JP4101050B2 - Inkjet recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ink jet recording apparatus that records an image on a recording material that is mounted on the surface of a transport member and transported using a recording unit that can eject ink. In particular, the present invention enables high-speed recording by ejecting ink from an inkjet recording head while continuously conveying the recording material using a long inkjet recording head having substantially the same width as the recording material. It is suitable as an ink jet recording apparatus.
[0002]
[Prior art]
2. Description of the Related Art Image recording apparatuses in printers, copiers, facsimiles, and the like are known that are configured to record an image composed of a dot pattern on a recording material such as paper or a plastic thin plate based on image information. Yes. Such a recording apparatus can be classified into an ink jet method, a wire dot method, a thermal method, a laser beam method, and the like according to the recording method. The ink jet system is configured to record an image by ejecting ink onto a recording material (recording medium).
[0003]
Further, in the recording apparatus, it is necessary to feed the recording material from a paper feeding position such as a cassette, and further transport it to the paper discharging position through the image recording position. In that case, the conveyance of the recording material is always controlled at a constant timing from when the sheet is fed until the image is recorded and discharged. In particular, the conveyance from the feeding of the recording material to the image recording has a great influence on the recording position of the image on the recording material, so that it is required to be accurate. Further, during recording of an image, it is necessary to keep the recording material conveyance speed constant. If the recording material is not constant, an image magnification shift or an image expansion / contraction occurs. In particular, in the case of a recording apparatus that uses a plurality of recording heads (image recording units) side by side to record a color image or the like, a deviation occurs between images recorded by the respective recording heads. In a recording apparatus for recording a color image, this shift appears as a color shift and causes an image defect.
[0004]
In order to prevent such a problem, it is necessary to accurately convey the conveyance force of the conveyance means controlled accurately to the recording material.
[0005]
Conventionally, various conveying means have been proposed as a recording material conveying system in consideration of such points.
[0006]
For example, there is a method in which a recording material is sent out by a roller pair and the sent recording material is regulated in a transport direction by a guide. In this method, since the recording material is sent out with the pressure between the rollers, the recording force is strong and the recording material can be conveyed with a simple configuration. However, it is necessary to arrange the roller pair on the upstream side in the conveyance direction of the recording material and the roller pair on the downstream side in the conveyance direction at an interval shorter than the minimum length of the recording material to be conveyed. It becomes difficult to reliably transport short recording materials such as postcards and business card size paper. In addition, for example, when a recording material on which an image is transferred by an electrophotographic drum is transported to a fixing position, the recording surface of the recording material needs to be kept in a non-contact state. The method cannot be used.
[0007]
As a transport apparatus for solving such a problem, a transport apparatus using an endless transport belt and bringing a recording material into close contact with the surface of the transport belt by electrostatic attraction has been proposed.
[0008]
Such a belt-type conveying device by electrostatic adsorption, particularly when used in a color image recording device using a plurality of recording heads (image recording means), sets the image recording position by each recording head. In order to determine accurately, it is necessary to keep the conveying speed of the conveying belt precise. Furthermore, it is necessary to bring the recording material into close contact with the conveyance member so that the recording material does not shift or float on the conveyance member such as a conveyance belt or a drum. In addition, when such a belt-type conveyance device by electrostatic attraction is applied to a recording device using an inkjet recording head capable of ejecting ink, when a conveyance failure of a recording material occurs, Ink may be ejected from an inkjet recording head onto a conveyance member such as a conveyance belt or a drum. In addition, in order to stabilize the ink ejection characteristics of the ink jet recording head and to prioritize the recording speed, ink that does not contribute to image recording may be ejected (preliminary ejection) onto the conveyance belt. The ink ejected on the conveying belt not only prevents the recording material from electrostatically adsorbing to the conveying belt, but also adheres to the back surface of the recording material and may significantly deteriorate the recording quality.
[0009]
Further, in order to transport the recording material by electrostatically attracting the surface of the transport member (transport belt, drum, etc.), the surface of the transport member is used as an insulator to inject charges into the recording material. In the case of the transport system, the conductive ink may adhere to the transport member, which may reduce the surface resistance of the transport member. In that case, the adsorbing force of the recording material decreases due to leakage of charges, etc., and the recording material floats from the surface (guide surface) of the conveying member and comes into contact with the recording head. There is a risk of causing a conveyance failure by hitting a guide member or the like.
[0010]
Patent Document 1 proposes an ink jet recording apparatus that solves such a problem in the electrostatic adsorption type conveyance system. Such a recording apparatus includes a blade member that can contact and separate from the surface (conveying surface) of a conveying member (conveying belt, drum, etc.) at a position downstream of the ink jet recording head in the conveying direction of the recording material. In addition, an ink absorbing member that can contact and separate from the surface (conveying surface) of the conveying member is provided at a position downstream of the recording material in the conveying direction. When an image is recorded on the image recording surface of the recording material by the ink jet recording head, the blade member is separated from the surface of the conveying member by the control of the control unit, while when the surface of the conveying member is cleaned. Then, the blade member and the ink absorbing member are brought into contact with the surface of the conveying member under the control of the control means. The former control of the control means is to reduce the conveyance load of the recording material at the time of image recording, maintain the conveyance speed with high accuracy, and prevent expansion and contraction of the recorded image and image shift. Further, the latter control of the control means is for maintaining high transport accuracy of the transport member while reliably cleaning the surface of the transport member that electrostatically attracts the recording material.
[0011]
Patent Document 2 proposes an ink jet recording apparatus that uses a liquid having an electric resistance value higher than the electric resistance value of the ink to clean the electrostatic attraction type conveying member by a cleaning member. Cleaning with such a liquid having a high electrical resistance value improves the cleaning ability of the surface of the conveying member (the guide surface of the recording material), improves the reliability of the recording apparatus and the quality of the recorded image, The object of the present invention is to prevent a recording material from being poorly conveyed by preventing a decrease in electrostatic attraction force due to a decrease in insulation on the surface of the conveying member.
[0012]
Further, Patent Document 3 describes a cleaning unit having another configuration for cleaning an electrostatic adsorption type conveying member. The cleaning means is absorbed by the ink absorber, which absorbs ink on the surface of the transport member, at a position facing the surface (guide surface of the recording material) of the transport member such as a transport belt. And ink suction means for sucking the ink. The ink absorbers are provided in the same number as the plurality of recording heads arranged in the conveyance direction of the recording material, are alternately arranged with the recording heads along the conveyance direction of the recording material, and are recorded more than the corresponding recording head. It is located on the downstream side in the transport direction and faces the surface of the transport member. Also provided is a cleaning liquid applying means that presses an impregnating material impregnated with a cleaning liquid for cleaning the conveying member against the surface of the conveying member and can apply the cleaning liquid to the surface of the conveying member, and a cleaning liquid supply means for supplying the cleaning liquid. A configuration is also proposed. Ink preliminarily ejected on the conveying member to keep the ink ejection state of the ink jet recording head good is wiped off from the conveying member before it is dried and fixed.
[0013]
[Patent Document 1]
Japanese Patent No. 2867167
[0014]
[Patent Document 2]
Japanese Patent No. 2873879
[0015]
[Patent Document 3]
JP 2000-127362 A
[0016]
[Problems to be solved by the invention]
However, the conventional ink jet recording apparatus has the following problems.
[0017]
Patent Document 1 discloses a blade member that can come in contact with and separate from the surface (conveying surface) of a conveyance member on the downstream side in the conveyance direction of the recording material with respect to the inkjet recording head, and a downstream side in the conveyance direction of the recording material with respect to the blade member. In Japanese Patent Application Laid-Open No. 2004-259542, only the ink adhering to the conveying member is removed by the ink absorbing member that can come into contact with and separate from the surface of the conveying member. For this reason, no consideration is given to a method for removing ink adhering to the blade member and the ink absorbing member, or a method for refreshing the ink absorbing member for preventing deterioration in cleaning performance when used for a long time. Also, depending on the dry blade member and ink absorber, it is impossible to completely remove the ink that has adhered to the transport member and dried, and the reliability when used for a long time is not sufficient. .
