JP4930624B2 - Inkjet printer - Google Patents

Description

The present invention relates to an ink jet printer, and more particularly, to an ink jet printer that can store bubbles generated in an ink flow path to maintain good recording quality and can efficiently remove the stored bubbles. .

2. Description of the Related Art Conventionally, a tube supply type ink jet printer that supplies ink to a recording head mounted on a moving carriage from an ink tank fixed in the ink jet printer main body through a flexible tube is disclosed in Patent Document 1 and the like. It is disclosed.

In the apparatus described in Patent Document 1, a bubble storage chamber (referred to as a manifold in the publication) is provided at the top of the recording head, an ink tank and a circulation pump are provided on the fixed position side, and the circulation pump is driven to supply ink. From the ink tank, the first ink flow path, the bubble storage chamber, the second ink flow path,
By circulating in the order of the ink tank, the bubbles in the circulation path are returned to the ink tank, and the bubbles are removed in the ink tank. In addition, at the maintenance position, the ink is sucked from the nozzle side (ink ejection side) of the recording head by the suction purge means.

JP 2000-103084 A (refer to FIG. 1 and the like)

However, according to the configuration of Patent Document 1, since the ink tank is opened to the atmosphere, air (bubbles) is easily mixed in the ink when the ink is circulated, and there is a problem that the efficiency of removing the bubbles is poor. is there.

The present invention has been completed based on the above circumstances, and an object thereof is to enable efficient removal of bubbles stored in a bubble storage chamber.

As means for achieving the above object, the invention of claim 1 is characterized in that a carriage mounted on a main body frame and mounted with a recording head for recording on a recording medium by ejecting ink from nozzles; In an ink jet printer including an ink tank for storing ink supplied to a recording head and an ink flow path for supplying ink from the ink tank to the recording head, bubbles generated in the ink flow path are formed in the carriage. A bubble storage chamber for storing; a discharge passage communicating with the bubble storage chamber; and a normally closed on-off valve provided in the discharge passage; and an opening / closing member for opening and closing the on-off valve on the main body frame; An exhaust cap that can be in close contact with the carriage so as to close the discharge port of the discharge path and forms an airtight space that is continuous with the discharge port in the close contact state. When the inlet means are provided for sucking air in the hermetic space, the opening and closing member, in a state where the exhaust cap is in close contact with the carriage, the open-close
A valve opening position for opening the valve and a valve closing position for closing the on-off valve;
When the bubbles in the bubble storage chamber are discharged, the exhaust cap is in close contact with the carriage and the air is discharged.
In a state where a closed space is formed and the opening and closing member is positioned at the valve closing position,
The intake means sucks air in the airtight space, and after the suction of the air is finished,
The opening / closing member is characterized by moving from the valve closing position to the valve opening position .

According to a second aspect of the present invention, the on- off valve is the exhaust cap according to the first aspect.
When the on-off valve is positioned at the open position with the carriage being in close contact with the carriage,
The exhaust cap is configured to be opened by being pressed by the opening / closing member, and the exhaust cap is configured to be the carriage.
When the opening / closing member is positioned at the valve closing position in close contact with the valve, the opening / closing member
Is characterized in that it does not contact the on-off valve .

The invention of claim 3 is the one according to claim 1 or 2, wherein the opening and closing member is
It is configured to penetrate the exhaust cap and operates separately from the exhaust cap.
It has a feature in that it can be configured.

The invention of claim 4 is the one described in 請 Motomeko 3, wherein the closing member is a rod-like form extending through the exhaust cap has a feature where the said exhaust cap is made of silicon rubber.

<Invention of Claim 1>
When discharging air bubbles (air) accumulated in the bubble storage chamber, an exhaust cap is brought into close contact with the carriage to form an airtight space, and the open / close valve is opened by an opening / closing member so that the bubble storage chamber is placed in the airtight space. The air in the airtight space is sucked by the intake means and released to the atmosphere. The air flow when discharging bubbles is a one-way configuration from the bubble storage chamber side to the outside air through the airtight space and the intake means, so there is no risk that the outside air will enter the bubble storage chamber or the ink flow path. Thus, air can be reliably prevented from entering the ink. Also, compared to a method of sucking ink by applying a negative pressure from the nozzle side of the recording head and discharging bubbles mixed in the ink accompanying the suction, the waste of ink is avoided and the cost is reduced. And the time required for discharge is short. Furthermore, when air is sucked from the nozzle portion, there is a possibility that the air remaining without being sucked may cause non-discharge, but this can also be reliably prevented.

<Invention of Claim 4>
Since the exhaust cap is made of silicon rubber, the sliding resistance between the exhaust cap and the opening / closing member can be reduced while ensuring the airtightness in the airtight space.

External perspective view of inkjet printer Plan view showing the overall structure of the internal mechanism A perspective view showing a mechanism for transmitting rotational driving force to the maintenance mechanism Perspective view of the carriage upside down Perspective view seen from the bottom side of the maintenance mechanism Bottom view of maintenance mechanism Perspective view from above of maintenance mechanism Schematic sectional view showing the cap in the standby position, the open / close member in the valve closed position, and the wiper in the retracted position Schematic sectional view showing the carriage in the origin position and the carriage in close contact with the carriage Schematic sectional view showing a state where the black opening / closing member is in the valve open position and the collar opening / closing member is in the valve closing position Schematic sectional view showing a state in which the black opening / closing member is in the valve closing position and the collar opening / closing member is in the valve opening position A plan view of the cam showing a state where the collar opening / closing member is in the valve closing position. A plan view of a cam showing a state in which the collar opening / closing member is in the valve open position Schematic sectional view showing the carriage in the idle suction position Schematic sectional view showing a state in which the carriage is moved closer to the origin position than the idle suction position and the nozzle cap is in close contact with the carriage FIG. 15 is a schematic cross-sectional view showing a state where the carriage is further moved to the origin position side from the state of FIG. 15 and the adhesion degree of the nozzle cap to the carriage is increased. Schematic sectional view showing a state where the carriage moves closer to the origin position than the idle suction position and the exhaust cap is in close contact with the carriage Schematic sectional view showing the state in which the opening and closing member is displaced to the valve opening position (A) Schematic plan view showing the positional relationship between the cam follower of the wiper and the release portion of the cam when the wiper is held at the wiping position (B) Schematic cross section showing the state where the wiper is held at the wiping position Figure (A) Schematic plan view showing the positional relationship between the wiper cam follower and the cam release portion when the wiper at the wiping position is removed from the locking portion. (B) The wiper at the wiping position is removed from the locking portion. Schematic sectional view showing the state (A) Schematic sectional view showing a process in which the wiper is displaced from the wiping position to the retracted position. (B) Schematic sectional view showing a state in which the wiper is displaced from the wiping position to the retracted position. Chart showing the cam and switching member positions, the opening / closing member displacement state, the carriage lock displacement state, and the wiper displacement state Schematic cross section of carriage

<Embodiment 1>
A first embodiment embodying the present invention will be described below with reference to FIGS.

<Overall configuration>
The ink jet printer according to this embodiment has a printer function, a copy function, and a scanner function. As shown in FIGS. 1 and 2, the upper surface of the main body frame 1 has a copy function and a scanner function. A document reading device 2 is provided, and below the document reading device 2,
A recording carriage 3, a maintenance unit 4 for recovering clogging of the recording head 10 described later, and an ink tank 5 for supplying ink to the recording head 10 are provided. A paper discharge tray 6 and a paper feed tray 7 are provided on the front surface of the main body frame 1. The carriage 3 reciprocates in the left-right direction. A long region from the left end of the movement path of the carriage 3 to a position close to the right end is a recording area 8, and the right end portion of the movement path is a maintenance position (origin position, home position). Is provided. In front of the maintenance position (front), black, cyan,
Magenta and yellow ink tanks 5 (ink cartridges) of four colors are arranged side by side.

