JP7375453B2 - Maintenance equipment and inkjet recording equipment - Google Patents

Description

The present invention relates to an inkjet head maintenance device used in an inkjet recording device and an inkjet recording device.

Conventionally, an inkjet recording apparatus forms an image on a recording medium by ejecting ink from a plurality of nozzles provided in an inkjet head. A maintenance device has also been proposed in which ink remaining on the nozzle surface is cleaned using a cleaning roller soaked in a cleaning liquid.

Furthermore, a maintenance device has been proposed in which, before cleaning the nozzle surface with the cleaning roller, ink remaining on the nozzle surface is removed with a cleaning blade to reduce stains on the cleaning roller (Patent Document 1).

Japanese Patent Application Publication No. 2012-153152

However, with the technique described in Patent Document 1, there was a risk that the ink removed by the cleaning blade would dry and solidify within the maintenance device.

Additionally, if the casing of the maintenance device is provided with an outlet for discharging the ink removed by the cleaning blade to the outside, solidified ink may block the outlet, causing the ink removed by the cleaning blade to drain out. There was also the problem that it could not be discharged to the outside.

SUMMARY OF THE INVENTION In view of the above-mentioned conventional problems, an object of the present invention is to provide a maintenance device and an inkjet recording device that can reduce the possibility that ink removed by a cleaning blade hardens inside the maintenance device.

In order to solve the above problems, for example, the configurations described in the claims are adopted. The maintenance device of the present application includes a blade member that scrapes ink from the surface of the ink discharge part, a roller member that cleans the surface of the ink discharge part from which ink has been scraped off by the blade member with a cleaning liquid, and a casing that holds the blade member and the roller member. and a cleaning liquid storage section formed in the casing to store the cleaning liquid, and an ink transfer section for moving the ink scraped off by the blade member to the cleaning liquid storage section, and the ink transfer section is configured to move the ink scraped by the blade member to the cleaning liquid storage section. The casing has an inclined surface formed on the bottom surface of the casing that receives the ink, which is inclined toward the cleaning liquid reservoir .

Note that the maintenance device described above is one aspect of the present invention, and the inkjet recording device of the present invention also has the same configuration as the maintenance device that reflects one aspect of the present invention.

According to the present invention, it is possible to reduce the possibility that the ink removed by the cleaning blade hardens inside the maintenance device.

1 is a schematic configuration diagram showing an inkjet recording apparatus according to an embodiment of the present invention. 1 is a plan view of a carriage of an inkjet recording apparatus according to an embodiment of the present invention, viewed from a recording medium side. FIG. 3 is a sectional view of the maintenance device viewed from one side in the width direction. FIG. 3 is a plan view of the maintenance device viewed from above in the direction in which ink is ejected. 5A is a diagram showing the positional relationship between the maintenance device and the carriage during the cleaning operation, viewed from one side in the width direction. 5B is a diagram showing the positional relationship between the maintenance device and the carriage in the retracted position at the end of the cleaning operation (standby state), viewed from one side in the width direction. FIG. 1 is a block diagram showing the internal configuration of an inkjet recording apparatus according to an embodiment of the present invention. 3 is a flowchart showing the operation of the inkjet recording apparatus during a cleaning operation. FIG. 7 is a sectional view of a maintenance device according to another embodiment of the present invention, viewed from one side in the width direction. 9A is a diagram showing the positional relationship between the maintenance device and the carriage during the cleaning operation, viewed from one side in the width direction. 9B is a diagram illustrating the positional relationship between the maintenance device and the carriage in the retracted position at the end of the cleaning operation (standby state), viewed from one side in the width direction. FIG. 7 is a sectional view of a maintenance device according to another embodiment of the present invention, viewed from one side in the width direction. 11A is a diagram showing the positional relationship between the maintenance device and the carriage during the cleaning operation, viewed from one side in the width direction. 11B is a diagram showing the positional relationship between the maintenance device and the carriage in the retracted position at the end of the cleaning operation (standby state), viewed from one side in the width direction.

EMBODIMENT OF THE INVENTION Below, the form for implementing the inkjet recording device of this invention is demonstrated with reference to drawings. Note that common members in each figure are given the same reference numerals. Further, the present invention is not limited to the following embodiments.

First, the configuration of an inkjet recording apparatus according to an embodiment of the present invention (hereinafter referred to as "this example") will be described with reference to FIG. 1.
FIG. 1 is a schematic configuration diagram showing an inkjet recording apparatus 1 of this example.

The apparatus shown in FIG. 1 is an inkjet recording apparatus that forms an image by ejecting ink droplets toward a recording medium R. Further, the inkjet recording apparatus 1 shown in FIG. 1 is a one-pass drawing type inkjet recording apparatus that forms an image using a plurality of inkjet heads when conveying the recording medium R. Furthermore, the inkjet recording apparatus 1 shown in FIG. 1 will be described using an example in which a cloth is applied as an example of the recording medium R.

In the following description, the direction in which the recording medium R is conveyed is referred to as the conveyance direction, and the direction perpendicular to the conveyance direction on the image forming surface of the recording medium R is referred to as the width direction. The direction perpendicular to the transport direction and the width direction, that is, the direction in which ink is ejected, is defined as the up-down direction.