[0018]
Patent Document 2 describes that the conveying member is cleaned using a cleaning member such as felt, a porous member, cloth, paper, or the like impregnated with a liquid such as silicon oil having a higher electric resistance than ink. It ’s just that. For this reason, no consideration is given to a method for supplying the liquid to the cleaning member or a refreshing method for preventing deterioration of the performance of the cleaning member when ink or paper dust adheres due to long-term use. Therefore, the reliability when used for a long time is not sufficient.
[0019]
Furthermore, although Patent Document 3 describes a suction means for sucking ink absorbed by the ink absorber and a means for supplying cleaning liquid to the ink absorber, the excess of the cleaning liquid when supplying the cleaning liquid is described. There is a possibility that the cleaning liquid may drip on the conveying member due to a simple supply. In addition, if the cleaning liquid is supplied too much to the ink absorber even if the cleaning liquid does not sag, the cleaning liquid remains on the conveying member, and it adheres to the back surface of the recording material or has an adsorption force. There was a risk of lowering. Furthermore, in order to perform high-speed recording, it is desirable that the interval between the recording materials continuously conveyed is as small as possible. In that case, in order to avoid the recording material and to bring the ink absorber into contact with the conveying member, the ink absorbing member is moved up and down in a short time, and the recording material is brought into contact with and separated from the ink absorber and the conveying member. It is necessary to repeat each time it passes. Such a mechanism for performing high-speed repetitive operation has a large operation sound and it is difficult to realize a stable operation for a long time.
[0020]
In addition, as an optimal ink-resistant material, the polyurethane porous material (product name: Ruby Cell Toyo Polymer) used for the ink absorber is excellent in the ability to suck liquids such as ink and water, but is completely dry. Then, the inventors found that liquids such as water and ink are repelled on the surface, and the original liquid absorbing ability cannot be exhibited. As described above, in the state where the ink absorber is completely dried, even if the ink on the transport member is removed by bringing it into contact with the transport member, the ink on the transport member is hardly absorbed by the ink absorber. It will remain. Further, even if the cleaning liquid is supplied to the completely dried ink absorber, the liquid absorbing portion does not absorb immediately and becomes incompletely absorbing, and there is a portion where the ink on the conveying member cannot be sucked because it is partially dried. There is a risk of remaining. In order to prevent this, it is necessary to supply a large amount of cleaning liquid to the ink absorber, and much time is required for sufficient liquid absorption in the ink absorber.
[0021]
Further, the inventors sucked the cleaning liquid from the ink absorber supplied with the cleaning liquid when performing high-speed recording such that the recording speed per minute is 60 sheets of recording paper of A4, and the ink absorber Even if the amount of the cleaning liquid contained in the ink is reduced and the liquid absorbing power is increased, when the transport member comes into contact with the ink absorber at a high speed of about 300 mm / s, the cleaning liquid remaining slightly in the ink absorber is transferred to the transport member side. I found out that it would be pulled out. That is, even if the ink absorber has a liquid absorbing force in a normal state, when it comes into contact with the surface of the transport member that moves at a high speed, it remains slightly in the ink absorber because of the high speed movement of the transport member. Reversely, the cleaning liquid that is present adheres to the conveying member side. Such adhesion of the cleaning liquid to the conveying member side significantly stains the back surface of the recording material such as recording paper, or causes a decrease in the adsorption force of the recording material by the conveying member, and the recording material is lifted from the conveying member. Therefore, there is a possibility that the recording quality may be deteriorated due to contact with the ink jet recording head and rubbing, or a poor conveyance of the recording material.
[0022]
An object of the present invention is to reliably remove foreign matters such as ink from the surface of the conveying member on which the recording material is placed, and to prevent the recording material from being contaminated due to the foreign matter and the surface of the conveying member. An object of the present invention is to provide an ink jet recording apparatus capable of recording a high-quality image while preventing the recording material from being displaced and conveying the recording material at a high speed by the conveying member.
[0023]
[Means for Solving the Problems]
The ink jet recording apparatus of the present invention records an image on a recording material that is placed on the surface of a transport member moving in the transport direction and transported to a recording position using a recording unit capable of ejecting ink. In an inkjet recording apparatus,
A cleaning member that contacts the surface of the conveying member, a cleaning unit that cleans the surface of the conveying member using a cleaning liquid, and a drying prevention that prevents the cleaning member from drying when the cleaning unit does not clean the surface of the conveying member. Means The cleaning member is made of a porous body capable of absorbing the cleaning liquid, and the cleaning means reduces the amount of the cleaning liquid absorbed by the cleaning member and a supply means for supplying the cleaning liquid to the cleaning member. Suction means for sucking the cleaning liquid from the cleaning member, and at least a part of the cleaning liquid supply path in the supply means and the cleaning liquid suction path in the suction means are common. It is characterized by that.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a perspective view of the vicinity of a conveyance belt for conveying recording paper (recording material) in the ink jet recording apparatus of the present embodiment. FIG. 2 is a perspective view of a main part for explaining the cleaning state of the conveyor belt.
[0025]
The ink jet recording apparatus according to the present embodiment is mainly configured by a paper transport system that attracts and transports recording paper to the transport belt 1 by static electricity, a full-line multi-head system, and a belt cleaning system. In the paper conveying system, 2 is a driving roller for driving the conveying belt 1, 3 is a driven roller that is driven to rotate as the conveying belt 1 moves, and 4 is a conveying belt between the driving roller 2 and the driven roller 3. 1 is a tension roller for applying tension so as not to loosen, and the conveyor belt 1 is wound around these rollers 2, 3, 4. In the full line multi-head system, reference numerals 6 to 11 denote long inkjet recording heads (hereinafter also referred to as “full line heads”) held by a head frame (not shown). Recording is performed by ejecting ink onto recording paper conveyed in the direction of the arrow in FIG. The belt cleaning system includes a belt cleaning unit 5 that wipes and cleans ink adhering to the transport belt 1.
[0026]
The full line heads 6 to 11 are long ink jet recording heads that extend over the entire recording area in the width direction of the recording paper, and are in a direction that intersects the recording paper transport direction (usually in a direction orthogonal). A large number of nozzles capable of discharging ink from the discharge ports are provided. In order to eject ink droplets from the ink ejection port, a piezoelectric element or an electrothermal transducer can be used. When an electrothermal converter is used, the ink in the ink flow path communicating with the ink ejection port is boiled by the thermal energy generated by the electrothermal converter, and the ink droplets are ejected from the ink ejection port using the foaming energy at that time. Can be discharged.
[0027]
A head frame (not shown) that holds the full line heads 6 to 11 is moved in the vertical direction by a motor (not shown). When recording is not performed, the full line heads 6 to 11 move upward away from the conveyor belt 1 and are retracted, and a cap unit (not shown) is positioned between the full line heads 6 to 11 and the conveyor belt 1. The cap unit caps the full line heads 6 to 11 so that the nozzles of the full line heads 6 to 11 are not dried. The head 11 is a head for discharging black 1 (Bk1) ink, the head 10 is a head for discharging black 2 (Bk2) ink, and the head 9 is AMM (ink for promoting ink fixing and improving recording quality: recording quality). The improvement liquid) discharge head, the head 8 is a magenta (M) ink discharge head, the head 7 is a cyan (C) ink discharge head, and the head 6 is a yellow (Y) ink discharge head. These heads are arranged in the order of 11, 10, 9, 8, 7, 6 from the upstream side to the downstream side in the transport direction along the paper transport direction of the transport belt 1 (the arrow direction in FIG. 1). .
[0028]
As shown in FIGS. 1 and 2, the belt cleaning unit 5 is positioned along the rotational axis of the drive roller 2. In the unit 5, reference numeral 22 denotes a cleaning liquid absorber constituted of a polyurethane porous body. In this embodiment, the product name Ruby Cell (manufactured by Toyo Polymer) is used to provide liquid absorption and resistance to ink. . The absorber 22 is not limited to this material as long as it has liquid absorbency and resistance to ink.