<Carriage 3 and means for supplying ink to carriage 3>
As shown in FIG. 23, the carriage 3 has four recording heads 10 each provided with a number of nozzles on the lower surface. While the carriage 3 travels in the recording area 8, the nozzles of the recording heads 10 face downward. Ink is ejected and recording (printing) on a recording medium (printing paper) is performed. The nozzles of the black recording head 10 are arranged on the side of the rectangular region that is long in the front-rear direction. The three recording heads 10 for color, that is, cyan, magenta, and yellow, are arranged side by side in the region on the left side of the nozzle for black. The number of cyan, magenta and yellow nozzles is the same, and the number of black nozzles is greater than the number of color nozzles.

A buffer tank 11 is provided on the upper surface of each recording head 10. The buffer tank 11 has a bubble storage chamber 12 in the upper part and an ink flow chamber 13 connected to the recording head 10 in the lower part. Ink is supplied from the ink tank 5 to the bubble storage chamber 12 through a flexible tube 14 (see FIG. 2). The ink supplied into the bubble storage chamber 12 passes through the filter 15 and flows into the ink flow chamber 13 and reaches the recording head 10. When the ink passes through the filter 15, the bubbles contained in the ink are separated and stored above the bubble storage chamber 12.

The carriage 3 is provided with a valve case 16 so as to be positioned on the right side of the recording head 10. On the lower surface of the valve case 16, a discharge path 17 extending from the ceiling wall of each bubble storage chamber 12 is opened as a discharge port 18, and these four discharge ports 18 are arranged in the front-rear direction. Inside the valve case 16, four discharge passages 17 extend in the vertical direction, and normally closed on-off valves 19 are accommodated in the portions extending in the vertical direction. The on-off valve 19 is always held in a closed state in which the valve body 20 elongated in the vertical direction closes the valve port 22 by the spring 21, but the valve body 20 moves upward against the bias of the spring 21. Then, the on-off valve 19 is opened. As for the exhaust resistance of the exhaust path (described in detail later) from the bubble storage chamber 12 to the exhaust port 18 of the exhaust path 17, the exhaust path for color, that is, the exhaust path for cyan, the exhaust path for yellow, and the exhaust path for magenta. Are the same level. On the other hand, the exhaust resistance of the exhaust path for black is smaller than each exhaust resistance for color.

The carriage 3 has a rightmost origin position in the reciprocating path, an empty suction position (uncapping position) slightly to the left of the origin position (on the recording area 8 side) and to the right of the wiper 90. The wiper 90 can stop at the wiping end position slightly to the left of the wiper 90.

<Driving force transmission mechanism of maintenance unit 4>
As shown in FIG. 3, the carriage frame 110 is provided with a rotation drive mechanism including a motor 24 provided at the left end portion of the carriage frame 110 as means for rotating a paper feed roller (not shown). ing. A rotation shaft 26 of the reduction gear 25 engaged with the output shaft of the motor 24 extends to the right and a drive gear 27 is provided at the right end of the rotation shaft 26 so as to rotate integrally. The drive gear 27 is engaged with a slide gear 29 that engages with the large-diameter bevel gear 28 only when the carriage 3 is moved to the maintenance position.
Is engaged with a small-diameter bevel gear 30 whose axis is directed vertically.

The small-diameter bevel gear 30 is engaged with the sun gear 32 via the reduction gear 31. As shown in FIGS. 5 and 6, one end of a swivel arm 34 is attached to the shaft 33 of the sun gear 32 so as to be relatively rotatable, and a planetary gear 35 is attached to the other end of the swivel arm 34 so as to be relatively rotatable. The planetary gear 35 is engaged with the sun gear 32. In front of the planetary gear 35, the axis line is the sun gear 3
2 and the planetary gear 35, that is, a disc-shaped cam 55 that is parallel to the planet gear 35, that is, is vertically supported by the maintenance frame 111. The cam 55 has a driven gear 3 having the same height as the planetary gear 35.
6 is integrally formed. The cam 55 will be described in detail later.

On the other hand, behind the planetary gear 35, a pump gear 37 is rotatably supported by the maintenance frame 111 at the same height as the planetary gear 35. When the pump gear 37 rotates, a rotary pump 38 (intake means which is a constituent element of the present invention) is driven to perform a suction operation.

When the sun gear 32 rotates in the counterclockwise direction in FIG.
Revolves around the sun gear 32 in the counterclockwise direction and engages with the driven gear 36 of the cam 55, and the cam 55 is rotationally driven in the counterclockwise direction (clockwise as viewed from above). In contrast,
When the sun gear 32 rotates in the clockwise direction, the planetary gear 35 revolves in the clockwise direction around the sun gear 32 and engages with the pump gear 37, and the pump 38 is rotationally driven to perform a suction operation.
Therefore, the rotation direction of the cam 55 is always the counterclockwise direction in FIG. 6 (the clockwise direction in FIGS. 12 and 13).

<Exhaust cap 40 of maintenance unit 4>
A cap lift holder 41 is movably provided on the maintenance frame 111. As shown in FIGS. 8, 9, and 14 to 18, the cap lift holder 41 is left and right between the standby position and the contact position by a four-bar link mechanism including a pair of left and right parallel isometric links 42. It can be translated in a circular arc shape in the direction. The standby position is set to the lower position on the left side as shown in FIGS. 8 and 14, the contact position is set to the higher position on the right side as shown in FIGS. 9 and 17, and the cap lift holder 41 is a return spring. 43 is biased toward the standby position. A receiving plate 44 that rises upward is formed at the right edge of the cap lift holder 41, and the carriage 3 is moved from the recording area 8 to the origin position (maintenance position).
In the process of moving toward the origin position, the carriage 3 comes into contact with the receiving plate 44 from the left just before reaching the origin position, and thereafter, while the carriage 3 reaches the origin position, the carriage 3 pushes the receiving plate 44 while pushing the cap. The lift holder 41 is moved from the standby position to the contact position against the bias of the return spring 43.

An exhaust cap 40 is supported at the right end position of the cap lift holder 41 through a push-up spring 45 so as to be relatively movable in the vertical direction. The exhaust cap 40 is made of silicon rubber, has a substantially rectangular shape elongated in the front-rear direction, and has a recess opened on the upper surface side. The exhaust cap 40 waits at a height lower than the lower surface of the carriage 3 when the cap lift holder 41 is in the standby position. In the process of being pushed by the carriage 3 and the cap lift holder 41 is displaced in an arc shape obliquely upward and rightward toward the contact position, the lip portion of the upper end edge of the exhaust cap 40 is in close contact with the lower surface of the carriage 3 in an airtight manner. At the same time, the degree of adhesion is increased by urging the push-up spring 45. Due to this close contact, the recess of the exhaust cap 40 and the carriage 3
An airtight space 46 that communicates with the four discharge ports 18 is formed by the lower surface of (see FIGS. 17 and 18). An intake port 47 is opened at the rear end of the bottom wall of the exhaust cap 40 so as to communicate with the recess, and this intake port 47 is connected to an exhaust port 78 of the switching means 70 via a tube.

<Opening / closing member 50 of maintenance unit 4>
In the bottom wall of the exhaust cap 40, four rod-shaped opening / closing members 50 arranged in the front-rear direction are penetrated so as to be slidable in the vertical direction while maintaining airtightness. Of the four opening / closing members 50, the black opening / closing member 50 located at the rearmost (the uppermost in FIGS. 12 and 13 and the rightmost in FIGS. 10 and 11) is independent of the exhaust cap 40. The black follower member 50 is formed with a cam follower 51 (see FIGS. 14 to 18) projecting sideways. Three of the four color opening / closing members 50 arranged on the front side are connected to each other below the exhaust cap 40 and integrally move up and down. A cam follower 51 projecting sideways is also formed at the lower end of the collar opening / closing member 50. The two cam followers 51 are separately engaged with the cam guides of the two front and rear sliders 52 that are reciprocated in the left-right direction by the cam 55. still,
The slider 52 will be described in detail later.

