 49 disengagement cam, 51 start button
53 drive transmission gear, 55 unlocking gear, 57 unlocking piece
59 drive motor, 61 pinion gear, 63 pulley, 65 drive transmission belt
67 intermediate gear, 69 opening / closing operation gear, 71 operated gear, 73 rotation shaft
75 Arrow, 77 Lock lever, 78 Tip of lock lever
79 rotating shaft, 81 rotating shaft, 83 lock pawl, 85 locking portion,
87 pressing section, 89 main stacker, 91 auxiliary stacker storage section,
93 first auxiliary stacker, 95 second auxiliary stacker, 97 first compression spring,
99 second compression spring, 101 main opening, 103 first opening,
105 Second opening

Claims (11)

A recording apparatus including a feeding unit that feeds a recording medium, a recording head that performs recording on the recording medium, and a discharge unit that discharges the recorded recording medium,
The discharge unit includes a discharge stacker that supports the recording medium after the recording, the discharge stacker closes a stacker storage unit formed on a front surface of the recording apparatus, and a first position that can support the recording medium. The discharge stacker is rotatable between the first position and the second position in response to movement of a movable member in the recording apparatus by an operation of a switch or the like operated by an operator at the start of use of the recording apparatus. A recording device rotatable from a position to a second position. 2. The discharge stacker according to claim 1, wherein the discharge stacker includes a biasing unit that constantly urges the discharge stacker toward the second position, and the discharge stacker includes a leading end and a locking portion formed inside the leading end. A lock claw that is rotatable around a moving shaft is provided, and a locked portion that can lock the locking portion is formed on a base frame of the recording apparatus, and is interlocked with the movement of the movable member. By moving the distal end of the locking portion, the locking of the locking portion to the locked portion is released, and the discharge stacker is rotated to the second position by the urging force of the urging means. A recording device characterized by moving. 3. The apparatus according to claim 2, wherein the movable member is a carriage that can scan in the main scanning direction while supporting the recording head, and the carriage is provided with a disengagement cam formed in a gentle mountain or valley shape. The tip of the lock claw is located at a position where the disengagement cam passes by scanning of the carriage, and the tip is guided to another position by the engagement disengagement cam to engage the locking portion. A recording device characterized in that the engagement with the stop is released. 3. The discharge unit according to claim 2, wherein the discharge unit includes a discharge drive roller and a discharge driven roller driven by the discharge drive roller, and the movable member meshes with a drive transmission gear for transmitting a driving force to a rotation shaft of the discharge drive roller. A lock releasing piece extending from the lower or upper side to the distal end of the lock claw to extend outward from the lock releasing gear, and the lock caused by rotation of the lock releasing gear. The recording apparatus, wherein the leading end moves upward or downward due to the upward or downward movement of the release piece, and the locking of the locking portion to the locked portion is released. 3. The recording apparatus according to claim 2, further comprising a drive motor as the movable member in the recording apparatus, wherein a lock release gear meshes with a pinion gear that is rotated by a drive force of the drive motor. A lock release piece that can be locked from the lower side or the upper side extends to the distal end of the lock claw, and the distal end is moved upward or downward by rotation of the lock release gear. A recording apparatus characterized in that the recording device moves upward or downward to release the locking of the locking portion to the locked portion. In claim 2, the feeding unit includes a feeding roller, the movable member is a pulley provided on a rotation shaft of the feeding roller, and an unlocking gear is provided at a position separated from the pulley, A drive transmission belt can be transmitted from the pulley to the lock release gear via a drive transmission belt. From the lock release gear, a lock release piece that can be locked from the lower side or the upper side to the tip of the lock claw is directed outward. The distal end moves upward or downward due to the upward or downward movement of the unlocking piece due to the rotation of the unlocking gear, and the engagement of the engaging portion with the engaged portion is released. A recording device, characterized in that: The discharge stacker according to claim 1, wherein the discharge stacker is provided with a substantially semicircular driven gear that rotates integrally with a rotation shaft of the discharge stacker, and a drive motor that is a movable member in the recording apparatus; A gear train provided between a pinion gear provided on a drive shaft of the drive motor and the operated gear, wherein the driven gear is rotated by rotation of the drive motor to open and close the discharge stacker. A recording device characterized in that it is possible. 2. The discharge stacker according to claim 1, further comprising a biasing unit that constantly biases the discharge stacker toward the second position, and a lock claw rotatable around a rotation shaft is provided on a front side of the recording apparatus. The lock claw includes a locking portion located closer to the discharge stacker than the rotation shaft, and a pressing portion formed on the opposite side of the locking portion with respect to the rotation shaft,
The discharge stacker is formed with a locked portion that locks the locking portion to restrict rotation of the discharge stacker to the second position.
The recording apparatus includes a carriage that can scan in the main scanning direction while supporting the recording head, and a lock lever as a movable member that can hold a side surface of the carriage so that the carriage does not move when the carriage is at the home position. The lock lever is rotatable between a first position for holding the side surface of the carriage around a rotation axis and a second position for releasing the holding of the side surface of the carriage, and When the lock lever is rotated to the second position, the tip of the lock lever pushes the pressing action portion, and the locking portion moves to release the locking of the locking portion to the locked portion. Characteristic recording device. 9. The discharge stacker according to claim 8, wherein the discharge stacker includes a main stacker having an auxiliary stacker storage section formed therein, and one or more auxiliary stackers nested in the auxiliary stacker storage section. The main stacker and the auxiliary stacker are always urged so as to protrude from the auxiliary stacker storage portion, and an opening is formed at a position where the main stacker and the auxiliary stacker are aligned with each other. A recording device characterized in that it is possible. An automatically openable discharge stacker according to claim 1. A liquid ejecting apparatus including a feeding unit that feeds a medium to be ejected, a liquid ejecting head that ejects the medium to be ejected, and a discharge unit that ejects the ejected medium.
The discharge unit includes a discharge stacker that supports the ejected medium after the ejection, and the discharge stacker can support a first position that closes a stacker storage unit formed on a front surface of the liquid ejecting apparatus, and can support the ejected medium. The discharge stacker is rotatable between a second position and an operation of a switch or the like operated by an operator at the start of use of the liquid ejecting apparatus, whereby the discharge stacker is interlocked with movement of a movable member in the liquid ejecting apparatus. A liquid ejecting apparatus characterized in that the liquid ejecting apparatus is rotatable from the first position to the second position.

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