[0029]
As shown also in FIG. 5, the absorber 22 is sandwiched between the absorber holder 20 and the absorber presser 21 and fixed by screws 25. Shafts 23a and 23b are provided at both ends of the absorber holder 20, and between the position where the absorber 22 contacts the conveyor belt 1 (see FIG. 2) and the position where it does not contact (see FIG. 3). It is supported so that it can rotate.
[0030]
As shown in FIG. 2, when the absorber 22 is in contact with the conveyance belt 1, the conveyance belt 1 is sandwiched between the conveyance roller 2. The contact width of the absorber 22 with respect to the transport belt 1 is slightly narrower than the width of the transport belt 1 and wider than the width of the full line heads 6 to 11 that can eject ink (the length of the nozzle row). Further, the absorber 22 at this contact position is slightly crushed between the conveying roller 2 and the conveying belt 1 side and the end face side of the absorber presser 21. Further, a hole 24 is formed from the one shaft 23 a side so as to extend over almost the entire width of the absorber holder 20, and supply and suction of the cleaning liquid to the absorber 22 are performed through the hole 24.
[0031]
A cap 31 is disposed below the absorber 22 as shown in FIG. The cap 31 is supported by a mechanism (not shown) so as to be movable up and down between the position shown in FIG. 3 and the position shown in FIG. The cap 31 is made of ink-resistant rubber (chlorinated butyl rubber) and is configured to completely cover the absorber 22 as shown in FIG. That is, the length of the cap 31 is slightly longer than the length of the absorber 22 in the nozzle row direction of the full line heads 6 to 11, and the width of the cap 31 is larger than the width of the absorber 22 in the conveyance direction of the recording paper. The depth of the cap 31 is slightly larger than the length of the portion where the absorber 22 protrudes from the absorber holder 20. Such a cap 31 having a concave cross section is covered with a cap frame 30 adhered to the periphery thereof in order to maintain its rigidity. Furthermore, a hole 32 is provided at one end of the cap 31, and the hole 32 can supply and suck the cleaning liquid to the absorber 22.
[0032]
A blade portion (see FIGS. 2 and 6) for wiping off the liquid on the conveyance belt 1 is provided at a position downstream of the absorber 22 in the conveyance direction of the recording paper.
[0033]
In the blade portion 41 is a rubber blade 41 made of urethane rubber. The rubber blade 41 of this example is a plate having a thickness of about 1.5 mm, the width in the width direction of the transport belt 1 is slightly narrower than the width of the transport belt 1, and the absorber in the width direction of the transport belt 1 It is slightly wider than the width of 22. As shown in FIG. 6, the rubber blade 41 is disposed so as to be bonded to the holding plate 43 and sandwiched between the blade base 40 and the holding plate 43, and after the height is adjusted by the screw 42, the screw 44. To be fixed to the blade base 40. The blade base 40 is fixed to a frame (not shown) of the belt cleaning unit 5. When the belt cleaning unit 5 is attached to the recording apparatus, the rubber blade 41 is disposed so as to form an angle of approximately 60 ° with the surface of the conveyor belt 1. The belt cleaning unit 5 is disposed so that the tip of the rubber blade 41 is pushed about 1 mm into the surface of the transport belt 1, and even if the transport belt 1 rotates, the surface of the transport belt 1 and the tip of the rubber blade 41 are arranged. It is a positional relationship that does not leave.
[0034]
FIG. 8 is an explanatory diagram of a cleaning liquid supply / suction mechanism for supplying and suctioning cleaning water to the absorber 22. The cleaning liquid supply / suction mechanism is mainly composed of a tank 50, a pump 51, a four-way valve 52, and a tube connected thereto.
[0035]
A cleaning liquid (in this example, pure water) 53 for cleaning the absorber 22 is accommodated in the tank 50. The tube 60 is arranged such that the tip thereof is completely submerged in the cleaning liquid 53 in the tank 50. The proximal end of the tube 60 is connected to the four-way valve 52. The four-way valve 52 is switched to the position 52a in FIG. 8 when the cleaning liquid 53 is supplied, and is switched to the position 52b in FIG.
[0036]
When the four-way valve 52 is switched to the supply position 52 a, the tube 60 is connected to one end of the tube 61. The other end of the tube 61 is connected to the inlet side of the pump 51. The pump 51 is a pump using a diaphragm and conveys liquid or gas in the direction of the arrow in FIG. One end of a tube 62 is connected to the outlet side of the pump 51, and the other end of the tube 62 is connected to a four-way valve 52a. When the four-way valve 52 is at the supply position 52a, the tube 62 and one end of the tube 63 are connected. The other end of the tube 63 is connected to a hole 24 provided at the end of the absorber holder 20 via a tube joint (not shown).
[0037]
On the other hand, when the four-way valve 52 is switched to the suction position 52b, the tubes 60 and 62 are connected, and the tubes 61 and 63 are connected.
[0038]
In this way, by switching the four-way valve 52, the cleaning liquid 53 in the tank 50 can be supplied to the absorber 22 or the cleaning liquid 53 in the absorber 22 can be sucked. Then, by adjusting the absorption amount of the cleaning liquid 53 in the absorbent body 22, the absorbent body 22 can be brought into contact with the surface of the transport belt 1 without dripping the cleaning liquid 53 from the absorbent body 22.
[0039]
Similarly, a cleaning liquid supply / suction mechanism capable of sucking the cleaning liquid accumulated in the cap 31 and supplying the cleaning liquid for cleaning the absorber 22 into the cap 31 is configured.
[0040]
That is, one end of a tube 68 is connected to the hole 32 at the end of the cap 31 via a tube joint (not shown), and the other end of the tube 68 is connected to the four-way valve 57. The four-way valve 57 is switched to the position 57a in FIG. 8 when the cleaning liquid 53 is sucked, and is switched to the position 52b in FIG. 8 when the cleaning liquid 53 is supplied.
[0041]
When the four-way valve 57 is switched to the suction position 57a, the tube 68 and one end of the tube 66 are connected. The other end of the tube 66 is connected to the pump 56. The pump 56 is a diaphragm pump having the same form as the pump 51, and conveys liquid or gas in the direction of the arrow in FIG. One end of a tube 67 is connected to the outlet side of the pump 56, and the other end of the tube 67 is connected to a four-way valve 57a. When the four-way valve 57 is at the position 57a during suction, the tube 67 and the tube 65 are connected. The tip of the tube 65 is guided to the inside of the tank 55.
[0042]
On the other hand, when the four-way valve 57 is switched to the supply position 57b, the tubes 65 and 66 are connected, and the tubes 67 and 68 are connected.
[0043]
Thus, by switching the four-way valve 57, the cleaning liquid 53 can be sucked from the cap 31 and collected in the tank 55, or the cleaning liquid 53 in the tank 55 can be supplied into the cap 31. When the cleaning liquid 53 that has not been absorbed by the absorber 22 drips from the absorber 22 when the cleaning liquid 53 is supplied to the absorber 22 positioned on the cap 31, the cleaning liquid 53 is put into the cap 31. Contain all. The cleaning liquid stored in the cap 31 is collected in the tank 55 by the pump 56.
[0044]
Next, an operation when recording is performed by ejecting ink onto a recording sheet will be described.
[0045]
When an ordinary inkjet recording apparatus is not used for a long time, it capping the nozzle forming surface (also referred to as “nozzle surface”) of the recording head. When the recording apparatus is not used for a long time, the ink in the nozzles dries and adheres in the nozzles, which may cause ink non-ejection of the recording head. To prevent this, the nozzle surface is capped.
