JP4501435B2 - Inkjet printer - Google Patents

Description

  The present invention relates to an ink jet printer, and more particularly to an ink jet printer in which ink that is cured by irradiation with ultraviolet rays is used.

  2. Description of the Related Art Conventionally, many image printers using an ink jet method have been used as image recording means capable of recording images easily and inexpensively. An image printer using an ink jet method (hereinafter referred to as “inkjet printer”) uses, for example, a piezoelectric element such as a piezo element, a heater, or the like to record paper or the like as fine droplets from a nozzle of a recording head. An image is recorded on the recording medium by ejecting it toward the medium and moving the recording head on the recording medium while allowing the recording medium to penetrate or fix the ink.

  Further, in recent years, an ultraviolet curable ink jet printer has been known as a means for forming an image even on a recording medium such as a resin film having poor ink absorbability (see, for example, Patent Document 1). This is because ultraviolet curable ink containing a photoinitiator having a predetermined sensitivity to ultraviolet rays is used, and the ink that has landed on the recording medium is irradiated with ultraviolet rays so that the ink is cured and fixed on the recording medium. It is possible to print easily even on transparent or opaque packaging materials.

  However, in such an ink jet printer, when the recording operation is continuously performed, the ink which is ejected from the nozzles of the recording head and becomes atomized may adhere to and accumulate in the vicinity of the nozzles to cause clogging. . When the recording operation is performed in such a state, even if the nozzle performs an ejection operation by a piezo element or the like, a so-called nozzle lack in which no ink droplet is ejected, or a so-called ink droplet that is not ejected in the correct direction. There is a possibility that a discharge failure such as a discharge bend occurs, and a defect occurs in image recording.

Therefore, in order to perform normal image recording, it is necessary to appropriately perform the cleaning operation of the recording head. As a cleaning operation of the recording head, there has been conventionally known an operation in which a sheet-like ink absorber such as paper is brought into contact with the recording head to absorb and remove ink adhering to the vicinity of the nozzle of the recording head. (For example, refer to Patent Document 2).
JP 2001-310454 A Japanese Patent No. 2705756

  However, in the case of the above-mentioned Patent Document 2, when the unevenness is formed on the nozzle surface of the recording head or the nozzle protrudes from the recording head, the ink absorber should be made to correspond to the unevenness of the nozzle surface. The ink adhering to the vicinity of the nozzle could not be absorbed properly by adhering to the ink absorber. In particular, in order to always contact the ink absorber at the same position with respect to the recording head, a high degree of recording head stopping accuracy is required, and when different recording heads are mounted on the carriage, each recording head It was not possible to make the flexible contact according to the unevenness of different shapes. Therefore, in an industrial inkjet printer with a large number of nozzles, it is difficult to properly adhere the nozzle surface to the ink absorber, and the ink adhering to the vicinity of the nozzle cannot be absorbed by the ink absorber. There is a problem that it remains on the surface as it is. In addition, when using inks with high viscosity and poor wettability, such as UV curable inks, oil-based and solvent, etc., the ink absorption efficiency is further deteriorated and cleaning cannot be performed sufficiently. In addition, there is a problem that there is a risk of causing trouble in image recording.

  Accordingly, the present invention has been made to solve the above-described problems, and does not require an advanced control configuration, and the ink adsorbed appropriately by the ink absorber to reliably remove the ink adhering to the nozzle surface. An object of the present invention is to provide an ink jet printer that can perform cleaning for removal and perform high-definition image recording.

In order to solve the above-described problem, an ink jet printer according to claim 1 is provided.
In an inkjet printer comprising a recording head provided with a plurality of nozzles for ejecting ink, and an ink wiping device for removing the ink adhering to the nozzle surface of the nozzle,
The ink wiping device includes an ink absorber moving device that moves an ink absorber, and a pressing member that is configured to be movable along the nozzle surface and that makes the surface of the ink absorber contact the nozzle surface.
The pressing member is formed in a brush shape comprising a base and a plurality of bristle members planted on the base ,
The bristle member has a cross-sectional thickness of 1 mm or less, and a tip of the bristle member is curved or spherical .

According to the first aspect of the present invention, the ink wiping device includes an ink absorber moving device that moves the ink absorber, and a pressing member that brings the surface of the ink absorber into contact with the nozzle surface.
Since the pressing member is formed in a brush shape including a base and a plurality of bristle members planted on the base, the pressing member can have an appropriate elasticity and an ink absorber. The ink on the nozzle surface can be surely absorbed by the ink absorber and the ink adhering to the vicinity of the nozzle can be reliably removed while the pressing member is in close contact with the nozzle.