As shown in FIG. 1, the inkjet recording apparatus 1 of this example includes a conveying section 2 that conveys a recording medium R, and a plurality of print units 31, 32, 33, 34, 35, and 36 (six in this example). , a feeding section 5, and a winding section 6.

The conveying section 2 includes a conveying belt 21 , a driving roller 22 , a driven roller 23 , and a pressing member 24 . The drive roller 22 and the driven roller 23 are arranged at a predetermined interval in the conveyance direction. Further, the driving roller 22 and the driven roller 23 are arranged with their axial directions parallel to the width direction. The drive roller 22 is connected to a drive section (not shown). Then, when a drive unit (not shown) is driven, the drive roller 22 is driven to rotate.

The conveyor belt 21 is wound around a drive roller 22 and a driven roller 23 . The conveyor belt 21 is formed in an endless shape with both longitudinal ends connected. A recording medium R is placed on the conveyor belt 21 . When the drive roller 22 is driven to rotate, the conveyor belt 21 circulates between the drive roller 22 and the driven roller 23 and conveys the recording medium R placed thereon.

Print units 31, 32, 33, 34, 35, and 36, which will be described later, are arranged on the upper surface of the conveyor belt 21 in the vertical direction. Further, on the upper surface of the conveyor belt 21, a pressing member 24 is arranged on the upstream side of the print units 31, 32, 33, 34, 35, and 36 in the conveyance direction.

The pressing member 24 is formed into a roller shape, and is rotatably supported by a support portion (not shown). The pressing member 24 is arranged with its axial direction parallel to the width direction. Further, the length of the pressing member 24 in the axial direction is set longer than the length of the conveyor belt 21 in the width direction. Therefore, the pressing member 24 extends from one end of the conveyor belt 21 in the width direction to the other end. Then, the pressing member 24 presses the recording medium R conveyed to the conveyance section 2 by the feed-out section 5, which will be described later, toward the upper surface of the conveyance belt 21.

A delivery section 5 is arranged on the upstream side of the transportation section 2 in the transportation direction. The feeding section 5 is formed into a roller shape, and is rotatably supported by a support section (not shown). Then, the feeding section 5 sends out the recording medium R toward the conveying section 2 by being rotationally driven.

Further, a winding section 6 is disposed downstream of the conveying section 2 in the conveying direction. R is separated from the conveyor belt 21 and collected.

The six print units 31, 32, 33, 34, 35, and 36 face the upper surface of the conveyor belt 21 at a predetermined distance t. The lengths of the six print units 31, 32, 33, 34, 35, and 36 in the width direction are set to be longer than the length of the recording medium R in the width direction. Furthermore, the six print units 31, 32, 33, 34, 35, and 36 accommodate carriages 41, 42, 43, 44, 45, and 46 each having an inkjet head 242 that ejects ink from nozzles.

In this example, the six carriages 41, 42, 43, 44, 45, and 46 can be moved in the vertical direction by a lifting device (not shown). Therefore, the distance t with respect to the upper surface of the conveyor belt 21 can be changed, and when the inkjet head is cleaned by the maintenance device 50 described later, the carriage is moved upward and the distance t is changed by the maintenance device 50. Change the interval to t1 that allows insertion.

In this example, the maintenance device 50 is inserted by moving the carriage in the vertical direction. For example, by moving the conveyor belt 21 downward, the distance between the upper surface of the conveyor belt 21 and the carriage can be reduced. The maintenance device 50 may be inserted by increasing t.

The carriages 41, 42, 43, 44, 45, and 46 are arranged in the order of orange, yellow, magenta, black, cyan, and blue from the upstream side in the transport direction. Then, ink is ejected toward the recording medium R in order from the first carriage 41.

Further, in the inkjet recording apparatus 1 of this example, an example has been described in which the above-mentioned monochromatic ink is used as the ink to be ejected, but the present invention is not limited to this. For example, a transparent penetrating ink that allows the ink to easily penetrate into the recording medium R may be used. In this case, the penetrating ink is disposed at the most upstream position in the transport direction and is ejected toward the recording medium R before other inks.

Next, the configuration of the carriages 41, 42, 43, 44, 45, and 46 will be explained with reference to FIG. The carriages 41, 42, 43, 44, 45, and 46 have the same structure except for the ink they eject. Therefore, the configuration of the first carriage 41 will be described here. FIG. 2 is a plan view showing the first carriage 41 viewed from the recording medium side.

As shown in FIG. 2, the carriage 41 has a plurality of (16 in this example) inkjet heads 242. A set of two inkjet heads 242 constitutes one inkjet module 243.Therefore, the carriage 41 of this example is provided with eight inkjet modules 243.

The eight inkjet modules 243 are arranged in two rows along the transport direction. Four inkjet modules 243 in one row are arranged side by side along the width direction. Moreover, the eight inkjet modules 243 are arranged in two rows of inkjet modules 243 in a staggered manner along the conveyance direction.

Note that the number and arrangement method of the inkjet modules 243 are not limited to those described above, and six or ten or more inkjet modules 243 may be arranged, and the inkjet modules 243 may be arranged at an angle with respect to the transport direction. It may also be placed.