[0046]
Similarly, in the ink jet recording apparatus of this example, the heads 6 to 11 are capped with the corresponding caps. When the heads 6 to 11 are left capped and not used for a long period of time, a recovery operation for maintaining a good ink discharge state of the heads 6 to 11 is performed before the recording operation. Then, ink that does not contribute to image recording is discharged from the nozzle. In the recovery operation, for example, the ink in the heads 6 to 11 is pushed out from the nozzle by a pump, or the ink is sucked from the nozzle by introducing a negative pressure into the cap. Thereafter, a wiping operation for wiping off ink remaining on the nozzle surface is performed, and ink droplets are completely removed from the nozzle surface. Thereafter, the recording operation on the recording paper is started.
[0047]
After starting recording on the recording paper, not all nozzles eject ink, and there are nozzles that eject ink and nozzles that do not eject ink, depending on the image to be recorded. When the same image is continuously recorded on a plurality of recording sheets, there is no particular problem with the nozzles that eject ink. However, when a nozzle that has not ejected ink during recording on a plurality of recording papers ejects ink for the first time, the first few drops of ink cannot be ejected or are not ejected straight. There is a case where a phenomenon called twisting that is discharged obliquely occurs. The cause is considered to be that the water content of the ink in the nozzles decreased due to evaporation and the viscosity of the ink increased. It is known that such non-ejection or twisting of ink occurs when the first few ink droplets are ejected, and then returns to a normal ejection state. Therefore, before actually starting recording on the recording paper, several to several tens of inks that do not contribute to image recording are ejected to a place other than the recording paper (also referred to as “preliminary ejection operation”), and normal ink is discharged. Recording on the recording sheet is started after the ejection state.
[0048]
In order not to reduce the recording speed, a preliminary ejection operation is performed toward the position on the conveyance belt 1 between the recording sheets. Specifically, every time one sheet of recording paper is recorded or every time a plurality of recording sheets are recorded, one preliminary ejection operation is performed, and 10 shots are made from all the nozzles of all the full line heads 6 to 11. About a drop of ink is ejected to a position on the conveyor belt 1.
[0049]
If the ink ejected on the conveyance belt 1 is left unattended, the ink adheres to the back surface of the recording paper and becomes dirty, and the surface resistance on the conveyance belt 1 decreases, so that the recording paper is attracted by static electricity. The adsorbing force is weakened, and the recording quality is deteriorated due to the deterioration of the recording paper conveyance accuracy. Therefore, the ink discharged on the conveyor belt 1 is removed by the belt cleaning unit 5 located downstream in the conveyance direction of the conveyor belt 1.
[0050]
Hereinafter, the operation of the belt cleaning unit 5 will be described.
[0051]
When the recording apparatus is not performing a recording operation, as shown in FIG. 4, the absorber 22 of the cleaning unit 5 is covered with a cap 31 to prevent the absorber 22 from drying. At this time, the absorbent body 22 is kept in a state of being appropriately absorbed. When a signal for recording is input to the recording apparatus, the cap 31 is moved away from the absorber 22 by the cap lifting mechanism as shown in FIG. Next, as shown in FIG. 2, the absorber holder 20 is rotated about the shaft 23 by a rotation mechanism (not shown), and the side surface of the absorber 22 comes into contact with the surface of the conveyance belt 1. At this time, the tip of the rubber blade 41 remains in contact with the surface of the transport belt 1.
[0052]
When the recording operation is started, the conveyor belt 1 starts to rotate. In this example, in order to record 60 A4 size recording sheets per minute, the moving speed of the conveyor belt 1 is set to 300 mm / s. The interval between the trailing edge of the recording sheet on the downstream side in the conveying direction on the conveying belt 1 and the leading edge of the next recording sheet on the upstream side in the conveying direction is 90 mm. When the recording operation is continuously performed on a plurality of recording sheets, the above-described preliminary ejection operation is performed on the surface of the conveyance belt 1 positioned between the 90 mm recording sheets. The number of ink ejections during this preliminary ejection operation is optimally set according to the arrangement environment of the printing apparatus. For example, in a situation where the ink is easily dried at high temperature and low humidity, or in a situation where the viscosity of the ink is high at a low temperature, 10 droplets of ink are ejected onto the conveyance belt 1 between the recording sheets for each recording sheet. To do. Further, in an environment such as a normal office at 25 ° C. and a temperature and humidity of about 50%, about five ink droplets are ejected onto the conveyance belt 1 between the recording sheets for every five recording sheets.
[0053]
When the recorded recording paper is separated from the transport belt 1 and the portion of the transport belt 1 from which ink has been ejected by the preliminary ejection operation passes through the position of the cleaning unit 5, the transport belt as shown in FIG. Part of the ink on the conveyor belt 1 is absorbed by the absorber 22 in contact with 1. However, a lot of ink on the conveyor belt 1 remains on the conveyor belt 1. That is, the cleaning liquid is drawn out from the absorber 22 that has absorbed liquid moderately by contact with the transport belt 1 that moves at high speed. Therefore, most of the ink on the transport belt 1 remains on the transport belt 1 by mixing with the cleaning liquid drawn from the absorber 22. At this time, the amount of the cleaning liquid on the transport belt 1 is several times to several tens of times the amount of ink on the transport belt 1. The ink on the transport belt 1 diluted with a large amount of washing water in this way is wiped off by the rubber blade 41 on the downstream side in the transport direction from the absorber 22.
[0054]
In this way, by supplying pure water as a cleaning liquid onto the conveyor belt 1 and drastically reducing the concentration of ink on the conveyor belt 1, the ink on the conveyor belt 1 moving at a high speed of 300 mm / s is used. Even with this, the rubber blade 41 could surely wipe it off. Incidentally, when only the ink is present on the conveyor belt 1 without the cleaning water, the ink on the conveyor belt 1 is transported from the ejection position to the cleaning position because the amount of the ink is extremely small. Even within a short period of time, the evaporation of water in the ink progresses and sticks onto the conveyor belt 1, and the ink cannot be reliably wiped only by the rubber blade 41.
[0055]
Therefore, as in this example, the cleaning liquid is positively supplied onto the transport belt 1 and the ink discharged onto the transport belt 1 is surely removed by the preliminary discharge operation, thereby transporting the ink discharged. Even when the next recording paper is adsorbed to the position on the belt 1, it is possible to prevent the recording quality from being deteriorated due to the backside of the recording paper or the recording paper adhering failure.
[0056]
After the series of recording operations is completed, the conveyance belt 1 stops rotating, the absorber holder 20 rotates to the position shown in FIG. 3, and the absorber 22 moves away from the conveyance belt 1. In this state, the four-way valve 52 is switched to the supply position 52 as shown in FIG. 8, and the pump 51 is operated for several seconds. Thereby, the pure water 53 which is the cleaning liquid in the tank 50 is supplied to the absorber 22 through the tubes 60, 61, 62 and 63 and the absorber holder 20, and the cleaning operation of the absorber 22 is performed. As a result, the ink absorbed by the absorber 22 and unnecessary materials such as paper dust attached to the absorber 22 when the absorber 22 is rotated by contacting the conveyor belt 1 are washed away from the absorber 22.
[0057]
At this time, since the cap 31 is located immediately below the absorber 22 as shown in FIG. 3, all the cleaning liquid flowing down from the absorber 22 is recovered. Further, by switching the four-way valve 57 to the suction position 57 a as shown in FIG. 8 and operating the pump 56, the washed cleaning liquid collected in the cap 31 is passed through the tubes 68, 66, 67, 65. To collect in the tank 55. Therefore, even when the absorber 22 is cleaned, the inside of the recording apparatus is not soiled by the cleaning liquid.
[0058]
After cleaning the absorber 22 in this way, a slight amount of the cleaning liquid contained in the absorber 22 is sucked. That is, by switching the four-way valve 52 to the suction position 52b and then operating the pump 51 for a certain period of time, the cleaning liquid contained in the absorber 22 is sucked into the tank 50 through the tubes 63, 61, 62, 60. Discharge. It is desirable that the liquid absorption amount of the absorber 22 after such a suction operation is more than half the liquid absorption amount with respect to the state in which the absorber 22 has fully absorbed liquid. By sucking a small amount of the cleaning liquid from the absorber 22 in this way, it is possible to prevent the cleaning liquid from dripping from the absorber 22 when the absorber 22 comes into contact with the transport belt 1 later. If the absorber 22 is cleaned and then the next recording operation is resumed without sucking the cleaning liquid from the absorber, the absorber 22 contacts the conveyor belt 1 as shown in FIG. When bent, the cleaning liquid absorbed by the absorber 22 may be squeezed and drooped.