Moreover , since the said pressing member is comprised so that a movement along the said nozzle surface is possible, it can move along the said nozzle surface.

Furthermore , since the bristle member has a cross-sectional thickness of 1 mm or less and the tip of the bristle member is curved or spherical, the bristle member has an appropriate elasticity and touches the tip of the bristle member. Can be prevented from being hurt.

An ink jet printer according to the invention of claim 2
In Claim 1 , The said pressing member is formed from any one material among a polypropylene, polyethylene, 4-fluoroethylene, and 4, 6-fluoropropylene, It is characterized by the above-mentioned.

According to the invention of claim 2 , the pressing member is made of any one of polypropylene, polyethylene, 4-fluorinated ethylene, and 4,6-fluorinated propylene. It can be used for many years without swelling / dissolving the pressing member due to adhesion of ink containing organic solvent such as curable ink.

Ink-jet printer according to the invention of claim 3,
In claim 1 or 2 ,
The ink absorber is a high-density fiber woven with a fineness of 0.1 denier, and the high-density fiber is formed of a material of any one of polyester, acrylic, nylon, or a combination thereof. It is characterized by being.

According to the invention of claim 3 , the ink absorber is a high density fiber woven with a fineness of 0.1 denier, and the high density fiber is any one of polyester, acrylic, and nylon. Since the ink is formed of one or a combination of these, the ink can be efficiently absorbed even in an ink having high viscosity and poor wettability.

An ink jet printer according to the invention of claim 4
Said ink absorbing member in 3 any one of claims 1, feed axis, has a sheet shape wound around the winding shaft, the said ink absorbing member fed from feed axis, the winding shaft It is wound up by.

According to a fourth aspect of the present invention, the ink absorber has a sheet shape wound around a feed shaft and a take-up shaft, and the ink absorber fed from the feed shaft is the take-up shaft. since Ru is wound by the shaft, can be contacted without always replace a new ink absorbing member is an ink unabsorbed portion.

An ink jet printer according to the invention of claim 5 is provided.
In claims 1 to 4 any one, the ink has a viscosity of 23 ° C. is at 10~50 [mPa · s], wherein the surface tension of 20~40 [mN / m].

According to the invention described in claim 5 , the ink has a viscosity at 23 ° C. of 10 to 50 [mPa · s] and a surface tension of 20 to 40 [mN / m]. Ink with poor wettability. Even with such ink having high viscosity and poor wettability, the ink can be absorbed securely by adhering the absorber to the nozzle by combining with the first to sixth aspects.

An ink jet printer according to the invention of claim 6
In 5 any one of claims 1, wherein the ink includes a activation energy ray-curable compound, and wherein the activation energy is ultraviolet.

According to the invention described in claim 6 , since the ink contains an activation energy ray-curable compound and the activation energy is ultraviolet rays, the ink is efficiently cured by irradiating ultraviolet rays. Can do.

  According to the first aspect of the present invention, the pressing member can have an appropriate elasticity, and the ink on the nozzle surface can be reliably attached to the ink absorber while the pressing member is securely adhered to the ink absorber. The ink adhering to the nozzle surface and the ink adhering to the nozzle surface can be surely removed. Therefore, when different recording heads are arranged on the carriage, etc. Even if it is bad, it does not require an advanced control configuration, ink that adheres to the nozzle surface can be reliably removed, and the ink is fixed in the vicinity of the nozzle without causing clogging, and the cleaning operation Can be performed sufficiently, and a high-definition image can be obtained.

Moreover , since it can move along the nozzle surface, it can move along the nozzle surface.

In addition , the bristle member can be given an appropriate elastic force and can be prevented from damaging anything that touches the tip of the bristle member. The ink adhering to the nozzle surface can be reliably absorbed, and the ink adhering to the vicinity of the nozzle can be reliably removed. Further, since the contact is made with an appropriate pressure, the nozzles and the recording head are not damaged.

According to the second aspect of the present invention, for example, the pressing member can be used for many years without swelling / dissolving due to adhesion of an ink containing an organic solvent such as a cationic ultraviolet curable ink. Therefore, it is not necessary to frequently replace the pressing member, and it is possible to obtain a high-definition image for many years with an inexpensive configuration while saving the labor of the replacement work.