Further, the exhaust cap 40 moves integrally with the cap lift holder 41, but the opening / closing member 5
0 is integrally displaced in the left-right direction with respect to the exhaust cap 40, but is relatively displaced with respect to the exhaust cap 40 in the up-down direction. As described above, by allowing relative displacement in the vertical direction, the opening / closing member 50 is provided with the cap lift holder 41.
Regardless of the position, the slider 52 is always kept engaged.

<Drive mechanism of opening / closing member 50>
A cam groove 56 is formed on the upper surface of the cam 55. As shown in FIGS. 12 and 13, the cam groove 56 includes a non-driving area 56a having an arc shape concentric with the cam 55, and is connected to the non-driving area 56a and is closer to the center in the radial direction than the non-driving area 56a. Driving region 56 in a curved shape
b. Further, the maintenance frame 111 has two front and rear sliders 52.
Are supported so that they can be individually translated in the left-right direction (that is, the direction parallel to the moving direction of the carriage 3) above the cam 55. A cam follower 53 protruding downward from each slider 52 is engaged with the cam groove 56 at a position on the right side of the center of the cam 55.
When the cam follower 53 is engaged with the non-driving area 56a, the slider 52 stands by at the right position (see FIG. 12), and when the cam follower 53 is engaged with the driving area 56b, the slider 52 slides to the left. (See FIG. 13). The rear side (FIG. 12
The upper slider 52 is for driving the black ink opening / closing member 50, and the front slider 52 is for driving the color ink opening / closing member 50.

Each slider 52 is formed with a free guide 54a and a cam guide 54b for engaging the cam follower 51 of the opening / closing member 50, respectively. As shown in FIGS. 14 to 18, the free guide 54 a has a path extending linearly in the left-right direction (that is, parallel to the moving direction of the slider 52) and inclined upward to the right at the right end. , Cam guide 54b
Is connected to the right end of the free guide 54a and has an inclined portion that is inclined upward toward the right side.

When the cap lift holder 41 is in the standby position, the cam follower 51 of the opening / closing member 50 is always engaged with the free guide 54a regardless of whether the slider 52 is engaged with either the non-drive area 56a or the drive area 56b of the cam 55. The cam guide 54b is not engaged. When the cap lift holder 41 is moved to the contact position by the carriage 3, the slider 52 of the opening / closing member 50 that is displaced to the right integrally with the cap lift holder 41 is engaged with the cam guide 54b from the free guide 54a. At this time, if the cam follower 53 of the slider 52 is engaged with the non-driving region 56a, the cam follower 51 of the opening / closing member 50 is engaged with the lowest left end of the cam guide 54b (the same height as the right end of the free guide 54a). The opening / closing member 50 stands by at the lowest valve closing position. In this closed position, the opening / closing member 50
Is located further below the lower end of the valve body 20 of the on-off valve 19, so that the on-off valve 19 is kept closed.

From this state, when the cam follower of the slider 52 shifts to a state where it is engaged with the drive region and slides to the left, the cam follower 51 of the opening / closing member 50 moves up the inclined portion while moving the cam guide 54b to the right. Therefore, the opening / closing member 50 moves upward from the valve closing position and moves to the valve opening position. When the opening / closing member 50 moves to the valve opening position, the upper end of the opening / closing member 50 comes into contact with the lower end of the valve body 20 and pushes up the valve body 20, so that the opening / closing valve 19 is opened. In other words,
The opening / closing member 50 opens the opening / closing valve 19 by being advanced from the valve closing position to a valve opening position while being inserted into the discharge passage 17 of the carriage 3 in a direction substantially perpendicular to the moving direction of the carriage 3. It has become.

<Nozzle cap 60 of maintenance unit 4>
A nozzle cap 60 is supported in the cap lift holder 41 on the left side of the exhaust cap 40 via a push-up spring 61 so as to be relatively movable in the vertical direction.
The nozzle cap 60 is made of silicon rubber, has a substantially rectangular shape that is long in the front-rear direction, has two left and right recesses open on the upper surface side, and has a bowl-shaped cross-section spacer 62 that has a raised upper surface in each recess. Is housed. The nozzle cap 60 waits at a height lower than the lower surface of the carriage 3 when the cap lift holder 41 is in the standby position. Carriage 3
In the process in which the cap lift holder 41 is displaced in an arc shape obliquely upward and rightward toward the contact position, the lip portion of the upper end edge of the nozzle cap 60 is in close contact with the lower surface of the carriage 3 and is pushed up. The degree of adhesion is increased by the bias of the spring. Due to this close contact, the recording head 1 is formed by the upper surface of the spacer of the nozzle cap 60 and the lower surface of the carriage 3.
Two independent left and right sealed spaces 63 communicating with the zero nozzle are formed simultaneously (see FIG. 16). The narrow black sealed space 63 on the right side corresponds to the black nozzle, and the wide wide color sealed space 63 on the left side corresponds to the three color nozzles.

The bottom wall of each recess of the nozzle cap 60 has a rear end (one end in the longitudinal direction).
An intake port 64 is opened so as to be located at a position where the intake port 64 of the narrow black recess is connected to a black ink port 79 (hereinafter referred to as a Bk port) of the switching means 70 via a tube. The wide collar recess 64 is connected to a collar port 80 (hereinafter referred to as a Co port) of the switching means 70 via a tube. Each sealed space 63 is configured such that the vertical distance is the narrowest in the center in the left-right direction (that is, the width direction), and the vertical distance gradually increases toward the left and right sides. Therefore, when the ink in the nozzle is sucked to the intake port 64 side with the negative pressure in the sealed space 63, the air (air containing ink) is directed from the center in the left-right direction to both the left and right sides (to the side with a small flow resistance). The air flow is generated almost uniformly in the front-rear direction, and the air flow becomes a large flow toward the intake port 64 (rear) while merging at both left and right ends of the sealed space 63 and is sucked into the intake port 64. The Therefore, even if the intake port is arranged at the rear end portion of the sealed space 63 that is long in the front-rear direction, the air flow is made substantially uniform over the entire area, and the ink purge is performed for all the nozzles. It can be performed uniformly.

<Switching means 70 of maintenance unit 4>
The switching means 70 has a function of switching the airtight space 46 formed by the exhaust cap 40 between a state where the airtight space 46 is communicated with the pump 38 and a state where the airtight space 46 is shut off from the pump 38, and the nozzle cap 6.
The closed space 63 formed by 0 has a function of switching between a state where it is communicated with the pump 38 and a state where it is shut off from the pump 38. The switching unit 70 includes an attachment portion 71 formed on the lower surface of the cam 55, a switching member 73, and a cover 76.

As shown in FIG. 5, the attachment portion 71 has a circular shape concentric with the cam 55 and the driven gear 36, and a positioning projection 72 is formed on the outer periphery of the attachment portion 71. The switching member 73 is made of rubber and has a disk shape. A switching channel 74 is formed on the outer surface. The switching channel 74 includes four branch grooves 74 a extending radially (in the radial direction) from the center of the lower surface of the switching member 73, and the switching member 73.
And a communication groove 74b formed to be connected to the outer peripheral end of each branch groove 74a. The switching member 73 is fitted to the mounting portion 71 while the positioning groove 75 on the upper surface thereof is fitted to the positioning portion 72 (see FIGS. 8 and 9), whereby the switching member 73 is connected to the cam 55 and the driven gear. It is attached so as to rotate concentrically and integrally with 36.