[0059]
After the absorber 22 is cleaned and sucked in this way, the cap 31 is raised to cap the absorber 22 as shown in FIG. 4 to prevent the absorber 22 from drying. Therefore, the absorber 22 can be kept in a moisture absorption state until the next recording operation, and the ink on the transport belt 1 can be washed well during the next recording operation.
[0060]
As described above, the ink discharged onto the transport belt 1 by the preliminary discharge operation of the full line heads 6 to 11 is surely wiped off by the cleaning unit 5. Therefore, when the transport belt 1 rotates once and sucks the next recording sheet, ink does not adhere to the back surface of the recording sheet. In addition, the recording paper adsorbing ability of the conveyance belt 1 is not lowered, and the recording quality can be prevented from being deteriorated due to the reduction in the conveyance accuracy of the recording paper.
[0061]
Further, by preventing the absorber 22 from being dried by the drying preventing means such as the cap 31, foreign matters such as ink discharged on the conveying belt 1 can be stably removed. Accordingly, even when the recording apparatus is used for a long time or after being left for a long time, foreign matters such as ink can be reliably removed from the conveying belt 1 using the absorber 22 and the cleaning liquid.
[0062]
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS.
[0063]
Since the basic configuration of the recording apparatus in the present embodiment is the same as that of the recording apparatus of the first embodiment described above, description thereof is omitted. Further, in the configuration of the cleaning unit 5 for removing the ink ejected on the transport belt 1, the description of the same parts as those in the first embodiment described above is omitted.
[0064]
In the present embodiment, as shown in FIG. 9, only the cleaning water supply system is configured between the tank 50 and the absorber 22, and the cleaning water suction system in the first embodiment described above, that is, The washing water suction system from the washing water absorber 22 to the tank 50 in FIG. 8 is omitted. Further, at the time of supplying the cleaning liquid to the conveyance belt 1, as shown in FIG. 10, the corner portion of the end portion of the absorber 22 is only slightly brought into contact with the conveyance belt 1. In this way, by slightly bringing the absorber 22 into contact with the conveyor belt 1, the absorber 22 is not pressed against the conveyor belt 1 with a large deformation, and the cleaning liquid leaks from the absorber 22 by the pressing operation. There is no. Even in such a case, when the absorbent body 22 comes into contact with the transport belt 1, the transport belt in which the cleaning liquid contained in the absorbent body 22 moves at a high speed as in the first embodiment described above. The density of the ink supplied to the first side and attached on the conveying belt 1 can be greatly reduced. As a result, the ink on the transport belt 1 can be wiped off reliably by the rubber blade 41 on the downstream side in the transport direction.
[0065]
In the present embodiment, since the absorber 22 is not pressed against the conveyor belt 1 over a wide range, the driving torque for rotating the conveyor belt 1 can be reduced, and more accurate. The recording paper can be conveyed. Furthermore, since the supply mechanism of the cleaning water to the cleaning water absorber 22 can be further simplified, the cost and size of the apparatus can be reduced.
[0066]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIG.
[0067]
In the present embodiment, the cleaning liquid for cleaning the ink ejected on the transport belt 1 is supplied onto the transport belt 1 by the seventh full line head 12. The supply amount of the cleaning liquid is set to be several to several tens of times the amount of ink discharged onto the transport belt 1 by the preliminary discharge operation described above. The seventh full line head 12 for supplying the cleaning liquid has the same configuration as the other full line heads 6 to 11 and can discharge the cleaning liquid from the nozzles instead of the ink. The cleaning unit 5 has a configuration in which the cleaning water absorber 22 and the rubber blade 41 are arranged as in the first and second embodiments described above. The absorbent body 22 in the present embodiment is not particularly limited as long as it can collect paper dust or dust adhering to the transport belt 1 on the front side of the rubber blade 41, and is a porous absorbent body as in the above-described embodiment. It does not have to be.
[0068]
With this configuration, the cleaning liquid can be supplied from the head 12 only when the preliminary ejection operation is performed. In addition, since the supply amount of the cleaning liquid can be accurately measured, the necessary amount of the cleaning liquid can be greatly reduced by supplying the minimum amount of the cleaning liquid. In addition, since the cleaning liquid is also absorbed by the absorber 22 disposed in the cleaning unit 5, the full line head 12 that supplies the cleaning liquid does not cause much problem even if the cleaning liquid does not discharge to some nozzles. Therefore, even a full line head that becomes a defective product as a normal ink discharge head can be used as the cleaning liquid supply head 12, and the cost of the apparatus can be suppressed.
[0069]
In this embodiment, a full line head for ink discharge used for actual recording is used as the cleaning liquid supply unit. However, the supply means for the cleaning liquid is not limited to this as long as it can supply the cleaning liquid, and a plurality of ink jet heads for discharging ink with a short length are arranged in the width direction of the transport belt 1 and these are arranged. The cleaning liquid may be discharged from the head. Further, an ink jet head having a large discharge amount may be used so that more cleaning liquid can be supplied. A spray nozzle that sprays fine droplets of the cleaning liquid in a line along the width direction of the conveyor belt 1 may be used.
[0070]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIGS.
[0071]
In the present embodiment, a roller-shaped absorber 27 as shown in FIG. 12 is used as the absorber. The absorber 27 is formed of a porous absorber similar to the absorber in the first embodiment, and is formed in a roller shape around the shaft 26. The shaft 26 is connected to a rotation drive mechanism (not shown), and the absorber 27 can rotate around the shaft 26. The shaft 26 is moved to two positions, that is, a position as shown in FIG. 12 and a position in the cleaning liquid receiver 35 as shown in FIG. 13 by another drive mechanism (not shown). A cleaning liquid is supplied into the cleaning liquid receiver 35.
[0072]
The cleaning liquid receiver 35 is provided with a cleaning liquid receiving cap 36 that is rotatable about the hinge portion 37 as a rotation center. Grooves 39a, 39b, and 39c are formed in both the cleaning liquid receiver 35 and the cleaning liquid receiver cap 36 so as not to interfere with the shaft 26. In the cleaning liquid receiving cap 36, a groove similar to the groove 39c is also formed on the side opposite to the side where the groove 39c is formed. Further, a hole 38 is provided on one side of the cleaning liquid receiver 35, and this hole 38 is connected to a tube 68 in FIG. 8 through a tube joint (not shown) as in the first embodiment. . Accordingly, the cleaning liquid in the tank 55 can be supplied to the cleaning liquid receiver 35 as in the first embodiment. Further, the liquid level of the cleaning liquid in the cleaning liquid receiver 35 is detected by a liquid level detection sensor (not shown), and when the amount of the cleaning liquid in the cleaning liquid receiver 35 decreases, the cleaning liquid is supplied by the pump 56. . Further, as shown in FIG. 14, the cleaning liquid receiving cap 36 rotates around the hinge portion 37, so that the shaft 26 is sandwiched between the cleaning liquid receiver 35 and the entire absorber 27 in the cleaning liquid receiver 35. To seal.
[0073]
When performing the recording operation, the absorber 27 is brought into contact with the surface of the conveyor belt 1 as shown in FIG. The absorber 27 is fixed at the position shown in FIG. 12 so as not to follow and rotate even if the transport belt 1 rotates. The absorber 27 absorbs the cleaning liquid in the cleaning liquid receiver 35 in advance, and the cleaning liquid absorbed by the absorber 27 is supplied onto the transport belt 1 by the high speed rotation of the transport belt 1. When continuous recording is performed on a large amount of recording paper, the absorber 27 is slightly rotated counterclockwise around the shaft 26 by a rotation driving mechanism (not shown) every time a predetermined time elapses. Then, another surface of the absorber 27 is newly brought into contact with the surface of the conveyor belt 1. Accordingly, the cleaning liquid can be supplied from the new surface of the absorber 27 without causing paper dust, dust, and the like accumulated on the surface of the absorber 27 to flow toward the rubber blade 41 on the downstream side in the transport direction.