According to the invention described in claim 3 , even in the case of ink having high viscosity and poor wettability, the ink absorber is securely adhered to the nozzle and absorbed by combining with the means described in claims 1 and 2 . Therefore, for example, a high-definition image can be obtained even when an ink having a high viscosity and poor wettability such as an ultraviolet curable ink is used.

According to the fourth aspect of the present invention, since a new ink absorber that is an unabsorbed portion of the ink can always be contacted without replacement, it is not necessary to frequently replace the ink absorber, and labor for replacement work is reduced. In addition, a high-definition image can be obtained for many years with an inexpensive configuration.

According to the fifth aspect of the present invention, even in the case of ink having high viscosity and poor wettability, the ink can be absorbed firmly by adhering the absorber to the nozzle by combining with the first to fourth aspects. Therefore, a high-definition image can be obtained even when an ink having a high viscosity and poor wettability, such as an ultraviolet curable ink, is used.

According to the invention described in claim 6 , since the ink can be efficiently cured by irradiating with ultraviolet rays, the recording medium is not limited to a recording medium, and even in a recording medium having poor ink absorbability such as a resin film. A high-definition image can be obtained by combining with the means described in claims 1 to 5 .

  Hereinafter, specific embodiments of the present invention will be described with reference to FIGS. However, the scope of the invention is not limited to the illustrated examples, and it is needless to say that various modifications can be made without departing from the scope of the invention.

  FIG. 1 shows an embodiment of an ink jet printer according to the present invention. The ink jet printer according to this embodiment is a serial head type ink jet printer, and includes a printer main body 1 and a support base for supporting the printer main body 1. 2 are provided.

  A bar-shaped guide rail 3 is provided inside the printer main body 1, and a carriage 4 is supported on the guide rail 3. The carriage 4 reciprocates along the guide rail 3 in the main scanning direction A, which is the width direction of the recording medium P, by a carriage driving device (not shown).

  The carriage 4 is mounted with a recording head 5 that ejects ink of each color of yellow (Y), magenta (M), cyan (C), and black (K) on the recording medium P. The head 5 is composed of four recording heads 5 of each color of yellow (Y), magenta (M), cyan (C), and black (K), respectively. The head units 6 and 7 are arranged with their positions shifted in the sub-scanning direction B.

  In addition, a plurality of nozzles 8 (see FIG. 5) for ejecting ink are arranged in the recording head 5 along the sub-scanning direction B, and face the recording medium P on which the nozzles 8 of the recording head 5 are formed. The surface is a nozzle surface 9.

  Here, the ink used in this embodiment will be described. When the ink is cured, the polymerizable compound contained in the ink undergoes a polymerization reaction. In this embodiment, the ink contains an activation energy ray-curable compound as the polymerizable compound, and the activation energy that initiates the polymerization reaction. As an ultraviolet curable ink using ultraviolet rays.

  The ultraviolet curable ink is roughly classified into a radical curable ink containing a radical polymerizable compound and a cation curable ink containing a cationic polymerizable compound as a polymerizable compound. It can be applied as an ink to be used, and a hybrid ink in which a radical curable ink and a cationic curable ink are combined may be applied as an ink used in this embodiment.

  However, since a cationic curable ink that has little or no inhibition of polymerization reaction by oxygen is superior in functionality and versatility, a cationic curable ink is particularly used in the present embodiment. The cation curable ink used in the present embodiment is specifically a mixture containing at least a cation polymerizable compound such as an oxetane compound, an epoxy compound, and a vinyl ether compound, a photo cation initiator, and a coloring material. It has the property of being cured by irradiation with ultraviolet rays.

  The ink according to the present embodiment is a liquid having a viscosity at 23 ° C. of 10 to 50 [mPa · s] and a surface tension of 20 to 40 [mN / m], so-called high viscosity and poor wettability. It is.

  Further, on both sides of the recording head 5 of the carriage 4 in the main scanning direction A, there are provided ultraviolet irradiation devices 10 for irradiating the ink discharged from the nozzles 8 to the recording medium P and curing the ink. Yes.

  One area in which the carriage 4 can move is a recording area for recording on the recording medium P. Below the carriage 4 in the recording area, the recording medium P is formed of a plate-like member. A platen 11 to be supported from the outside is disposed.