The cover 76 is made of a synthetic resin and has a bottomed cylindrical shape. An intake port 77 is formed at the center of the bottom wall of the cover 76, and the intake port 77 is connected to the pump 38 via a tube. Five ports 78 to 82 are formed on the circular peripheral wall of the cover 76 at predetermined angular intervals in the circumferential direction. The first of the five is an exhaust port 78 communicating with the airtight space 46 formed by the exhaust cap 40, and the second is a Bk port communicating with the black sealed space 63 formed by the nozzle cap 60. 79 (Port for black ink)
The third is a Co port 80 (color ink port) communicating with the color sealed space 63 formed by the nozzle cap 60, and the remaining two are an atmospheric port 81, open to the atmosphere. 82.

The cover 76 is fixed to the cam 55 by three locking claws 83 formed on the lower surface of the cam 55.
Is attached. That is, a flange 84 is continuously formed on the outer periphery of the cover 76 over the entire circumference, and the three locking claws 83 are arranged on the circumference concentric with the cam 55 at a predetermined angular interval, Elastic bending in the radial direction is possible. When the cover 76 is assembled to the lower surface of the cam 55, the three locking claws 83 are locked from the outer peripheral side with respect to the lower surface of the flange 84, whereby the cover 76 is relative to the cam 55 and the switching member 73. So that you can rotate to
The relative displacement in the vertical direction (the direction of the rotation center axis of the cam 55) is supported in a restricted state. In the state where the cover 76 is assembled to the cam 55, the switching member 73 is accommodated in the cover 76, and the lip portion on the outer periphery of the switching member 73 is in close contact with the inner periphery of the cover 76. When 73 is relatively rotated, the lip portion on the outer periphery of the switching member 73 and the cover 7
A sliding resistance (frictional resistance) is generated between the inner periphery of 6.

Further, an arm portion 85 extending in the radial direction is integrally formed on the outer periphery of the cover 76, and the extending end of the arm portion 85 is fitted so as to be rotatable relative to the shaft 33 of the sun gear 32. Are combined. By fitting the arm portion 85 and the shaft 33, the cover 76 is held in a state where the rotation is restricted with respect to the maintenance frame 111, and the positions of the ports 78 to 82 of the cover 76 are also fixed. The arm portion 85 is prevented from being pulled downward by a retaining projection 33a of the shaft 33. Between the arm portion 85 and the sun gear 32 positioned above the arm portion 85, the swivel arm 34 is secured to the shaft 33. It is in a state of being sandwiched in a state where relative rotation with respect to is allowed.

In the process in which the switching member 73 rotates in the cover 76, the four communication grooves 74b of the switching channel 74 are provided.
Are switched to a state in which all of the four communication grooves 74b are in communication with any one of the ports 78 to 82, and one of the four communication grooves 74b is in communication with any one of the ports 78 to 82. In a state where all the communication grooves 74b do not correspond to any of the ports 78 to 82,
All ports 78-82 are disconnected from the pump 38. The communication groove 74b has ports 78 to 82.
In the state of communicating with the communication groove 74b, the ports 78 to 82 corresponding to the communication groove 74b communicate with the pump 38 via the switching flow path 74, or a plurality of ports 78 to 82 corresponding to the communication groove 74b.
Are in communication with each other via the switching flow path 74 and also in communication with the pump 38. A specific switching mode will be described in detail later.

<Wiper 90 of maintenance unit 4>
A cam groove is formed on the upper surface of the cam 55. The cam groove is arranged substantially concentrically on the outer side of the cam groove for the opening / closing member 50, and is formed on a circular arc portion concentric with the cam 55 and on a circumference having the same diameter as the circular arc portion, that is, in the middle of the circular arc portion. And a release portion disposed on a circumference having substantially the same diameter as the arc portion, and a relief recess disposed so as to correspond to the release portion at a position radially outside the release portion.

The wiper 90 is for wiping off ink adhering to the nozzle surface of the recording head 10. The wiper 90 is located on the left side of the cap lift holder 41, that is, the origin position (maintenance position) in the movement path of the carriage 3. The maintenance frame 111 is provided so as to be positioned between the recording area 8 and the recording area 8. The wiper 90 has a plate shape substantially perpendicular to the moving direction of the carriage 3 as a whole. The wiper 90 is located above the cam 55 and retracts below the moving path of the carriage 3 (see FIG. 21). It moves between wiping positions (see FIG. 19) that advance on the movement path.

The wiper 90 is disposed with a predetermined clearance between the restriction plate 91 located on the left side and the plate-like stopper 92 located on the right side, whereby the wiper 90 is not greatly displaced in the left-right direction. Guided so that you can go up and down. A locking portion 93 is formed on the restriction plate 91 located on the left side, and a locking projection 94 is formed on the left side surface of the wiper 90. The locking projection 94 is engaged with the locking portion 93 from above. By stopping, the wiper 90 is held at the wiping position. Further, a spring 95 that biases the wiper 90 obliquely in the lower left direction is mounted between the position below the restriction plate 91 in the wiper 90 and the maintenance frame 111. Further, the wiper 90 is formed with a cam follower 96 that protrudes downward, and this cam follower 96 is engaged with the cam groove 97 at a position on the left side of the center of the cam 55.

The cam groove 97 is concentric with the cam 55 and can hold the wiper 90 in the retracted position.
7a, a raised portion 97b that is arranged on a circumference having substantially the same diameter as the circular arc portion 97a, moves the wiper 90 to the wiping position by interfering with the wiper 90 in the retracted position, and has the same diameter as the circular arc portion 97a. The release portion 97c is arranged on the circumference and interferes with the cam follower 96 of the wiper 90 in the wiping position in the radial direction.

In a state where the cam follower 96 is engaged with the arc portion 97a, the cam follower 96 is in contact with the upper surface of the arc portion 97a by the bias of the spring 95, and at this time, the wiper 90 is held at the retracted position. When the raised portion 97b approaches the cam follower 96, the cam follower 96 rides on the raised portion 97b, and the wiper 90 rises to the wiping position. During this time, the wiper 90 is pressed against the restricting plate 91 by being pulled obliquely leftward by the spring 95, so that when the wiping position is reached, the locking projection 94 is locked to the locking portion 93. The wiper 90 is held at the wiping position by the locking.

The wiper 90 in the wiping position has a wiping portion at the upper end protruding upward from the restriction plate 91 and abuts against the restriction plate 91 from the right, so that the cam follower 96 is in contact with the outer peripheral surface of the arc portion 97a. Then, they are brought into contact with each other from the right side, and in this state, they are pulled obliquely to the lower left by the spring 95. Therefore, even if the carriage 3 interferes with the upper end portion of the wiper 90 from the right side (that is, in the process of moving from the origin position (maintenance position) toward the recording area 8), the wiper 90 is pressed against the restriction plate 91. As a result, the locking protrusion 94 is held in the locking portion 93. At this time, the wiper 90 rubs the nozzle surface of the recording head 10 to remove ink adhering to the nozzle surface.

On the other hand, when the carriage 3 interferes with the upper end portion of the wiper 90 from the left side, the posture of the wiper 90 is changed so that the wiper 90 tilts to the right side, and the locking projection 94 is detached from the locking portion 93.
The wiper 90 is lowered from the wiping position to the retracted position by the bias of the spring 95.