[0074]
After the series of recording operations, as shown in FIG. 13, the absorber 27 moves so that the shaft 26 fits in the grooves 39 a and 39 b, and the lower part of the absorber 27 is in the cleaning liquid receiver 35. Soak in the cleaning solution. In this state, by rotating the absorber 27 together with the shaft 26 by a rotation mechanism (not shown), paper dust or dust attached to the surface of the absorber 27 is washed away. At the same time, the cleaning liquid is supplied to the absorber 27.
[0075]
When the next recording operation is not performed after the cleaning operation is completed, as shown in FIG. 14, the cleaning liquid receiver 35 is sealed with the cleaning liquid receiving cap 36 so that the absorber 27 is contained therein, and the cleaning liquid Prevent evaporation. When the next recording operation is performed, the cleaning liquid receiving cap 36 is opened as shown in FIG. 13, and then the absorber 27 is brought into contact with the conveyor belt 1 as shown in FIG. It can be performed.
[0076]
As described above, by configuring the absorber in a roller shape, the surface of the absorber in contact with the conveyance belt 1 can be shifted one after another even when continuous recording is performed on a large amount of recording paper. Therefore, the cleaning liquid can be reliably supplied from the absorber to the conveyor belt 1 over a long period of time, and high-precision recording on a larger number of recording sheets can be continued for a long period until the supply is interrupted. it can. In addition, since the surface of the absorbent body where paper dust, dust, etc. accumulates can be changed one after another, these foreign substances do not flow downstream in the transport direction, and the rubber blade 41 more reliably wipes the cleaning liquid. Can do.
[0077]
(Fifth embodiment)
In the case of this example, the speed of the recording operation is changed in the first embodiment described above. That is, in order to record 30 sheets of A4 size recording paper per minute, the moving speed of the conveying belt 1 was set to 150 mm / s. The distance between the trailing edge of the previous recording paper and the leading edge of the next recording paper on the conveyor belt 1 is 90 mm. When the recording operation is continuously performed on a plurality of recording sheets, the above-described preliminary ejection operation is performed on the surface of the conveyance belt 1 positioned between the 90 mm recording sheets. The number of ink ejections during this preliminary ejection operation is optimally set according to the arrangement environment of the printing apparatus. For example, as in the case of the first embodiment described above, between the recording sheets for each recording sheet in a situation where the ink is easily dried at a high temperature and low humidity, or in a situation where the viscosity of the ink is high at a low temperature. Ink droplets are ejected 10 times on the conveyor belt 1. Further, in an environment such as a normal office at 25 ° C. and a temperature and humidity of about 50%, about five ink droplets are ejected onto the conveyance belt 1 between the recording sheets for every five recording sheets.
[0078]
When the recorded recording paper is separated from the transport belt 1 and the portion on the transport belt 1 from which the ink has been ejected passes the position of the cleaning unit 5, the transport belt is absorbed by the absorber 22 in an appropriate moisture absorption state. The ink on 1 is absorbed and the ink is removed from the transport belt 1. The ink that could not be removed from the transport belt 1 and the pure water that is the cleaning liquid supplied from the hygroscopic absorber 22 onto the transport belt 1 are scraped from the transport belt 1 by the rubber blade 41 on the downstream side in the transport direction. Taken. Therefore, the ink and the cleaning liquid on the transport belt 1 do not reach the downstream side in the transport direction with respect to the rubber blade 41.
[0079]
Therefore, as in the case of the first embodiment described above, even when the next recording paper is adsorbed to the position on the transport belt 1 from which the ink has been ejected, It was possible to prevent the recording quality from being deteriorated due to poor adsorption. Further, there is no possibility that the cleaning liquid leaks into the recording apparatus when the absorber 22 is cleaned. Furthermore, when the recording operation is not performed, the absorber 22 can be kept in an appropriate moisture absorption state. Therefore, when performing the next recording operation, the cleaning operation can be performed without losing time, and the washing water tank can be reduced to reduce the size of the washing water tank, thereby reducing the size of the apparatus. Can be achieved. Furthermore, by switching the supply path and the suction path of the cleaning liquid to the absorber 22 with a four-way valve, it is possible to simplify and miniaturize the apparatus by commonly using one pump in those paths.
[0080]
(Sixth embodiment)
In the case of the present embodiment, the cleaning water is supplied to the ink absorber 22 from the cap 31 in the first embodiment described above.
[0081]
That is, by switching the four-way valve 57 in FIG. 8 to the supply position 57 b and driving the pump 56, the pure water as the cleaning liquid in the tank 55 is passed through the tubes 65, 66, 67, 68 through the cap 31. Introduce into. At this time, the amount of cleaning water in the cap 31 is detected by a water level detection sensor in the cap (not shown), and the driving of the pump 56 is stopped when the water level of the cleaning water exceeds a predetermined level. Thereafter, in a capping state as shown in FIG. 4, the absorber 22 is immersed in the cleaning water in the cap 31 and cleaned. At this time, the washing water supply operation and the suction operation may be repeated on the absorber 22 side by switching the four-way valve 52 and driving the pump 51. Thereby, the absorber 22 can be more reliably cleaned. Furthermore, when the ink absorber 22 is capped by the cap 31, the cleaning of the absorber 22 can be prevented more reliably by supplying cleaning water to the extent that the absorber 22 is not immersed in the cap 31. .
[0082]
As described above, by supplying the cleaning water into the cap 31, the absorber 22 after the cleaning of the transport belt 1 can be more reliably cleaned. Furthermore, when the absorber 22 is capped, the absorber 22 can be more reliably prevented from drying, and a more reliable ink jet recording apparatus can be provided.
[0083]
(Seventh embodiment)
Next, a seventh embodiment of the present invention will be described with reference to FIG. Since the basic configuration of the recording apparatus and the configuration of the cleaning unit 5 for removing the ink ejected onto the transport belt 1 are the same as those in the first embodiment described above, the description thereof is omitted. In the present embodiment, the pump that supplies and sucks cleaning water is changed from one that mainly transports liquid to one that transports air.
[0084]
In FIG. 15, a cleaning liquid (in this example, pure water) 73 for cleaning the ink absorber 22 is accommodated in the tank 70. A tube 83 is arranged in the tank 70 so that the tip does not sink into the cleaning liquid 73. The opening of the tank 70 is sealed with a sealing plug 74 so that air and cleaning liquid do not enter and exit from other than the tube 83 and the tube 84 described later. The other end of the tube 83 is connected to a four-way valve 72 that can be switched between a supply position 72a and a suction position 72b to change the path of the cleaning liquid. When the four-way valve 72 is in the supply position 72 a, one end of the tube 82 is connected to the tank 70 via the tube 83. The other end of the tube 82 is connected to the pump 71. The pump 71 is a pump using a diaphragm, and conveys gas in the direction of the arrow in the drawing. One end of a tube 81 is connected to the inlet side of the pump 71, and the other end of the tube 81 is connected to a four-way valve 72. When the four-way valve 72 is in the supply position 72 a, the tube 81 is connected to one end of the tube 80. The other end of the tube 80 is open to the atmosphere.
[0085]
In addition, a tube 84 is disposed in the tank 70 so that the tip is completely submerged in the cleaning liquid 73 therein. The base end of the tube 84 is connected to a hole 24 provided at one end of the absorber holder 22 via a tube joint (not shown).