  A maintenance unit (not shown) for cleaning the nozzles 8 of the recording head 5 is provided at the outer end of the recording area, which is the movable range of the carriage 4. Here, in the ink jet printer according to the present embodiment, after a predetermined number of times of image recording, the carriage 4 is moved to a predetermined position of the maintenance unit for cleaning.

  Normally, the maintenance unit includes an ink suction device (not shown) that sucks ink from the nozzles 8 of the recording head 5 at a position facing the recording head 5 when the carriage 4 moves to the maintenance unit, and sucks ink. An ink wiping device 12 (see FIG. 2) for wiping off ink remaining on the nozzle surface 9 later is provided. In this embodiment, the ink wiping device 12 wiped ink remaining on the nozzle surface 9. When a meniscus is formed by ejecting ink afterwards, it also serves as an empty ejection tray that receives the ejected ink.

  As shown in FIG. 2, the ink wiping device 12 has a polygonal box-shaped member 13, and an opening 14 is formed at the center of the upper surface of the box-shaped member 13.

  Inside the box-shaped member 13 and at both ends in the sub-scanning direction B, a feed shaft 16 that feeds the ink absorber 15 and a take-up shaft 17 that is rotated by a roll shaft driving device (not shown) and winds up the ink absorber 15. Are arranged, and a long ink absorber 15 is wound around the feed shaft 16. The ink absorber 15 is guided by a plurality of guide rollers 18 so that a part of the ink absorber 15 is exposed from the opening 14, and is wound around the take-up shaft 17, and the ink exposed from the opening 14. The absorber 15 faces the nozzle surface 9 of the recording head 5. An ink absorber moving device 19 is constituted by the aforementioned feed shaft 16, take-up shaft 17, guide roller 18, and roll shaft driving device.

  Further, the width of the ink absorber 15 is at least large enough to cover the entire nozzle surfaces 9 of the plurality of recording heads 5 constituting each head unit 6, 7, that is, in the present embodiment, each head unit 6. , 7 is sized so as to cover all the nozzle surfaces 9 in the main scanning direction A.

  The ink absorber 15 is formed of a high density fiber that is an ultrafine fiber having a fineness of about 0.1 denier, and the high density fiber is any one of polyester, acrylic, nylon, or the like. It is comprised with the material which combined. In this way, the ink absorber 15 is made of high-density fiber and easily adsorbs the material that contacts the surface thereof, so that the ink adhering to the nozzle surface 9 of the recording head 5 can be quickly removed regardless of the viscosity or wettability of the ink. Can be absorbed. That is, the ink absorber 15 in the present embodiment is, for example, an ultraviolet curable ink, a nozzle having a high viscosity and poor wettability than a commonly used ink such as an oil-based or solvent-based ink. Ink adhering to the surface 9 can be reliably absorbed.

  A support table 20 is provided between the feed shaft 16 and the take-up shaft 17 and below the ink absorber 15. Both ends of the box-shaped member 13 are provided at both ends of the lower end of the support table 20. A support shaft 21 that is rotatably supported on the surface is attached. Above the both side surfaces of the box-shaped member 13, as shown in FIG. 4, the central portion corresponding to the recording head 5 extends in the horizontal direction so as to be substantially parallel to the nozzle surface 9 of the recording head 5, and A guide hole 22 having a shape in which both ends are bent downward is formed. Note that both end portions of the guide hole 22 are set as a retreat area C, and are described later when the ink wiping device 12 is not operated or when the carriage 4 is moved while the ink wiping device is operated. This is a region in which the member 23 is waiting, and the tip of the recording head does not directly contact the pressing member 23 when the carriage 4 is moved.

  Further, as shown in FIG. 2, a pressing member 23 is attached to the upper end portion of the support base 20 so as to be movable up and down, and a guide shaft engaged with the guide hole 22 is located above both sides of the pressing member 23. 24 is attached. Then, by swinging the support base 20 by a support base drive device (not shown), the pressing member 23 is swung along with the swinging motion of the support base 20, and the guide shaft 24 of the pressing member 23 is moved into the guide hole. 22, the pressing member 23 is moved along the sub-scanning direction B on the back surface of the ink absorber 15 while moving upward and downward with respect to the support base 20. In the present embodiment, the support base moving device 25 is configured by the support base 20, the support shaft 21, the guide hole 22, the guide shaft 24, and the support base driving device.