Further, the inkjet head 242 has a plurality of nozzles 244. The inkjet head 242 then discharges ink toward the recording medium R from the nozzles 244. As a result, an image is formed on the recording medium R placed on the conveyor belt 21.

3 and 4 are overall schematic diagrams of the maintenance device 50 of this example. FIG. 3 is a sectional view of the maintenance device 50 when viewed from one side in the width direction, and FIG. 4 is a plan view of the maintenance device 50 when viewed from above in the direction in which ink is ejected.

The maintenance device 50 is a device for cleaning the ink ejection surface 41a of the inkjet head 242. In this example, since a maintenance device 50 having the same configuration is provided for each carriage, the maintenance device 50 provided in the carriage 41 will be described here.

As shown in FIG. 3, the maintenance device 50 includes a blade member 52 as a cleaning blade that scrapes and removes ink remaining on the ink ejection surface 41a of the inkjet head 242, and ink that has been scraped off by the blade member 52. It includes a roller member 222 as a cleaning roller that cleans the discharge portion 41a with a cleaning liquid, and a casing 226 that holds the blade member 52 and the roller member 222. Furthermore, the maintenance device 50 is configured to be movable in the width direction by a moving device (not shown).

The blade member 52 is a blade-shaped member for scraping ink from the ink ejection surface 41a, and is conveyed across a plurality of inkjet heads 242 (four rows in this example) arranged on the carriage 41 as shown in FIG. It is held in the casing 226 in a state extending in the direction. Further, the blade member 52 is erected on the bottom surface of the casing 226 on the upstream side in the moving direction of the casing 226 and supported by the blade support member 55 . Note that the blade support member 55 is formed of a plate-like member having a gap through which ink scraped by the blade member 52 passes.

When the casing 226 moves in the width direction, the blade member 52 of this example contacts the ink remaining on the ink ejection surface 41a without contacting the ink ejection surface 41a. Even in a non-contact state, the ink can be scraped off and removed from the ink ejection surface 41a by utilizing the ink wettability to transmit the ink to the blade. By keeping the blade member 52 out of contact with the ink ejection surface 41a, deterioration of the ink ejection surface 41a can be prevented and the life of the inkjet head 242 can be extended. Note that the blade member 52 in this example is composed of a rectangular metal plate. The metal material used for the blade member 52 preferably has a property that is not corroded by ink, such as stainless steel.

Generally, the smaller the distance between the upper end of the blade member 52 and the ink ejection surface 41a, the smaller the amount of ink remaining on the ink ejection surface 41a. Therefore, when scraping ink with the blade member 52, the distance between the blade member 52 and the ink ejection surface 41a is preferably greater than 0 and 0.5 mm or less. In this example, the distance between the upper end of the blade member 52 and the ink ejection surface 41a is set to 0.3 mm to 0.4 mm.

In this example, the distance between the blade member 52 and the ink ejection surface 41a is set to be greater than 0 so that there is no contact, but the upper end of the blade member 52 is placed at the same height as the ink ejection surface 41a. The blade member 52 may be brought into contact with the ink ejection surface 41a. In this case, the material of the blade member 52 is an elastically deformable material such as EPDM or fluororubber. By bringing the blade member 52 into contact with the ink ejection surface 41a, the removal efficiency of ink remaining on the ink ejection surface 41a can be increased and the amount of ink adhering to the roller member 222 can be reduced.

The roller member 222 comes into contact with the ink ejection surface 41a to absorb and clean ink adhering to the ink ejection surface 41a, and is composed of a cylindrical sponge roller made of ink-absorbing urethane or the like. has been done. The roller member 222 cleans the ink ejection surface 41a with a water-soluble organic solvent, and is disposed on the downstream side of the blade member 52 in the moving direction of the casing 226.

The roller member 222 is held by the casing 226 so as to extend in the conveyance direction across the plurality of inkjet heads 242 arranged on the carriage 41, as shown in FIG. Moreover, the roller member 222 has a rotating shaft 222a and a porous member 222b. The rotating shaft 222a is a member extending in the transport direction and is fixed to the casing 226. The porous member 222b is a cylindrical porous member, such as a sponge, arranged around the rotating shaft 222a.

The porous member 222b is arranged such that the highest position of the porous member 222b contacts the ink ejection surface 41a. That is, in this example, the porous member 222b is held in the casing 226 such that the highest position is higher than the height of the upper end of the blade member 52. Further, the porous member 222b is rotatably provided with respect to the rotating shaft 222a, and rotates when the maintenance device 50 moves and the porous member 222b contacts the ink ejection surface 41a. Note that the roller member 222 may be automatically rotated by a motor or the like.

The casing 226 is a member that holds the blade member 52 and the roller member 222. A cleaning liquid reservoir 230 is formed at the bottom of the casing 226 to store a cleaning liquid L such as a water-soluble organic solvent used for cleaning the ink ejection surface 41a. Note that the roller member 222 is held in the casing 226 in such a manner that the lowest position of the porous member 222b is immersed in the cleaning liquid L stored in the cleaning liquid storage section 230.