[0086]
In such a configuration, the four-way valve 72 is switched to the supply position 72a and the pump 71 is driven, whereby air is pumped into the tank 70, and the cleaning liquid 73 in the tank 70 is pushed out by the air pressure to inject the ink absorber. 22 can be supplied. Further, the air in the tank 70 is sucked by switching the four-way valve 72 to the suction position 72b, and the wash water absorbed in the ink absorber 22 is sucked and discharged into the tank 70 by the suction force. Can do.
[0087]
On the other hand, the cap 31 side is also configured in the same manner, so that the cleaning water accumulated in the cap 31 can be sucked and a cleaning liquid for cleaning the absorber 22 can be supplied into the cap 31.
[0088]
That is, one end of the tube 89 is connected to the hole 32 provided at the end of the cap 31 through a tube joint (not shown). The other end of the tube 89 is disposed so that the tip is completely submerged in the cleaning liquid 78 in the tank 75. The opening of the tank 75 is hermetically sealed so that air and cleaning liquid do not enter and exit from other than the tube 89 and the tube 88 described later. A tube 88 is disposed in the tank 75 so that the tip does not sink into the cleaning liquid 78. The other end of the tube 88 is connected to the four-way valve 77. The four-way valve 77 can be switched between a suction position 77a and a supply position 77b, and connects the tube 88 and one end of the tube 86 when switched to the suction position 77a. The other end of the tube 86 is connected to the inlet side of the pump 76. The pump 76 is a diaphragm pump having the same form as the pump 71, and conveys gas in the direction of the arrow in the figure. One end of a tube 87 is connected to the outlet side of the pump 76, and the other end of the tube 87 is connected to the four-way valve 77. When the four-way valve 77 is switched to the suction position 77 a, the tube 87 is connected to one end of the tube 85. The other end of the tube 85 is open to the atmosphere.
[0089]
Accordingly, by switching the four-way valve 77 to the suction position 77a and driving the pump 76, the air in the tank 75 is sucked and the cleaning liquid in the cap 31 is sucked and discharged into the tank 75 by the suction force. Can do. Further, by switching the four-way valve 77 to the supply position 72b, air can be pumped into the tank 75, and the cleaning liquid 78 in the tank 75 can be pushed out and supplied to the cap 32 by the air pressure.
[0090]
With such a configuration, as in the first embodiment described above, when supplying the cleaning liquid to the absorber 22 disposed on the cap 31, the cleaning liquid that has not been absorbed by the absorber 22 is absorbed by the absorber 22. Even when the liquid drops from the cap 31, all of the cleaning liquid can be collected in the cap 31. The cleaning liquid recovered by the cap 31 is recovered in the tank 75 by the pump 76. In this way, the same operation as that of each of the embodiments described above can be realized.
[0091]
In this embodiment, since a pump for air is used instead of the liquid pump mainly used in each of the above-described embodiments, all the movable parts such as the pump and the four-way valve are in contact with only air. Become. Therefore, if the pump or the four-way valve breaks and air leaks, the possibility of causing damage to other parts in the apparatus is extremely low as compared to the case where liquid leaks. Therefore, it is possible to provide a recording apparatus with better maintainability.
[0092]
Examples of embodiments of the present invention are listed below.
[Embodiment 1] An image is recorded on a recording material placed on the surface of a conveying member moving in a predetermined conveying direction and conveyed to a predetermined recording position by using a recording unit capable of ejecting ink. In the inkjet recording apparatus
Supply means for supplying a cleaning liquid to the surface of the conveying member;
A wiping means that is located downstream of the supply means in the transport direction and wipes the cleaning liquid from the surface of the transport member;
An ink jet recording apparatus comprising:
[0093]
[Embodiment 2] The inkjet recording apparatus according to Embodiment 1, wherein the wiping means includes a plate-like elastic member whose one side is in sliding contact with the surface of the transport member.
[0094]
[Embodiment 3] The inkjet recording apparatus according to Embodiment 1 or 2, wherein the wiping means includes a rubber blade that is in sliding contact with the surface of the transport member.
[0095]
[Embodiment 4] The supply means supplies the cleaning liquid from the absorber to the surface of the transport member by bringing an absorbent body capable of absorbing the cleaning liquid into contact with the surface of the transport member. The inkjet recording apparatus according to any one of Embodiments 1 to 3.
[0096]
[Embodiment 5] The inkjet recording apparatus according to Embodiment 4, wherein the absorber has a plate shape.
[0097]
[Embodiment 6] The inkjet recording apparatus according to Embodiment 4, wherein the absorber is in the form of a rotatable roller.
[0098]
[Embodiment 7] The ink jet recording apparatus according to any one of Embodiments 4 to 6, wherein the absorber is a porous absorber.
[0099]
[Embodiment 8] The ink jet recording apparatus according to any one of Embodiments 4 to 7, further comprising replenishment means for replenishing the absorber with the cleaning liquid.
[0100]
[Embodiment 9] The apparatus according to any one of Embodiments 4 to 8, further comprising suction means for sucking the cleaning liquid from the absorber in order to reduce the amount of the cleaning liquid absorbed by the absorber. Inkjet recording apparatus.
[0101]
[Embodiment 10] The inkjet recording apparatus according to any one of Embodiments 1 to 9, wherein the supply unit includes a cleaning liquid discharge head capable of discharging the cleaning liquid.
[0102]
[Embodiment 11] The recording means includes an ink jet recording head capable of ejecting ink,
The cleaning liquid discharge head has the same form as the ink jet recording head.
The inkjet recording apparatus according to Embodiment 10, wherein
[0103]
[Embodiment 12] The discharge amount of the cleaning liquid from the cleaning liquid discharge head is larger than the discharge amount of the ink from the inkjet recording head per unit area of the surface of the transport member. The inkjet recording apparatus according to embodiment 10 or 11.
[0104]
[Embodiment 13] Foreign matter removal for removing foreign matter adhering to the surface of the transport member at a position downstream of the cleaning liquid discharge head in the transport direction and upstream of the wiping means in the transport direction. The inkjet recording apparatus according to any one of embodiments 10 to 12, further comprising: means.
[0105]
[Embodiment 14] The ink jet recording apparatus according to Embodiment 13, wherein the foreign matter removing means includes a porous absorber in contact with the surface of the transport member.
[0106]
[Embodiment 15] The ink jet recording apparatus according to any one of Embodiments 1 to 14, wherein the cleaning liquid is a liquid containing water.
[0107]
[Embodiment 16] An image is recorded on a recording material placed on the surface of a conveying member moving in a predetermined conveying direction and conveyed to a predetermined recording position using a recording unit capable of ejecting ink. In the inkjet recording apparatus
A cleaning member that contacts the surface of the transport member and a cleaning unit that cleans the surface of the transport member using a cleaning liquid;
Drying prevention means for preventing drying of the cleaning member when the cleaning means does not clean the surface of the transport member;
An ink jet recording apparatus comprising:
[0108]
[Embodiment 17] The inkjet recording apparatus according to Embodiment 16, wherein the cleaning liquid is a liquid containing water.
[0109]
[Embodiment 18] The inkjet recording apparatus according to Embodiment 16 or 17, wherein the drying preventing unit includes a cap capable of sealing the cleaning member.
[0110]
[Embodiment 19] Provided with cleaning means for cleaning the cleaning member using a cleaning liquid for cleaning member,
The cleaning means cleans the cleaning member by positioning the cap below the cleaning member and supplying the cleaning member cleaning liquid to the cleaning member, and for the cleaning member after cleaning the cleaning member. The inkjet recording apparatus according to embodiment 18, wherein the cleaning liquid is collected by the cap means.
[0111]
[Embodiment 20] A cleaning means for cleaning the cleaning member using a cleaning liquid for cleaning member is provided,
The cleaning unit may clean the cleaning member by supplying the cleaning liquid for the cleaning member into the cap and immersing the cleaning member in the cleaning liquid for the cleaning member. Inkjet recording apparatus.
[0112]
[Embodiment 21] The inkjet recording apparatus according to Embodiment 19 or 20, wherein the cleaning liquid for the cleaning member is a liquid containing water.