The wiper 90 at the wiping position is also lowered to the retracted position by the release portion 97c of the cam 55. That is, when the taper surface of the release portion 97c comes into contact with the lower end portion of the cam follower 96 along with the rotation of the cam 55, the lower end portion of the cam follower 96 is pushed to the left due to the inclination of the taper surface and is displaced into the recess 97d. . That is, the release portion 97 c interferes with the wiper 90 in the radial direction. Accordingly, the wiper 90 changes its posture so that it tilts to the right with the lower end edge of the restricting plate 91 as a fulcrum, and the locking projection 94 is released from the locking portion 93 to the right. Then, due to the bias of the spring 95, the wiper 90 is pulled downward and lowered to the retracted position.

<Carriage lock 100 of maintenance unit 4>
On the outer periphery of the cam 55, a circular flange portion 101 whose lower surface is the cam surface 102 is formed. The cam surface 102 is formed with a partially recessed shape, that is, a partially raised region, and this region serves as a lock region 102a (see FIG. 5). In addition, cam surface 1
Of 02, the part lower than the lock area 102a is the lock release area 102b. The carriage lock 100 is supported so as to be movable up and down with respect to the maintenance frame 111 and biased upward by a spring (not shown).
A cam follower 103 formed at the lower end of 0 is in contact with the cam surface 102 from below. Therefore, most of the carriage lock 100 is located above the cam 55.
In a state where the cam follower 103 is in contact with the lock release area 102b, the carriage lock 100 is held at the lower lock release position, and the cam follower 103 is held in the lock area 102a.
In a state where the carriage lock 100 abuts, the carriage lock 100 moves upward and advances into the movement path of the carriage 3. At this time, if the carriage 3 is located at the origin position (maintenance position), the upper end portion of the carriage lock 100 is engaged with the front end portion of the left side surface of the carriage 3, and by this engagement, Movement to the recording area 8 is regulated.

<Control means for rotational position of cam 55>
The detected portion 105 is provided on the flange portion 101 on the outer periphery of the cam 55 so as to rotate integrally, and the maintenance frame 111 is turned ON / OFF by the detected portion 106 as the cam 55 rotates. A leaf switch 106 is provided. Leaf switch 106 is ON or OFF (positions “A (M)”, “N”, “O”, “
P ”,“ Q ”,“ R ”,“ S ”, and“ K ”), the count of the number of revolutions of the motor 24 for driving the cam 55 is started, and thereby the stop position of the cam 55 is accurately controlled. It is like that. In the following description of processes such as maintenance, the description of the ON / OFF operation of the leaf switch 106 and the control of the rotational position of the cam 55 based thereon is omitted.

<Operation of Cap Lift Holder 41 Accompanying Movement of Carriage 3>
When the carriage 3 moves from the recording position side to the origin position side in a state where the cap lift holder 41 is held at the retracted position by the bias of the return spring 43, the carriage 3 is moved to the idle suction position as shown in FIG. When it reaches, the carriage 3 contacts the receiving plate 44 of the cap lift holder 41. At this time, both the exhaust cap 40 and the nozzle cap 60 are
It is located below the lower surface of the carriage 3. That is, it is in a non-contact (separated) state with respect to the lower surface of the carriage 3.

From this state, when the carriage 3 moves to the origin position side, as shown in FIG. 15, the cap lift holder 41 is displaced in an arc shape obliquely upward to the right, so that the nozzle cap 60 is at the lower position of the recording head 10. Touch the nozzle surface. When the carriage 3 further moves to the right, the spring 61 between the cap lift holder 41 that moves upward and the nozzle cap 60 that is in contact with the lower surface of the carriage 3 is elastically compressed as shown in FIG. The nozzle cap 60 is strongly pressed against the recording head 10 by the elastic restoring force 61, and a sealed space 63 is formed between the nozzle surface and the nozzle cap 60 that is securely sealed in an airtight state.

When the carriage 3 further moves rightward from this state and reaches the origin position, the exhaust cap 40 comes into close contact with the lower surface of the carriage 3 as shown in FIG.
The exhaust cap 40 is strongly pressed against the lower surface of the carriage 3 by the elastic force of the spring 45 provided between the cap lift holder 41 and the air tightly sealed between the lower surface of the carriage 3 and the exhaust cap 40. A sealed airtight space 46 is formed.

<Exhaust process and empty suction process in maintenance>
At the initial stage of discharging the bubbles stored in the bubble storage chamber 12, the carriage 3 is at the origin position and is locked at the origin position by being locked to the carriage lock 100. When the carriage 3 is locked at the origin position, the exhaust cap 40 is in close contact with the lower surface of the carriage 3 to form an airtight space 46. The cam 55 and the switching member 73 are
At the position “A (M)” in FIG. 22, at this time, the airtight space 46 is in a disconnected state in which neither the outside air nor the pump 38 is in communication. The black sealed space 63 and the collar sealed space 63 are both opened to the atmosphere via the switching flow path 74 of the switching member 73 and simultaneously communicated with the pump 38.

From this state, the cam 55 and the switching member 73 are rotated to the position “H” in FIG. 22 and stopped, and the airtight space 46 communicates only with the pump 38 via the switching member 73. At this time, the black sealed space 63 and the collar sealed space 63 are both disconnected from the atmosphere and the pump 38. In this state, the planetary gear 35 revolves and the pump 38 is driven, and the airtight space 4
The air in 6 is discharged, and the inside of the airtight space 46 is in a negative pressure state.

After the pre-evacuation is performed in this way, the cam 55 and the switching member 73 move to the position “I”. In the process of movement, the black slider 52 moves to the left by the engagement with the cam 55, and the black opening / closing member 50 is pushed up from the valve closing position to the valve opening position.
The on-off valve 19 provided in the black discharge path 17 is opened by pushing up. Further, the airtight space 46 communicates only with the pump 38, and the black sealed space 63 and the collar sealed space 63 are disconnected from the atmosphere and the pump 38. Then, in the position “I”, the pump 38 is driven, and the bubbles stored in the black bubble storage chamber 12 pass through the discharge path 17, the airtight space 46, the switching flow path and the pump 38 to the outside air. Is discharged. In this exhaust process, the black sealed space 63 and the collar sealed space 63 are kept in a shut-off state.

When the exhaust of the black bubble storage chamber 12 by the pump 38 is completed, the cam 55 and the switching member 7
3 moves to position “J”. In the course of this movement, the black slider 52 returns to the right, the opening / closing member 50 returns to the valve closing position, the black opening / closing valve 19 is closed,
The color slider 52 moves to the left and its lower part is pushed up from the valve closing position to the valve opening position, and the three on-off valves 19 provided in the color discharge path 17 are opened. Similarly to the position “I”, the airtight space 46 communicates only with the pump 38, and the black sealed space 63 and the collar sealed space 63 are disconnected from the atmosphere and the pump 38.
Then, in the position “J”, the pump 38 is driven, and the bubbles stored in the three bubble storage chambers 12 for the collar pass through the discharge path 17, the airtight space 46, the switching channel and the pump 38. Exhausted to the outside. Even in the exhaust process, the black sealed space 63 and the collar sealed space 63 are kept in a shut-off state. Thereafter, the cam 55 and the switching member 73 move to the position “A”. In the course of this movement, the color slider 52 that has been in the open state is moved back to the right, the opening / closing member 50 is returned to the valve closing position, and the color opening / closing valve 19 is closed. Thus, the bubble discharging process in the bubble storage chamber 12 is completed. During the exhaust process, the carriage 3 remains held at the origin position.

Thereafter, the cam 55 and the switching member 73 rotate to the position “B”, and the carriage lock 1
00 descends and the movement restricted state (locked state) of the carriage 3 is released. Even in this position “B”, the communication between the airtight space 46 and the sealed space 63 is interrupted by the position “A”.
Is the same. When the lock by the carriage lock 100 is released, the carriage 3 moves from the origin position to the idle suction position, and the exhaust cap 40 and the nozzle cap 60 are separated from the lower surface of the carriage 3. Next, the cam 55 and the switching member 73 rotate to the position “G”.
The concave portion of the black nozzle cap 60 communicates only with the pump 38, and the concave portion of the exhaust cap 40 and the concave portion of the collar nozzle cap 60 are blocked from the pump 38. During the rotation to the position “G”, the wiper 90 rises from the retracted position to the wiping position and is held at the wiping position by being locked to the locking portion 93. At this time, the carriage 3 is located to the right of the wiper 90 (on the origin position side).