A discharge port 227 is formed in the bottom surface of the casing 226 for discharging the used cleaning liquid stored in the cleaning liquid storage section 230 to the outside of the casing 226. The discharge port 227 is provided with a cap 228 as a lid member for closing the opening of the discharge port 227. Furthermore, an opening/closing mechanism 240 is provided near the discharge port 227 to enable the cap 228 to be opened and closed with respect to the discharge port 227 . The opening/closing mechanism 240 includes a solenoid (not shown) and an arm connecting the solenoid and the cap 228, and opens and closes the cap 228 with respect to the discharge port 227 by moving the arm by rotation of the solenoid.

An ink receiving portion 210 for receiving ink scraped off from the ink ejection surface 41a by the blade member 52 is formed on the bottom surface of the casing 226 on the upstream side in the moving direction. The ink receiving part 210 has an ink moving part in which the bottom surface of the casing 226 is tilted toward the cleaning liquid storage part 230 so that the ink scraped from the ink discharge surface 41a by the blade member 52 can be moved to the cleaning liquid storage part 230. An inclined surface 211 is formed. That is, in this example, the height of the ink receiving part 210 on the upstream side in the moving direction is made higher than the height on the downstream side in the moving direction, so that the inclined surface 211 inclined toward the cleaning liquid storage part 230 side is formed. As a result, the remaining ink on the ink ejection surface 41 a scraped off by the blade member 52 can move along the slope 211 to the cleaning liquid storage section 230 and mix with the cleaning liquid L in the cleaning liquid storage section 230 .

FIG. 5 is a diagram showing the positional relationship between the maintenance device and the carriage of this example. FIG. 5A is a diagram showing the positional relationship between the maintenance device 50 and the carriage 41 during the cleaning operation when viewed from one side in the width direction, and FIG. 5B is a diagram showing the maintenance device in the retracted position at the end of the cleaning operation (standby state). 50 is a diagram showing the positional relationship between the carriage 50 and the carriage 41 when viewed from one side in the width direction.

The maintenance device 50 is movable in the longitudinal direction (width direction) of the inkjet head 242 by a moving mechanism (not shown). As shown in FIG. 5B, during an image forming operation or a standby state, the maintenance device 50 moves the carriage 4 It is designed to wait at a retracted position on the outside of the longitudinal end.

Further, in the retracted position of the maintenance device 50, a cleaning liquid supply pump 220 for supplying cleaning liquid to the cleaning liquid storage section 230 is disposed above the casing 226. In this example, a part of the cleaning liquid pipe 221 extending from the cleaning liquid supply pump 220 is arranged directly above the blade member 52. Thereby, when the cleaning liquid supply pump 220 supplies the cleaning liquid, ink adhering to the blade member 52 can be washed away.

As the cleaning liquid supplied by the cleaning liquid supply pump 220, it is preferable to use a liquid whose properties are similar to that of the ink, and it is particularly preferable to use a liquid whose reagent is the same as that of the ink in order to improve the similarity of the properties of the ink. Here, a liquid with similar properties to ink refers to a liquid that does not cause aggregation even when mixed with ink, and does not significantly change the properties of the ink such as viscosity and surface tension. As such a liquid, for example, an ink liquid excluding dyes or pigments is suitable. Further, it is preferable to add a preservative or the like from the viewpoint of long-term storage of the cleaning liquid. Note that ordinary water may be used as the cleaning liquid.

Further, in the retracted position of the maintenance device 50, a waste cleaning liquid reservoir 235 is provided at the lower part of the casing 226 to store the waste cleaning liquid L1 discharged from the cleaning liquid storage section 230 as waste liquid mixed with ink scraped by the blade member 52. It is being Note that a tube (not shown) connected to a waste cleaning liquid reservoir 235 is connected to the discharge port 227.

As shown in FIG. 5A, during the cleaning operation, a space t1 into which the maintenance device 50 can be inserted is formed between the carriage 41 that has been moved upward by a lifting device (not shown) and the conveyor belt 21.

As the maintenance device 50 moves in the space t1 along the width direction as shown by the arrow in the figure, the remaining ink L2 on the ink ejection surface 41a is scraped off and removed by the blade member 52 on the upstream side in the moving direction, The inkjet head cleaning operation by the maintenance device 50 is performed by cleaning the ink ejection surface 41a after the ink has been scraped off by the roller member 222 on the downstream side in the moving direction. At this time, the ink L2 scraped off by the blade member 52 moves along the inclined surface 211 of the casing 226 and mixes with the cleaning liquid L in the cleaning liquid storage section 230.

Note that when the cleaning operation is completed, the carriage 41 is moved downward by the lifting device and returns to the standby state as shown in FIG. 5B. Thereafter, the cap 228 is opened by the opening/closing mechanism 240, and the waste cleaning liquid L1 in the cleaning liquid storage section 230 is discharged into the waste cleaning liquid reservoir 235.

As described above, according to the maintenance device 50 of the inkjet recording device 1 of this example, the ink scraped off from the ink ejection surface 41a by the blade member 52 is removed from the inclined surface 211 formed on the casing 226 of the maintenance device 50. It can be moved along the cleaning liquid storage section 230 to the cleaning liquid storage section 230 and mixed with the cleaning liquid L in the cleaning liquid storage section 230. This can prevent the ink scraped off by the blade member 52 from drying within the casing 226 and solidifying within the maintenance device 50.