  In the present embodiment, as shown in FIGS. 2 and 3, the pressing member 23 is formed in a brush shape in which a plurality of bristle members 27 are densely planted on a base 26. The bristle member 27 has a cross-sectional thickness of 1 mm or less so that the bristle member 27 has an appropriate elastic effect. Further, the tip of the bristle member 27 has a curved surface or a spherical shape as shown in FIGS. 5A and 5B, and the tip is a contact portion 28. This prevents the contact portion 28 from touching or being damaged.

  As shown in FIG. 3, convex portions 29 for protecting the nozzles 8 are formed on both side edges of the nozzle surface 9 of the recording head 5 of the present embodiment. In the present embodiment, since the pressing member 23 is formed by the bristle member 27, the contact portion 28 has elasticity, and as a result, the contact portion 28 contacts the convex portion 29 of the recording head 5. Even in the case of contact, the bristle member 17 is bent and the contact portion 28 corresponding to the nozzle surface 9 can be properly contacted with the nozzle surface 9, and the ink absorber 15 can be brought into close contact with the nozzle surface 9. It is like that. Note that it is preferable to form a large number of bristle members because the ink absorber 15 can be more easily adhered to the nozzle surface 9.

  The width dimension of the pressing member 23 is at least equal to or greater than the width dimension of the ink absorber 15.

  The pressing member 23 is made of any one material selected from polypropylene, polyethylene, 4-fluorinated ethylene, and 4,6-fluorinated propylene. The pressing member 23 using such a material swells and dissolves even when ink containing an organic solvent such as a cationic ultraviolet curable ink adheres to the pressing member 23 when it is brought into contact with the nozzle surface 9. Can be used for many years without.

  Such a pressing member 23 can uniformly press the ink absorber 15 against the plurality of nozzle surfaces 9 of the recording head 5 with an appropriate pressure, and also swings the support base 20. By causing the pressing member 23 to reciprocate once in the sub-scanning direction B, the ink absorbing member 15 can be brought into contact with the entire area of the nozzle surface 9 by the pressing member 23.

  In addition, an ink tank 30 that supplies ink of each color to the carriage 4 via an ink supply path (not shown) is provided at the other outer end of the recording area, which is a movable range of the carriage 4.

  As the recording medium P used in the present embodiment, various papers such as plain paper, recycled paper and glossy paper, various fabrics, various non-woven fabrics, resin, metal, glass, etc., which are applied to ordinary inkjet printers. Can be applied. Moreover, as a form of the recording medium P, a roll shape, a cut sheet shape, a plate shape, or the like is applicable.

  Furthermore, as the recording medium P used in the present embodiment, various known papers whose surfaces are coated with a resin, films containing pigments, foamed films, and other known opaque recording media can be applied.

  Next, the operation of this embodiment will be described.

  When predetermined image information is sent to the inkjet printer and the recording medium P is conveyed to a predetermined position of the carriage 4 in the image recording area, the carriage 4 is reciprocated along the guide rail 3 directly above the recording medium P.

  During the movement of the carriage 4, the recording head 5 is operated based on the image information, ink is ejected from each nozzle 8 toward the recording medium P, and ultraviolet rays are emitted from the ultraviolet irradiation device 10 toward the recording medium P. Irradiate to cure the ink. At this time, each head unit 6, 7 is configured by ultraviolet rays irradiated from the ultraviolet irradiation device 10 on the downstream side of the recording head 5 constituting each head unit 6, 7 in the moving direction of the carriage 4. The ink ejected from the recording head 5 is quickly cured and fixed on the recording medium P.

  Thereafter, an image is formed on the recording medium P by the ink jet printer repeating the above operations.

  When a predetermined number of image recording operations are performed, the carriage 4 is moved to a predetermined position of the maintenance unit for cleaning.

  Specifically, the carriage 4 is moved to the ink suction device, the ink suction device is operated, and the ink remaining in the nozzle 8 is sucked. Thereafter, the carriage 4 is moved to the ink wiping device 12, the ink wiping device 12 is operated, and the ink adhering to the nozzle surface 9 is absorbed by the ink absorber 15.