From this state, the carriage 3 moves to the left. During this time, the nozzle surface on the lower surface of the carriage 3 is in sliding contact with the upper edge of the wiper 90, and the ink adhering to the nozzle surface is scraped off by the wiper 90. When the carriage 3 finishes passing through the wiper 90 and wiping is completed, the carriage 3 temporarily stops at the wiping end position. Thereafter, the carriage 3 moves backward to the idle suction position (origin position side), and at this time, the carriage 3 comes into contact with the upper end portion of the wiper 90 from the left side, so that the wiper 90 is moved away from the wiping position. Fall to. After the wiper 90 falls, the carriage 3 stops at the idle suction position.

Thereafter, the cam 55 and the switching member 73 rotate to the position “H”. At this time, since the carriage 3 is in the idle suction position and the exhaust cap 40 is not in contact with the carriage 3, the airtight space 46 is not formed, and the recess of the exhaust cap 40 communicates with the pump 38. When the pump 38 is driven, idle suction is performed, and the ink sucked into the exhaust cap 40 together with the bubbles (air) from the bubble storage chamber 12 in the exhaust process is sucked and discharged to the pump 38 side. Thus, the idle suction process is completed.

Thereafter, the cam switching member 73 rotates to the position “L”. Then, the concave portions of the black nozzle cap 60 and the color nozzle cap 60 are both opened to the atmosphere and communicated with the pump 38. In addition, the recess of the exhaust cap 40 is not in communication with the pump 38. In this state, the carriage 3 returns from the idle suction position to the origin position. Then, the exhaust cap 40 is in close contact with the carriage 3 to form an airtight space 46 (blocked from the atmosphere), and the nozzle cap 60 is in close contact with the carriage 3 to form a sealed space 63. Thereafter, the cam 55 and the switching member 73 return to the position “A (M)”. Thus, the exhaust process and the idle suction process are completed.

<Ink purge process in maintenance>
In the initial stage of the ink purging process for sucking and discharging the ink clogged in the nozzles of the recording head 10 and the bubbles contained in the ink, the carriage 3 is locked at the origin position, and the airtight space 46 and A sealed space 63 is configured. The cam 55 and the switching member 73 are
The black sealed space 63 and the collar sealed space 63 are located at the position “A” in FIG.
However, both are opened to the atmosphere via the switching member 73 and at the same time communicated with the pump 38. Further, the airtight space 46 is in a disconnected state in which neither the outside air nor the pump 38 is in communication.

From this state, the cam 55 and the switching member 73 rotate to the position “F”. Then, both the black sealed space 63 and the color sealed space 63 are cut off from the atmosphere, and at the same time, are not in communication with the pump 38. The airtight space 46 is also cut off from the atmosphere and the pump 38. In this state, the pump 38 is driven, and the negative pressure is charged in the pump 38 and the switching flow path 74 (the pressure in the pump 38 and the switching flow path 74 is reduced to an atmospheric pressure or lower).

Thereafter, the cam 55 and the switching member 73 are rotated to the position “G”. Then, the black sealed section is communicated with the pump 38 via the switching member 73, and the black ink stored in the black sealed space 63 (in the nozzle cap 60) is sucked to the pump 38 side at once. At this time, the airtight space 46 and the collar sealed space 63 are in a state of being blocked from both the pump 38 and the atmosphere.

When the ink purge in the black sealed space 63 is completed, the cam 55 and the switching member 73 rotate to the position “H”, and only the airtight space 46 communicates with the pump 38, and the black sealed space 63 and the color sealed space 63 are connected. Are not in communication with the pump 38 and are also shielded from the atmosphere.

Thereafter, the carriage 3 is temporarily moved from the origin position to the idle suction position, and further the recording area 8.
Move to the side. At this time, as described above, while the cam 55 and the switching member 73 are rotated from the position “A” to the position “F”, the wiper 90 that has been in the retracted position is lifted and locked in the wiping position. I'm waiting for you. Therefore, while the carriage 3 moves, the nozzle surface of the recording head 10 contacts the wiper 90, and the ink adhering to the nozzle surface is wiped off and removed. Further, flushing is performed after the carriage 3 passes through the wiper 90.

Thereafter, the carriage 3 returns to the idle suction position. During this time, the carriage 3 comes into contact with the wiper 90, so that the wiper 90 falls from the wiping position to the retracted position. Also,
In the state in which the carriage 3 returns to the idle suction position, the airtight space 46 and the sealed space 63 are not formed because the exhaust cap 40 and the nozzle cap 60 remain separated from the lower surface of the carriage 3.

Thereafter, the cam 55 and the switching member 73 rotate from the position “H” to the position “G”, and only the concave portion of the black nozzle cap 60 communicates with the pump 38. And
In this state, the pump 38 is driven, and the black ink remaining in the black sealed space 63 is sucked and removed to the pump 38 side. Thus, the black ink purge process is completed.

Thereafter, the cam 55 and the switching member 73 rotate to the position “L”, and the black sealed space 63 is obtained.
And the collar sealed space 63 are opened to the atmosphere and communicated with the pump 38. Note that the recess of the exhaust cap 40 and the pump 38 are not in communication. In this state, the main pump 38 is driven and empty suction is performed once again. As a result, the ink remaining in the flow path communicating with the atmospheric port in the switching flow path 74 is sucked and removed to the pump 38 side. The

Thereafter, the carriage 3 at the idle suction position returns to the origin position, and the airtight space 46 and the sealed space 63 are restored.
Is formed. Next, the cam 55 and the switching member 73 are rotated to the position “A (M)”.
Thus, the black ink purge process is completed.

The color ink purge process is also performed in the same manner as described above. In this color purge process, positions “F”, “G”, and “H” from the negative pressure charge to the completion of ink suction in the black purge process are set to positions “C”, “D”, and “E”, respectively. The idle suction position “G” after wiping may be changed to the position “D”.

In the above process, negative pressure charging is performed before ink purging to suck ink at a stroke. However, ink purging can be performed without performing negative pressure charging. In this case, the pump 38 stops at the position “F” (position “C” in the case of color) and stops.
The step of sucking may be omitted.

<Process in which carriage 3 starts recording on non-recording medium>
When the carriage 3 that has been maintained moves from the standby state at the origin position to the recording area 8 through the idle suction position and the wiping end position in order to perform recording on a non-recording medium, the nozzle surface No wiping is required, and unnecessary wiping is not required for the recording head 10.
This means shortening the service life of the nozzle surface.

In this case, before the carriage 3 is moved, the cam 55 at the position “A” in advance is moved.
Is moved to a position passing through the position “J”, for example, a position between the position “L” and the position “M”. While the cam 55 reaches the position “L” from the position “J”, the release portion 97 c of the cam 55 interferes with the wiper 90 locked at the wiping position, and drops the wiper 90 to the retracted position. Even if the carriage 3 is moved from the origin position to the recording area 8 in this state, the carriage 3 does not come into contact with the wiper 90, and useless wiping is avoided.

<Effect of embodiment>
(1) When the bubbles (air) accumulated in the bubble storage chamber 12 are discharged, the exhaust cap 40
The airtight space 46 is formed in close contact with the carriage 3, the open / close valve 19 is opened by the opening / closing member 50, the bubble storage chamber 12 is communicated with the airtight space 46, and the air in the airtight space 46 is pumped 38. It is designed to be sucked and released to the atmosphere. Therefore, the flow of air when the bubbles are discharged is in a one-way configuration from the bubble storage chamber 12 side to the outside air via the airtight space 46 and the intake means. Thereby, there is no possibility that outside air may enter the bubble storage chamber 12 and the ink flow path, and the mixing of air into the ink can be reliably prevented.