Furthermore, by opening the cap 228, the ink L2 scraped off by the blade member 52 can be discharged into the waste cleaning liquid reservoir 235 as the waste cleaning liquid L1. Therefore, the ink scraped off by the blade member 52 passes through the discharge port 227 without drying, so that the discharge port 227 can be prevented from being blocked by ink.

Next, the internal configuration of the inkjet recording apparatus 1 will be explained using FIG. 6.

FIG. 6 is a block diagram showing the internal configuration of the inkjet recording apparatus 1 related to the cleaning operation of the inkjet head.
As shown in this figure, the inkjet recording apparatus 1 includes a control section 180.

The control unit 180 includes a known CPU, RAM, and ROM, and is configured to centrally control each unit of the inkjet recording apparatus 1.

The control unit 180 is connected to a head control unit 181, a pressure control unit 182, a cleaning liquid supply control unit 183, a movement control unit 184, a lid member control unit 185, a blade tilting control unit 187, and the like.

The head control unit 181 is connected to each inkjet head and controls ink ejection by the inkjet head.

The pressure control unit 182 controls the pressure within each inkjet head.

The cleaning liquid supply control unit 183 controls the cleaning liquid supply pump 220 to control the amount of cleaning liquid supplied to the maintenance device 50.

The movement control unit 184 controls a moving device (not shown) to move the maintenance device 50 in the width direction, and controls a lifting device (not shown) to move the carriage in the vertical direction.

The lid member control unit 185 controls the opening/closing mechanism 240 to move the cap 228 and open/close the discharge port 227 .

The blade tilting control unit 187 controls the tilting mechanism 270 to rotate the blade support member 55, thereby tilting the blade member 52 with respect to the bottom surface of the casing 226.

Next, the operations of the inkjet recording apparatus 1 and the maintenance device 50 during cleaning of the inkjet head will be described using FIG. 7.
FIG. 7 is a flowchart showing the operation of the inkjet recording apparatus 1 during cleaning of the inkjet head.

First, as a premise, after the flushing operation of the inkjet head by the head control unit 181 is stopped, the back pressure control of the inkjet head by the pressure control unit 182 is stopped.

Next, with the inkjet head facing a purge receiver (not shown), the pressure controller 182 purges the ink in the inkjet head under pressure for a predetermined period of time (step S1). As a result, air bubbles within the inkjet head are purged together with the ink, and are accommodated in the purge receiver. At this time, a small amount of ink remains on the ink ejection surface 41a of the inkjet head.

Next, the movement control unit 184 moves the carriage upward to form a space t1 between the conveyor belt 21 and the inkjet head into which the maintenance device 50 enters (step S2). Note that before moving the carriage, if the amount of cleaning liquid in the cleaning liquid storage section 230 is insufficient, the cleaning liquid is replenished by the cleaning liquid supply pump 220. Further, the amount of cleaning liquid contained in the roller member 222 is adjusted by bringing into pressure contact with an aperture shaft (not shown) which is provided so as to be able to come into contact with and separate from the roller member 222 using a gear or the like.

Next, the movement control unit 184 moves the casing 226 of the maintenance device 50 in the retracted position in the width direction, and performs a cleaning operation using the blade member 52 and the roller member 222 (step S3). At this time, the ink scraped off from the ink ejection surface 41a by the blade member 52 travels along the inclined surface 211 and mixes with the cleaning liquid in the cleaning liquid storage section 230, thereby preventing the ink from drying and hardening inside the maintenance device 50. I can do it.

When the cleaning operation of the ink ejection surfaces 41a of all the inkjet heads is completed, the movement control unit 184 moves the casing 226 in the opposite direction to that during the cleaning operation, and returns the maintenance device 50 to the initial retracted position (step S4). .

Next, the lid member control unit 185 uses the opening/closing mechanism 240 to move the cap 228 blocking the discharge port 227 to open the discharge port 227 formed on the bottom surface of the casing 226 (step S5). As a result, the ink scraped off by the blade member 52 that was moved to and stored in the cleaning liquid storage section 230 is discharged to the outside of the maintenance device 50 together with the cleaning liquid. Thereby, the ink scraped by the blade member 52 can be discharged from the discharge port 227 without drying, so that the discharge port 227 can be prevented from being blocked by hardened ink. Note that the cleaning liquid may be discharged after rotating the roller member 222 and cleaning with the remaining cleaning liquid.

Next, the lid member control unit 185 moves the cap 228 using the opening/closing mechanism 240 to close the discharge port 227 again (step S6). Then, the cleaning liquid supply control unit 183 uses the cleaning liquid supply pump 220 to fill the cleaning liquid storage unit 230 with new cleaning liquid to prepare for the next cleaning operation (step S7).

FIG. 8 is a cross-sectional view of a maintenance device 150 according to another embodiment, viewed from one side in the width direction.
As shown in FIG. 8, the maintenance device 150 of this example includes an ink receiving member 60 that temporarily stores ink scraped by the blade member 52 on the upstream side of the casing 226 in the moving direction.