  That is, when the nozzle surface 9 of the recording head 5 constituting the head unit 6 is moved to a position facing the ink absorber 15, the support moving device 25 is operated to retract the pressing member as shown in FIG. It is moved along the guide hole 22 from the position. Then, at a position where the nozzle surface 9 of the recording head 5 and the pressing member 23 face each other, the ink absorber 15 is brought into close contact with one end portion of the nozzle surface 9 via the pressing member 23 as shown in FIG. . In this way, the ink adhering to the nozzle surface 9 is absorbed by the ink absorber 15 at a position facing the nozzle surface 9 of the recording head 5 by reciprocating the pressing member 23 along the guide hole 22. At this time, the pressing member 23 makes the contact portion 28 of the bristle member 27 contact the nozzle surface 9, so that the contact portion 28 can properly contact the nozzle surface 9 of the recording head 5. The ink absorber 15 can be brought into close contact with the nozzle surface 9. Further, since the abutting portion 28 of the pressing member 23 has an elastic force, even when the abutting portion 28 abuts on the convex portion 29 of the recording head 5, the abutting portion that abuts on the convex portion 29 of the recording head 5. The ink absorber 15 can be properly brought into close contact with the nozzle surface 9 through the abutting portion 28 corresponding to the nozzle surface 9 by bending.

  Further, since the pressing member 23 has elasticity, the pressing member 23 is not brought into contact with the nozzle surface 9 with an excessive force, and the nozzle 8 or the nozzle surface 9 can be prevented from being damaged.

  At this time, since the tip of the brush 27 is spherical, it does not penetrate the ink absorber 15 and does not damage the nozzle 8 or the recording head 5.

  Thereafter, the pressing member 23 is put on standby at the retracted position C to separate the ink absorber 15 from the nozzle surface 9 of the recording head 5, and in this state, the roll shaft driving device is operated to wind up the ink absorber 15. The shaft 17 is wound and the ink non-absorbing portion of the ink absorber 15 is exposed from the opening 14.

  Subsequently, the carriage 4 is moved by the width of the head unit 6 according to the position of the ink absorber 15, and the cleaning operation by the ink wiping device 12 is performed on the head unit 7. In this way, a series of cleaning operations in the ink wiping device 12 is completed by repeating the operation of sequentially moving the pressing member 23, the ink absorber 15 and the carriage 4 for each of the head units 6 and 7. The ink on the nozzle surface 9 is surely removed.

  Thereafter, ink is ejected idle to form a meniscus. Then, the pressing member 23 is made to stand by at the retracted position C, the ink absorber 15 and the nozzle surface 9 of the recording head 5 are separated, and in this state, the roll shaft driving device is operated to wind up the ink absorber 15. The shaft 17 is wound and the ink non-absorbing portion of the ink absorber 15 is exposed from the opening 14.

  When a series of cleanings in the maintenance unit is completed in this way, the carriage 4 returns to the recording area again and image recording is resumed.

  As described above, in the ink jet printer according to this embodiment, the pressing member 23 provided with the brush 27 is moved while being in close contact with the nozzle surface 9 via the ink absorber 15, so that the ink having high viscosity and poor wettability is used. In this case, the ink on the nozzle surface 9 can be absorbed by the ink absorber 15 and the ink adhering to the vicinity of the nozzle 8 can be surely removed, and the recording head 5 can be wiped off. A high-definition image can be obtained without being adversely affected by the ink adhering to the nozzle surface 9.

  Further, when the pressing member itself is formed in a brush shape, when the different recording heads 5 are arranged on the carriage 4, the pressing member 23 is brought into close contact with the unevenness and the stopping accuracy of the recording head 5 is poor. Even in such a case, it is possible to reliably remove the ink adhering to the nozzle surface 9 without requiring an advanced control configuration, and to fix the ink in the vicinity of the nozzle 8 without causing clogging and a cleaning operation. Can be performed sufficiently, and a high-definition image can be obtained.

  Further, since it is possible to perform the idle ejection on the ink absorber 15, it is not necessary to newly provide a receiving tray or the like for performing the idle ejection, so that the number of members can be reduced, and the size and cost of the inkjet can be reduced. be able to.

  Further, in the present embodiment, the pressing member 23 uses the base 26 as shown in FIG. 3, but as shown in FIG. 7A, one end of the base 26 is thinner than the other end. In addition to forming an inclination and correspondingly increasing the length of the bristle member 27, it is formed so as not to change the thickness of the pressing member 23 as a whole, or FIG. As shown, the base 26 may have a V-shaped slope so that the thickness of the central portion is thinner than both ends. In this way, by inclining the base 26 of the pressing member 23, it is possible to make it easy to discharge ink even if it drops on the base 26.