Further, compared to a method of sucking ink by applying a negative pressure from the nozzle side of the recording head 10 and discharging bubbles mixed in the ink accompanying the suction, the waste of ink is avoided and the cost is reduced. It is possible to reduce the time required for discharging.

(2) The opening / closing operation of the opening / closing valve 19 by the opening / closing member 50 causes the exhaust cap 40 to move to the carriage 3.
Since the airtight space 46 is formed by attaching to the air bubble, the bubble discharge path 17 is used.
Is blocked from the atmosphere, and the entry of the atmosphere into the bubble storage chamber 12 is prevented. This prevents ink from overflowing from the recording head 10 due to an increase in pressure in the bubble storage chamber 12.

(3) When the inside of the bubble storage chamber 12 is set to a pressure lower than the atmospheric pressure and a water head difference is provided between the recording head 10 and the ink tank 5, the inside of the airtight space 46 is at atmospheric pressure. If the valve is opened as it is, the air in the airtight space 46 flows into the bubble storage chamber 12, the pressure in the bubble storage chamber 12 rises, and the ink flows backward from the recording head 10 side to the ink tank 5 side. However, in this embodiment, since the opening / closing valve 19 is opened in advance in a state in which the inside of the airtight space 46 is at a negative pressure, the inside of the bubble storage chamber 12 is kept at a negative pressure, and the ink moves toward the ink tank 5 side. Backflow is prevented.

(4) Since the opening / closing member 50 has a rod-like shape penetrating the exhaust cap 40 and the exhaust cap 40 is made of silicon rubber, the exhaust cap 40 and the opening / closing member 50 are secured while ensuring airtightness in the airtight space 46. The sliding resistance between the two can be reduced.

(5) If bubbles are discharged while the recording head 10 is open to the atmosphere, the meniscus may be destroyed as the pressure in the bubble storage chamber 12 decreases. In the embodiment, since the discharge of the bubbles is performed in a state where the recording head 10 is shielded from the atmosphere by the close contact of the nozzle cap 60, the meniscus can be prevented from being destroyed.

(6) In this embodiment, two types of recording heads 10 for black and color are provided, but in the case where a plurality of recording heads 10 are provided in this way, the number of nozzles, the diameter of the nozzles, Due to the difference in the diameter of the ink flow path, the length between the ink flow paths, and the like, the exhaust resistance from the bubble storage chamber 12 to the discharge port 18 when the bubbles in the bubble storage chamber 12 are discharged is between the recording heads 10. May be different. In this case, if bubbles are discharged simultaneously to two types of recording heads 10 having different exhaust resistances, there is a concern that the amount of discharged bubbles varies between the recording heads 10. However, in the present embodiment, since the discharge of bubbles by the pump 38 is performed separately for the black recording head 10 and the color recording head 10, there is a variation in the amount of discharged bubbles between the recording heads 10. Can be avoided.

(7) Since the three recording heads 10 for color have the same number of nozzles, nozzle diameter, ink flow path diameter, and ink flow path length, the bubbles in the bubble storage chamber 12 are discharged. The exhaust resistance from the bubble storage chamber 12 to the discharge port 18 is the same. Therefore, in the present embodiment, since the bubbles are discharged simultaneously to the three color recording heads 10 having the same exhaust resistance, the amount of discharged bubbles is kept uniform between the recording heads 10. Efficient exhaust can be performed.

(8) A switching member 73 that can be switched between a state in which the hermetic space 46 communicates with the pump 38 and a state in which the hermetic space 46 is disconnected from the pump 38, a valve opening state in which the on / off member 50 opens the on / off valve 19, and a close on / off valve 19 The cam 55 that is displaced between the valve-closed state and the valve-closed state is displaced integrally. Thereby, the operation of opening and closing the opening / closing valve 19 by the opening / closing member 50 by the displacement of the cam 55 and the operation of sucking bubbles by the pump 38 by the switching member 73 can be executed at an accurate timing. That is, since a mechanism for synchronizing the operation of the opening / closing member 50 and the timing of the bubble suction operation is not required, the structure can be simplified.

(9) Moreover, since the switching member 73 can be switched between a state in which the sealed space 63 communicates with the pump 38 and a state in which the sealed space 63 is blocked from the pump 38, the opening / closing operation of the on-off valve 19 and the bubble suction operation. In addition, the operation of sucking the clogged ink in the nozzle can be executed at an accurate timing.

(10) An opening / closing member 50 that is displaced between a position where the opening / closing valve 19 is opened and closed by the cam 55, a position where the ink attached to the nozzles of the recording head 10 can be wiped off by the cam 55, and the nozzles Both the wiper 90 that is displaced between the non-contact position and the carriage lock 100 for holding the carriage 3 at the origin position (that is, the maintenance position) for exhausting the bubbles by the cam 55 are both partition walls. Since it is arranged on the upper side opposite to the switching member 73 via 55a, a tube extending from the port of the cover 76 of the switching member 73 to the pump 38, the airtight space 46, and the sealed space 63 is routed below the partition wall 55a. It is easy to route.

(11) When the cam 55 stops immediately after driving a driven component such as the opening / closing member 50, the cam 55 has moved out of the specified position due to a load applied from the driven component side to the cam 55 side. There is concern about stopping at the position. However, in this embodiment, the switching member 73 is
It is housed in a cover 76 having exhaust ports 78-82 and ports 78-
82 has a switching channel 74 that can communicate with 82 and slides in an airtight state with respect to the inner surface of the cover 76. In this way, the switching member 73 that moves integrally with the cam 55 serves as the cover 7.
Since the frictional resistance accompanying the sliding is generated with respect to 6, the valve body 20 and the cam 55 can be surely stopped at the defined positions by this frictional resistance.

(12) In order to fix the positions of the ports 78 to 82 of the cover 76 with respect to the rotating switching member 73, the cover 76 must be kept in a state where the rotation is restricted. As a means, the sun gear 3 for rotationally driving the switching member 73 and the cam 55
Since the second shaft 33 is used, the structure can be simplified as compared with the case where a dedicated fixing means is provided. Further, since the cover 76 is held by the cam 55 by the locking claw 83 being locked, it can be rotated relative to the cam 55. Accordingly, the rotation operation of the cam 55 and the switching member 73 is not hindered.

(13) The opening / closing member 50 opens and closes by moving from the closed position where the open / close valve 19 is closed to the open position while being inserted into the discharge passage 17 in the left-right direction intersecting the moving direction of the carriage 3. Since the valve 19 is opened, if the carriage 3 moves to the home position (maintenance position) while the opening / closing member 50 has advanced to the valve opening position, it interferes with the opening / closing member 50. However, in this embodiment, when the carriage 3 is in the recording area 8 where recording is performed on the recording medium, the opening / closing member 50 is held at the valve closing position, and the carriage 3 is moved to the origin position (maintenance position) where the bubbles are discharged. When moved, the opening / closing member 50 is allowed to advance to the valve opening position. Thereby, the opening / closing member 5 that has advanced to the valve opening position.
The carriage 3 is prevented from interfering with zero.

(14) In the process in which the carriage 3 reaches the origin position (maintenance position) from the recording area 8, the carriage 3 pushes and moves the exhaust cap 40 at the standby position to the contact position. Even if a means for synchronizing the movements of 40 is not provided, if the carriage 3 moves to the maintenance position, the exhaust cap 40 can be brought into close contact with the carriage 3 in a timely manner. Further, since the carriage 3 pushes and moves the exhaust cap 40, a dedicated drive source for displacing the exhaust cap 40 is unnecessary.