The ink receiving member 60 is formed with an ink storage portion 260 that temporarily stores ink scraped off by the blade member 52. The ink receiving member 60 is rotatably held by the casing 226, and its posture changes between a horizontal state and a state tilted toward the cleaning liquid reservoir 230 side. As a rotation mechanism of the ink receiving member 60, a spring member 262 is provided on the bottom surface of the ink receiving member 60 to urge the ink receiving member 60 to tilt toward the cleaning liquid reservoir 230 when the maintenance device 150 is in the retracted position. is provided. By tilting the ink receiving member 60 toward the cleaning liquid storage section 230 side, an inclined surface 261 as an ink moving section is formed, and the ink scraped by the blade member 52 moves along the inclined surface 261 to the cleaning liquid storage section 230. .

Further, the blade member 52 is held by separate blade holding members 263 provided at both ends of the blade member 52. Further, the blade holding member 263 is constituted by a rectangular member having a curved portion at the upper end. Note that the number of blade holding members 263 is not limited to two, and in addition to holding both ends of the blade member 52, the blade holding members 263 may hold the central portion of the blade member 52.

The blade holding member 263 is erected on the bottom surface of the ink receiving member 60 so that its upper end comes into contact with a portion of the bottom surface of the carriage other than the nozzle ejection surface 41a during the cleaning operation. In this manner, by abutting the blade holding member 263 against a portion other than the nozzle discharge surface 41a, deterioration of the nozzle discharge surface 41a due to contact with the blade member 52 can be prevented.

Further, since the blade holding member 263 of this example holds and fixes the blade member 52 with a shim in between, the holding position (height) of the blade member 52 can be adjusted by the amount of the shim. In this example, the holding position of the blade member 52 is adjusted to set the distance between the upper end of the blade member 52 and the ink ejection surface 41a to 0.3 mm to 0.4 mm.

Further, the blade holding member 263 may be constructed from a rotating roller member. Thereby, the frictional resistance between the blade holding member 263 and the carriage can be reduced, and the casing 226 can be moved smoothly.

FIG. 9 is a diagram showing the positional relationship between the maintenance device and the carriage of this example. FIG. 9A is a diagram showing the positional relationship between the maintenance device 150 and the carriage 41 during the cleaning operation when viewed from one side in the width direction, and FIG. 9B is a diagram showing the maintenance device 150 in the retracted position at the end of the cleaning operation (standby state). FIG.

As shown in FIG. 9A, as the maintenance device 150 moves through the space t1 in the width direction of the arrow in the figure, the remaining ink L2 is scraped off on the ink ejection surface 41a with the blade member 52 on the upstream side in the moving direction. The maintenance device 150 performs an inkjet head cleaning operation by cleaning the ink ejection surface 41a after the ink has been scraped off by the roller member 222 on the downstream side in the moving direction. In this example, the ink L2 scraped off by the blade member 52 is temporarily stored in the ink storage portion 260 of the ink receiving member 60, which is maintained in a horizontal state by compressing the spring member 262 by the pressing force from the carriage 41. be done.

In this example, by providing the ink storage section 260 that temporarily stores the ink scraped by the blade member 52, during the cleaning operation, the ink scraped by the blade member 52 is removed from the cleaning liquid L in the cleaning liquid storage section 230. The surface of the roller member 222 can be completely separated from the roller member 222 so that the surface of the roller member 222 is not contaminated.

Note that a taper 264 may be provided at the downstream end of the carriage 41 to facilitate insertion of the blade holding member 263. Further, in this example, the position of the ink receiving member 60 is changed as the maintenance device 150 moves, but a motor or the like for rotating the ink receiving member 60 is separately provided, and the control unit 180 controls the ink receiving member 60 to change its position. The attitude of the member 60 may be changed.

When the cleaning operation is completed, the maintenance device 150 returns to the retracted position where the image forming operation can be performed. At this time, when the pressing force from the carriage 41 is removed, the posture of the ink receiving member 60 is inclined toward the cleaning liquid storage section 230 due to the urging force of the spring member 262, as shown in FIG. 9B. As a result, the ink temporarily stored in the ink storage section 261 moves to the cleaning liquid storage section 230. Thereafter, the cap 228 is opened by the opening/closing mechanism 240, and the waste cleaning liquid L2 in the cleaning liquid storage section 230 is discharged into the waste cleaning liquid reservoir 235.

According to the maintenance device 150 of this example, the ink scraped off from the ink ejection surface 41a by the blade member 52 moves to the cleaning liquid storage section 230 along the inclined surface 261 formed by tilting the ink receiving member 60. Then, it mixes with the cleaning liquid L in the cleaning liquid storage section 230. This can prevent the ink scraped off by the blade member 52 from drying and hardening within the maintenance device 150.

Furthermore, by opening the cap 228, the ink scraped off by the blade member 52 can be discharged together with the cleaning liquid into the waste cleaning liquid reservoir 235. Thereby, the ink scraped by the blade member 52 can be discharged from the discharge port 227 without drying, so that the discharge port 227 can be prevented from being blocked by hardened ink.