  In the present embodiment, the ink absorber 15 is pressed by one pressing member 23 having a length corresponding to the entire nozzle surface 9 of the head units 6 and 7 in the main scanning direction A. Although cleaning is performed for each head unit 6, 7, the nozzle surface 9 of each recording head 5 is provided by providing a plurality of pressing members 23 having a length corresponding to the nozzle surface 9 for each recording head 5. The ink absorber 15 may be in close contact with the ink.

  In this embodiment, the serial type recording head 5 is used, but the present invention can also be applied to a line type recording head 5. In that case, the arrangement direction when the ink wiping device 12 is arranged in the printer main body 1 may be changed, and if the direction in which the nozzle rows are formed is parallel to the longitudinal direction of the ink absorber 15. Good.

  In the present embodiment, the moving direction of the pressing member 23 is the sub-scanning direction B, which is the direction in which the nozzle rows are formed. However, as shown in FIG. It is also possible to cause the ink absorber 15 to absorb the ink by moving the pressing member 23 also in the main scanning direction A and the direction that obliquely intersects the ink absorber 15.

  In this embodiment, a support base driving device is provided and the pressing member 23 is reciprocated to absorb the ink in the ink absorber 15. However, the support base driving device is not provided and the ink absorber is driven. By always operating the apparatus, the ink absorber 15 absorbs ink by moving the pressing member 23 that is in contact with the back surface of the ink absorber 15 as the ink absorber 15 is taken up. Also good.

FIG. 1 is a perspective view showing an embodiment of an ink jet printer according to the present invention. FIG. 2 is a perspective view of the ink wiping device in the ink jet printer shown in FIG. FIG. 3 is a front view showing a part of the ink wiping device when the carriage is moved to the ink wiping device shown in FIG. 2. FIG. 4 is a front view showing a part of the ink wiping device representing the operation of the pressing member. Fig.5 (a) is a perspective view of the pressing member whose front-end | tip of a bristle member is curved shape, FIG.5 (b) is a perspective view of the pressing member whose front-end | tip of a bristle member is spherical. FIG. 6 is a front view showing a part of the ink wiping device when the ink absorber is brought into contact with the nozzle surface by the pressing member. FIG. 7A is a front view of the pressing member 23 composed of the inclined base 26, and FIG. 7B shows that the thickness of the central portion of the base 26 is thinner than both ends. It is a front view of the pressing member 23 comprised from the V-shaped base 26 which exists. FIG. 8 is a perspective view of the ink wiping device showing the moving direction of the pressing member with respect to the ink absorber.

Explanation of symbols

DESCRIPTION OF SYMBOLS 5 Recording head 8 Nozzle 9 Nozzle surface 12 Ink wiping apparatus 15 Ink absorber 16 Feeding shaft 17 Winding shaft 19 Ink absorber moving apparatus 23 Pressing member 26 Base 27 Hair member

Claims (6)

In an inkjet printer comprising a recording head provided with a plurality of nozzles for ejecting ink, and an ink wiping device for removing the ink adhering to the nozzle surface of the nozzle,
The ink wiping device includes an ink absorber moving device that moves an ink absorber, and a pressing member that is configured to be movable along the nozzle surface and that brings the surface of the ink absorber into contact with the nozzle surface,
The pressing member is formed in a brush shape comprising a base and a plurality of bristle members planted on the base ,
The bristle member has a cross-sectional thickness of 1 mm or less, and the bristle member has a curved or spherical tip .   The in-jet printer according to claim 1, wherein the pressing member is made of any one material selected from polypropylene, polyethylene, 4-fluorinated ethylene, and 4,6-fluorinated propylene. The ink absorber is a high-density fiber woven with a fineness of 0.1 denier, and the high-density fiber is formed of a material of any one of polyester, acrylic, nylon, or a combination thereof. the ink jet printer according to claim 1 or 2, characterized in that there. The ink absorber has a sheet shape wound around a feed shaft and a take-up shaft, and the ink absorber fed from the feed shaft is taken up by the take-up shaft. Item 4. The inkjet printer according to any one of Items 1 to 3 . The ink has a viscosity of 23 ° C. is 10 to 50 at [mPa · s], according to any one of claims 1 to 4, wherein the surface tension of 20~40 [mN / m] Inkjet printer. The ink includes an activation energy ray-curable compound, an ink jet printer according to any one of claims 1 to 5, characterized in that the activation energy is ultraviolet.

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