(15) Since the carriage 3 is configured to push the nozzle cap 60 at the standby position to the contact position in the process in which the carriage 3 reaches the origin position (maintenance position) from the recording area 8, the movement of the carriage 3 and the nozzle cap Even if a means for synchronizing the movements of 60 is not provided, if the carriage 3 moves to the maintenance position, the nozzle cap 60 can be brought into close contact with the carriage 3 in accordance with the movement. Further, since the carriage 3 pushes and moves the nozzle cap 60, a dedicated drive source for displacing the nozzle cap 60 is not necessary.

(16) The home position (origin position) of the carriage 3 is set to the same side as the maintenance position with respect to the wiper 90, that is, the same position as the maintenance position. When the carriage 3 is moved to perform recording on the recording medium, wiping is not necessary. Therefore, in this embodiment,
As a means for returning the wiper 90 from the wiping position to the retracted position, the wiper 90 is displaced from the wiping position to the standby position by engaging the wiper 90 with the cam 55 separately from the means by the interference of the carriage 3. A release portion is formed. Thereby, before the carriage 3 moves, it is possible to drive the cam 55 and move the wiper 90 from the wiping position to the retracted position by the release portion. As described above, when wiping of the recording head 10 with the wiper 90 is unnecessary, the wiper 90 is returned to the retracted position in advance to avoid unnecessary contact with the recording head 10 by the wiper 90. The durability of the recording head 10 can be improved.

(17) The release portion 97 c is configured to remove the wiper 90 from the locking portion 93 by pushing the wiper 90 in a direction substantially parallel to the moving direction of the carriage 3. That is, wiper 90
As a means for returning to the retracted state, the release portion 97c pushes the wiper 90 in the direction of removing the wiper 90 from the locking portion 93, similarly to the interference of the carriage 3 with the wiper 90. Therefore, it is not necessary to form a guide path for forcibly displacing the wiper 90 to the retracted position in the cam 55, and the structure of the cam 55 can be simplified.

(18) The cam 55 is rotationally driven by a gear mechanism engaged with a rotation driving mechanism for paper feeding. That is, since the drive source of the cam 55 is common with the drive source of the rotation driving mechanism for paper feeding, the structure can be simplified.

(19) Since the cam 55 which is a means for moving the wiper 90 serves as a means for displacing the opening / closing member 50 and a means for displacing the carriage lock 100, the structure can be simplified.

(20) Since the maintenance frame 111 is provided with the stopper 92 positioned on the opposite side of the locking portion 93 with the wiper 90 interposed therebetween, the carriage 3 is moved toward the origin position (maintenance position). Thus, when the wiper 90 interferes with the wiper 90 at the wiping position and is displaced in a direction to remove the wiper 90 from the locking portion 93, the wiper 90 is restricted from excessive displacement by contacting the stopper 92. Thereby, it is avoided that the wiper 90 interferes with other members unnecessarily.

(21) Since the wiper 90 is held at the wiping position locked to the locking portion 93 by the biasing means (spring 95), the wiper 90 can be reliably held at the wiping position.

(22) The biasing direction of the spring 95 with respect to the wiper 90 is an oblique direction with respect to the moving direction (downward direction) from the wiping position of the wiper 90 to the retracted position, so that the spring 95 engages the wiper 90. Since it also serves as an urging means that holds the stopper 93 in a locked state, the number of parts can be reduced.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.

(1) In the above embodiment, the opening / closing valve may be opened by the opening / closing member before the exhaust cap is attached to the carriage to form the airtight space.

(2) In the above embodiment, the on-off valve may be opened while the airtight space remains at atmospheric pressure.

(3) In the above embodiment, the exhaust cap may be made of a material other than silicon rubber, and a rubber seal may be provided at the sliding portion between the exhaust cap and the opening / closing member.

(4) In the above embodiment, the bubbles may be discharged while the recording head is opened to the atmosphere.

(5) In the above embodiment, bubbles may be discharged simultaneously to a plurality of recording heads having different exhaust resistances.

(6) In the above embodiment, the bubbles may be discharged separately to a plurality of recording heads having the same exhaust resistance.

(7) In the above embodiment, the switching member and the cam can be displaced independently,
You may make it synchronize both movement.

(8) In the above embodiment, the switching member and the cam may slide instead of rotating.

(9) In the above embodiment, the switching member may be made of a material other than rubber, and a rubber member as a separate part may be provided on the outer surface of the switching member or the inner surface of the cover.

(10) In the above embodiment, the arm portion of the cover may be fitted to a dedicated rotation regulating member without using the gear shaft as a means for regulating the rotation of the cover.

(11) In the above embodiment, the locking claws may be formed only on the cover side or on both the cover and the cam.

(12) In the above embodiment, the exhaust cap may be displaced by dedicated means other than the carriage.

(13) In the above embodiment, the nozzle cap may be displaced by dedicated means other than the carriage.

DESCRIPTION OF SYMBOLS 1 ... Main body frame 3 ... Carriage 5 ... Ink tank 10 ... Recording head 12 ... Bubble storage chamber 17 ... Discharge path 18 ... Discharge port 19 ... On-off valve 32 ... Sun gear (gear)
33 ... shaft 38 ... pump (intake means)
DESCRIPTION OF SYMBOLS 40 ... Exhaust cap 46 ... Airtight space 50 ... Opening / closing member 55 ... Cam 55a ... Bulkhead 60 ... Nozzle cap 73 ... Switching member 74 ... Switching flow path 76 ... Cover 78-82 ... Intake / exhaust port 83 ... Locking claw 85 ... Arm part 90 ... Wiper 100 ... Carriage lock

Claims (4)

A carriage mounted on a main body frame and mounted with a recording head for recording on a recording medium by ejecting ink from nozzles;
An ink tank for storing ink supplied to the recording head;
In an inkjet printer comprising an ink flow path for supplying ink from the ink tank to the recording head,
The carriage includes
A bubble storage chamber for storing bubbles generated in the ink flow path;
A discharge path communicating with the bubble storage chamber;
A normally closed on-off valve provided in the discharge path,
In the main body frame,
An opening and closing member for opening and closing the opening and closing valve;
An exhaust cap that can be in close contact with the carriage so as to close the discharge port of the discharge path, and forms an airtight space connected to the discharge port in a close contact state;
An intake means for sucking air in the airtight space is provided ;
The open / close member may be configured such that the open / close valve is in a state where the exhaust cap is in close contact with the carriage.
It is configured to be movable between a valve opening position for opening the valve and a valve closing position for closing the on-off valve,
When discharging the bubbles in the bubble storage chamber, the exhaust cap is in close contact with the carriage.
To form an airtight space, and the opening / closing member is positioned at the valve closing position.
The suction means sucks the air in the airtight space and the suction of the air is finished.
An ink jet printer characterized in that the opening / closing member is moved from the valve closing position to the valve opening position later . The on-off valve is configured so that the exhaust cap is in close contact with the carriage.
When positioned at the valve opening position, it is configured to be opened by being pressed by the opening and closing member,
The opening / closing member is positioned at the valve closing position while the exhaust cap is in close contact with the carriage.
When installed, the open / close member is configured not to contact the open / close valve.
The inkjet printer according to claim 1. The opening / closing member is configured to penetrate the exhaust cap, and the exhaust cap
It is comprised so that it can operate | move separately, The claim 1 or 2 characterized by the above-mentioned.
The inkjet printer described in 1. The opening / closing member is in the form of a rod passing through the exhaust cap,
  4. The ink jet of claim 3, wherein the exhaust cap is made of silicon rubber.
Jet printer.

Images