In this example, a part of the cleaning liquid pipe 221 extending from the cleaning liquid supply pump 220 is arranged directly above the blade member 52. Thereby, when the cleaning liquid supply pump 220 supplies the cleaning liquid, ink adhering to the blade member 52 can be washed away.

FIG. 10 is a sectional view of a maintenance device 250 according to another embodiment, viewed from one side in the width direction.
As shown in FIG. 10, the maintenance device 250 of this example is provided with an ink storage section 70 that temporarily stores ink scraped by the blade member 52 on the upstream side of the casing 226 in the moving direction.

The ink storage section 70 is formed between the blade support member 71 and the bottom surface of the casing 226 by standing the blade support member 71 that supports the blade member 52 against the bottom surface of the casing 226 . The blade support member 71 is formed of a plate-like member with no gaps, and is held so as to be tiltable relative to the bottom surface of the casing 226 by connecting its lower end to a rotating shaft (not shown) provided on the bottom surface of the casing 226. ing.

A tilting mechanism 270 is provided near the blade support member 71 to allow the blade support member 71 to tilt relative to the bottom surface of the casing 226 . The tilting mechanism 270 includes a solenoid (not shown) and an arm that connects the solenoid and the blade support member 71, and tilts the blade support member 71 with respect to the bottom surface of the casing 226 by moving the arm by rotation of the solenoid. .

FIG. 11 is a diagram showing the positional relationship between the maintenance device and the carriage of this example. FIG. 11A is a diagram showing the positional relationship between the maintenance device 250 and the carriage 41 during the cleaning operation when viewed from one side in the width direction, and FIG. 11B is a diagram showing the maintenance at the retracted position during the image forming operation (at the end of the cleaning operation). FIG. 3 is a view of the device 250 viewed from one side in the width direction. FIG. 11C is a view of the maintenance device 250 in the retracted position when discharging waste cleaning liquid, viewed from one side in the width direction.

As shown in FIG. 11A, as the maintenance device 250 moves along the width direction of the arrow in the figure, the blade member 52 on the upstream side of the movement direction scrapes and removes the remaining ink on the ink ejection surface 41a, and then moves. The cleaning operation of the inkjet head 242 by the maintenance device 250 is performed by cleaning the ink ejection surface 41a after the ink has been scraped off by the roller member 222 on the downstream side in the direction. The ink scraped off by the blade member 52 is temporarily stored in an ink storage portion 70 formed by being dammed by a blade support member 71 kept perpendicular to the bottom surface of the casing 226. An inclined surface 211 serving as an ink moving section is formed on the bottom surface of the ink storage section 70 by tilting the bottom surface of the casing 226 toward the cleaning liquid storage section 230 side.

In this example, by providing the ink storage section 70 that temporarily stores the ink scraped by the blade member 52, during the cleaning operation, the ink scraped by the blade member 52 is removed from the cleaning liquid L of the cleaning liquid storage section 230. The surface of the roller member 222 can be completely separated from the roller member 222 so that the surface of the roller member 222 is not contaminated.

When the cleaning operation is completed, the maintenance device 250 returns to the standby retracted position. At this time, by tilting the blade support member 71 toward the cleaning liquid storage section 230 by the tilting mechanism 270, the ink L2 temporarily stored in the ink storage section 70 is moved along the inclined surface 211 of the casing 226 into the cleaning liquid storage section. 230, where it mixes with the cleaning liquid. In this example, since the blade member 52 supported by the blade support member 71 is also immersed in the cleaning liquid at the same time, the ink adhering to the blade member 52 can be washed away.

Thereafter, as shown in FIG. 11C, the cap 228 is opened by the opening/closing mechanism 240, and the cleaning liquid L1 in the cleaning liquid reservoir 230 is discharged into the waste cleaning liquid reservoir 235. Then, after the blade support member 71 is moved to a position perpendicular to the bottom surface of the casing 226 by the tilting mechanism 270, the cleaning liquid supply pump 220 fills the cleaning liquid storage section 230 with new cleaning liquid, and the next step is performed. Prepare for cleaning operation.

According to the maintenance device 250 of this example, the ink scraped off from the ink ejection surface 41a by the blade member 52 moves to the cleaning liquid storage section 230 along the slope 211 formed on the bottom surface of the casing 226, and the cleaning liquid It mixes with the cleaning liquid in the reservoir 230. This can reduce the possibility that the ink scraped off by the blade member 52 dries and hardens within the maintenance device 250.

Furthermore, by opening the cap 228, the ink scraped off by the blade member 52 can be discharged together with the cleaning liquid into the waste cleaning liquid reservoir 235. As a result, the ink scraped by the blade member 52 can be discharged from the discharge port 227 without drying, thereby preventing the discharge port 227 from being blocked by hardened ink.

Although the maintenance device 50 and inkjet recording device 1 according to the present example have been described above, the present invention is not limited to the above-described embodiments, and can be modified in various ways without departing from the gist of the invention described in the claims. It is possible to implement a modification of

That is, the embodiments described above are described in detail to explain the present invention in an easy-to-understand manner, and are not necessarily limited to those having all the configurations described. For example, it is possible to replace a part of the configuration of this embodiment with another configuration, and it is also possible to add other configurations to the configuration of this embodiment. Furthermore, it is possible to add, delete, or replace some of the configurations of this embodiment with other configurations.