[0113]
[Embodiment 22] The inkjet recording apparatus according to any one of Embodiments 19 to 20, wherein the cleaning liquid for the cleaning member is the same as the cleaning liquid for cleaning the surface of the transport member.
[0114]
[Embodiment 23] The cleaning member is made of a porous body capable of absorbing the cleaning liquid,
The cleaning means includes supply means for supplying the cleaning liquid to the cleaning member, and suction means for sucking the cleaning liquid from the cleaning member in order to reduce the amount of the cleaning liquid absorbed by the cleaning member.
23. The ink jet recording apparatus according to any one of embodiments 16 to 22, wherein
[0115]
[Aspect 24] The inkjet recording apparatus according to Aspect 23, wherein at least a part of the supply path of the cleaning liquid in the supply means and the suction path of the cleaning liquid in the suction means are common.
[0116]
[Embodiment 25] Embodiments 18 to 24 are characterized in that the cleaning member is movable to at least two positions, that is, a cleaning position for cleaning the surface of the transport member and a position capped by the cap. Any one of the inkjet recording apparatuses.
[0117]
[Embodiment 26] An image is recorded on a recording material placed on the surface of a conveying member moving in a predetermined conveying direction and conveyed to a predetermined recording position using a recording unit capable of discharging ink. In the inkjet recording apparatus
Supply means for supplying a cleaning liquid to the surface of the conveying member;
A wiping means that is located downstream of the supply means in the transport direction and wipes the cleaning liquid from the surface of the transport member;
A drying preventing means for preventing drying of the supplying means when the supplying means does not supply the cleaning liquid to the surface of the conveying member;
An ink jet recording apparatus comprising:
[0118]
[Embodiment 27] The supply means makes it possible to supply the cleaning liquid from the absorber to the surface of the transport member by bringing an absorbent body capable of absorbing the cleaning liquid into contact with the surface of the transport member,
The drying prevention means includes a cap capable of sealing the absorber.
27. An ink jet recording apparatus according to embodiment 26.
[0119]
[Embodiment 28] The ink jet recording apparatus according to any one of Embodiments 1 to 27, wherein the transport member is a transport belt capable of adsorbing the recording material on a surface thereof.
[0120]
[Embodiment 29] In order to maintain a good ink discharge state of the recording means, there is provided means for discharging ink that does not contribute to image recording from the recording means onto the surface of the conveying member. The ink jet recording apparatus according to any one of embodiments 1 to 28.
[0121]
[Embodiment 30] The inkjet according to any one of Embodiments 1 to 29, wherein the recording means includes an inkjet recording head capable of ejecting ink using electrical energy generated by an electrothermal transducer. Recording device.
[0122]
【The invention's effect】
As described above, the present invention supplies the cleaning liquid onto the surface of the conveyance member on which the recording material is placed, and then wipes the cleaning liquid from the surface of the conveyance member, thereby conveying the cleaning liquid together with the cleaning liquid. Foreign matter such as ink can be reliably removed from the surface of the member. In particular, the ink on the surface of the conveying member can be reliably removed by wiping the ink together with the cleaning liquid after the concentration of the ink adhering to the surface on the conveying member is greatly diluted with the cleaning liquid. As a result, it is possible to prevent the recording material from being contaminated due to foreign matters such as ink on the surface of the conveying member, and to prevent the recording material from being displaced on the surface of the conveying member, so that the recording material can be conveyed at high speed by the conveying member. A high-quality image can be recorded while being planned.
[0123]
Further, since the ink on the surface of the conveying member can be surely removed, ink that does not contribute to image recording is preliminarily ejected from the recording means to the surface of the conveying member, and the ink ejection state of the recording means is improved. Can be maintained. In addition, by performing such preliminary ejection while the recording operation is continued, a high-quality image can be recorded at high speed.
[Brief description of the drawings]
FIG. 1 is a perspective view of a main part of an ink jet recording apparatus according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the cleaning unit of FIG.
FIG. 3 is a perspective view of the cleaning unit of FIG. 1 when cleaning the absorbent body.
4 is a perspective view of the cleaning unit of FIG. 1 at the time of capping.
5 is a perspective view of an absorber in the cleaning unit of FIG. 1. FIG.
6 is a perspective view of a blade in the cleaning unit of FIG. 1. FIG.
7 is a perspective view of a cap in the cleaning unit of FIG. 1. FIG.
8 is a schematic configuration diagram of a cleaning liquid supply path, a suction path, and a recovery path in the cleaning unit of FIG. 1;
FIG. 9 is a schematic configuration diagram of a cleaning liquid supply path, a suction path, and a recovery path of a cleaning unit according to a second embodiment of the present invention.
FIG. 10 is a perspective view of a cleaning unit according to a second embodiment of the present invention.
FIG. 11 is a perspective view of main parts of an ink jet recording apparatus according to a third embodiment of the present invention.
FIG. 12 is a perspective view of the cleaning unit in operation according to the fourth embodiment of the present invention.
13 is a perspective view of the cleaning unit of FIG. 12 when cleaning the absorber.
14 is a perspective view of the cleaning unit of FIG. 12 at the time of capping.
FIG. 15 is a schematic configuration diagram of a cleaning liquid supply path, a suction path, and a recovery path of a cleaning unit according to a seventh embodiment of the present invention.
[Explanation of symbols]
1 Conveying belt (conveying member)
2 Drive roller
3 Followed roller
4 Tension roller
5 Cleaning unit
6-12 Full line head (inkjet recording head)
22, 27 Absorber
31 cap
35 Cleaning fluid receiver
36 Cleaning fluid receiving cap
41 Rubber blade
50, 55, 70, 75 tanks
52, 57, 72, 77 Four-way valve
51, 56, 71, 76 Pump

Claims (8)

In an inkjet recording apparatus that records an image using a recording unit that can eject ink on a recording material that is placed on the surface of a conveying member that moves in a conveying direction and conveyed to a recording position.
A cleaning member that contacts the surface of the transport member and a cleaning unit that cleans the surface of the transport member using a cleaning liquid;
Drying prevention means for preventing drying of the cleaning member when the cleaning means does not clean the surface of the transport member;
Equipped with a,
The cleaning member is made of a porous body that can absorb the cleaning liquid,
The cleaning means includes supply means for supplying the cleaning liquid to the cleaning member, and suction means for sucking the cleaning liquid from the cleaning member in order to reduce the amount of the cleaning liquid absorbed by the cleaning member,
An inkjet recording apparatus , wherein at least a part of a supply path of the cleaning liquid in the supply means and a suction path of the cleaning liquid in the suction means are common .   The inkjet recording apparatus according to claim 1, wherein the cleaning liquid is a liquid containing water.   The inkjet recording apparatus according to claim 1, wherein the drying prevention unit includes a cap capable of sealing the cleaning member. A cleaning means for cleaning the cleaning member using a cleaning liquid for the cleaning member;
The cleaning means cleans the cleaning member by positioning the cap below the cleaning member and supplying the cleaning member cleaning liquid to the cleaning member, and for the cleaning member after cleaning the cleaning member. 4. The ink jet recording apparatus according to claim 3, wherein the cleaning liquid is collected by the cap means. A cleaning means for cleaning the cleaning member using a cleaning liquid for the cleaning member;
The said washing | cleaning means wash | cleans the said cleaning member by supplying the said cleaning liquid for cleaning members in the said cap, and immersing the said cleaning member in this cleaning liquid for cleaning members. Inkjet recording apparatus.   6. The ink jet recording apparatus according to claim 4, wherein the cleaning liquid for the cleaning member is a liquid containing water.   The inkjet recording apparatus according to claim 4, wherein the cleaning liquid for the cleaning member is the same as the cleaning liquid for cleaning the surface of the transport member. The said cleaning member is movable to two positions of the cleaning position which cleans the surface of the said conveyance member at least, and the position capped with the said cap, The one of Claim 3 to 7 characterized by the above-mentioned. Inkjet recording apparatus.

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