In this example, the cleaning liquid tube 221 is placed directly above the blade member 52, but if the blade member 52 is placed on the cleaning liquid supply path, when the cleaning liquid supply pump 220 supplies cleaning liquid, the blade member 52 The ink attached to the surface can be washed away.

For example, in this example, the waste cleaning liquid in the cleaning liquid storage section 230 is discharged to the outside of the maintenance device 50 through the discharge port 227, but for example, by configuring the casing 226 itself to be tilted, the waste cleaning liquid does not pass through the discharge port 227. The waste cleaning liquid L1 may also be discharged.

1... Inkjet recording device 2... Conveying section 5... Sending section 6... Winding section 21... Conveying belt 22... Drive roller 23... Followed roller 24... Pressing member 31 to 36... Print units 41 to 46... Carriage 41a... Head ejection surface 50, 150, 250... Maintenance device 52... Blade member 55... Blade support member 60... Ink receiver Member 70... Ink storage section 71... Blade support member 180... Control section 181... Head control section 182... Pressure control section 183... Cleaning liquid supply control section 184... Movement control section 185... Lid member control section 187... Blade tilting control section 210... Ink receiving section 211, 261... Inclined surface (ink moving section)
220... Cleaning liquid supply pump 221... Cleaning liquid pipe 222... Roller member 222a... Rotating shaft 222b... Porous member 226... Casing 227... Outlet port 228... Cap 230... ...Cleaning liquid reservoir 235...Waste cleaning liquid reservoir 240...Opening/closing mechanism 242...Inkjet head 243...Inkjet module 244...Nozzle 260...Ink reservoir 262...Spring member 263... ...Blade holding member 270...Tilt mechanism

Claims (15)

A maintenance device for an inkjet head that discharges ink from an ink discharge section,
a blade member for scraping off ink on the surface of the ink discharge part;
a roller member that cleans the surface of the ink discharge part from which ink has been scraped off with the blade member with a cleaning liquid;
a casing that holds the blade member and the roller member;
a cleaning liquid reservoir formed in the casing and storing the cleaning liquid;
an ink moving unit that moves the ink scraped by the blade member to the cleaning liquid storage unit,
The ink moving section is an inclined surface that is formed on the bottom surface of the casing and that slopes toward the cleaning liquid storage section, and that receives the ink scraped off by the blade member.
maintenance equipment. an outlet provided on the bottom surface of the casing for discharging the cleaning liquid stored in the cleaning liquid storage section to the outside of the casing;
a lid member that closes the discharge port;
The maintenance device according to claim 1, further comprising: an opening/closing mechanism that moves the lid member to open and close the discharge port. The maintenance device according to claim 1, further comprising an ink storage section that temporarily stores ink scraped off by the blade member. The maintenance device according to claim 3, further comprising: a rotation mechanism that rotates the ink storage section so that the ink storage section is tilted toward the cleaning liquid storage section. The maintenance device according to claim 1, wherein a blade support member that supports the blade member is provided upright on the bottom surface of the casing, and the blade support member temporarily stores ink scraped by the blade member. a tilting mechanism that tilts the blade member toward the cleaning liquid storage section;
The maintenance device according to claim 5. a blade holding member that holds both ends of the blade member,
The maintenance device according to claim 1, wherein an upper end of the blade holding member is brought into contact with a bottom surface of a carriage provided with the ink ejection section. The maintenance device according to claim 7, wherein a holding position of the blade member in the blade holding member is adjustable. The maintenance device according to claim 7, wherein the blade holding member is comprised of a rotatable roller member. a cleaning liquid supply unit that supplies cleaning liquid to the cleaning liquid storage unit through a pipe,
The maintenance device according to claim 1, wherein the blade member is arranged on a path of the cleaning liquid supplied from the cleaning liquid supply section. The maintenance device according to claim 10, wherein the cleaning liquid supplied by the cleaning liquid supply section is water. The maintenance device according to any one of claims 1 to 11, wherein the blade member is in contact with the surface of the ink ejection section. The maintenance device according to any one of claims 1 to 11, wherein the blade member is not in contact with the surface of the ink ejection section. The maintenance device according to any one of claims 1 to 13, wherein the roller member is made of a porous urethane material. An inkjet recording device that forms an image by ejecting ink from an ink ejection unit,
a blade member that scrapes ink from the surface of the ink ejection unit; a roller member that uses a cleaning liquid to clean the surface of the ink ejection unit from which ink has been scraped by the blade member; and a casing that holds the blade member and the roller member; a cleaning liquid storage section formed in the casing that stores the cleaning liquid; and an ink transfer section that moves the ink scraped by the blade member to the cleaning liquid storage section, and the ink transfer section is configured to move the ink removed by the blade member. An inkjet recording apparatus comprising: a maintenance device that is an inclined surface inclined toward the cleaning liquid reservoir formed on the bottom surface of the casing that receives ink scraped off by the inkjet recording device.

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