JP2021062482A - Inkjet printer and inkjet printer assembling method - Google Patents

Abstract

To provide an inkjet printer equipped with an ultraviolet irradiator that can reciprocate in a sub scanning direction with respect to a carriage, which can be reduced in weight by simplifying a structure in which an ultraviolet irradiation unit having the ultraviolet irradiator is mounted on the carriage.SOLUTION: In the inkjet printer, ultraviolet irradiation units 11 each comprise: an irradiator holding members 15 that holds ultraviolet irradiators 10; an irradiator driving mechanism 16 that reciprocates the irradiator holding members 15 in a sub scanning direction; a plurality of guide shafts 17 that guide the irradiator holding members 15 in the sub scanning direction; and a shaft holding member 18 that holds both end parts of the guide shafts 17. In the inkjet printer, only one end-side portion of the shaft holding member 18 in a main scanning direction is fixed to an end part of a carriage 4 in the main scanning direction, and the ultraviolet irradiation units 11 are supported by the carriage 4 in a cantilever manner in the main scanning direction.SELECTED DRAWING: Figure 2

Description

The present invention relates to an inkjet printer including an inkjet head that ejects ultraviolet curable ink. The present invention also relates to a method for assembling such an inkjet printer.

Conventionally, an inkjet printer that prints on a print medium is known (see, for example, Patent Document 1). The inkjet printer described in Patent Document 1 includes a print head that ejects ultraviolet curable ink and a carriage on which the print head is mounted. The carriage can be reciprocated in the left-right direction (main scanning direction). Further, the inkjet printer described in Patent Document 1 includes a UVLED unit having a UVLED that irradiates ink ejected from a print head with ultraviolet rays, and a front-rear drive device that reciprocates the UVLED unit in the front-rear direction (secondary scanning direction). I have. The UVLED unit includes a rack attached to the upper surface and covers forming front, rear, left, and right side surfaces, and the UVLED is arranged in a space surrounded by the rack and the cover.

In the inkjet printer described in Patent Document 1, the UV LED unit and the front-rear drive device are attached to a carriage. The carriage is formed with a guide groove for guiding the UV LED unit in the front-rear direction. The UVLED unit can reciprocate in the front-rear direction with respect to the carriage along the guide groove. That is, the UV LED can reciprocate in the front-rear direction with respect to the carriage along the guide groove. In the inkjet printer described in Patent Document 1, the UV LED unit is moved in the front-rear direction according to the viscosity of the ink ejected from the print head.

Japanese Patent No. 50996972

In the inkjet printer described in Patent Document 1, the UVLED unit can reciprocate in the front-rear direction with respect to the carriage along the guide groove formed in the carriage. However, in the inkjet printer described in Patent Document 1, it is not clear how the UV LED unit that can reciprocate in the front-rear direction with respect to the carriage is held in the carriage. That is, Patent Document 1 does not disclose a specific mounting structure of the UVLED unit on the carriage.

Therefore, an object of the present invention is to simplify the mounting structure of an ultraviolet irradiation unit having an ultraviolet irradiator on the carriage in an inkjet printer provided with an ultraviolet irradiator that can reciprocate in the sub-scanning direction with respect to the carriage. The purpose is to propose an inkjet printer that can reduce the weight. Another object of the present invention is to propose a method for assembling such an inkjet printer.

In order to solve the above problems, the inkjet printer of the present invention includes an inkjet head that ejects ultraviolet curable ink, a carriage on which the inkjet head is mounted, and a carriage drive mechanism that reciprocates the carriage in the main scanning direction. An ultraviolet irradiation unit having an ultraviolet irradiation device that cures the ink by irradiating the ink ejected from the inkjet head with ultraviolet rays is provided, and the ultraviolet irradiation unit includes an irradiation device holding member that holds the ultraviolet irradiation device and a main scanning direction. Holds an irradiator drive mechanism that reciprocates the irradiator holding member in the sub-scanning direction orthogonal to the vertical direction, a plurality of guide shafts that guide the irradiator holding member in the sub-scanning direction, and both ends of the guide shafts. A shaft holding member is provided, and only one end side portion of the shaft holding member in the main scanning direction is fixed to the end portion of the carriage in the main scanning direction, and the ultraviolet irradiation unit is cantilevered and supported by the carriage in the main scanning direction. It is characterized by being.

In the inkjet printer of the present invention, only one end side portion of the shaft holding member that holds both ends of the guide shaft in the main scanning direction is fixed to the end portion of the carriage in the main scanning direction, and the ultraviolet irradiation unit is mainly used. It is cantilevered by the carriage in the scanning direction. Therefore, in the present invention, it is possible to simplify the mounting structure of the ultraviolet irradiation unit to the carriage and reduce the weight as compared with the case where the ultraviolet irradiation unit is supported by both sides of the carriage in the main scanning direction.

In the present invention, for example, a plurality of guide shafts are arranged in parallel with the sub-scanning direction, and the shaft holding member has a first fixing member to which one end of the guide shaft is fixed and the other end of the guide shaft is fixed. The second fixing member is provided, and the first fixing member and the third fixing member to which the second fixing member is fixed are provided, and the third fixing member is fixed to the end of the carriage in the main scanning direction.

In the present invention, for example, the third fixing member is formed in a flat plate shape and is fixed to the carriage in a state where the thickness direction and the main scanning direction of the third fixing member coincide with each other, and the first fixing member is fixed in the main scanning direction. Only one end side portion of the member is fixed to the third fixing member, and only one end side portion of the second fixing member in the main scanning direction is fixed to the third fixing member.

In the present invention, the plurality of guide shafts are arranged at intervals in the main scanning direction, and the first fixing member and the second fixing member are arranged at a plurality of fixing points arranged at intervals in the vertical direction. It is preferably fixed to the third fixing member. With this configuration, it is possible to stabilize the fixed state of the first fixing member to the third fixing member and the fixed state of the second fixing member to the third fixing member.

In the present invention, it is preferable that the carriage includes a metal base member to which the inkjet head is fixed, and the shaft holding member is fixed to the base member. That is, in the present invention, it is preferable that the shaft holding member is fixed to a metal base member having high strength and rigidity. In this case, for example, the base member is made of die-cast aluminum. With this configuration, even if a relatively heavy ultraviolet irradiation unit is fixed to the end of the carriage in the main scanning direction, it is possible to prevent the carriage from being deformed. Further, with this configuration, even if the ultraviolet irradiation unit is cantilevered by the carriage in the main scanning direction, it is possible to suppress the vibration of the ultraviolet irradiation unit when the carriage moves in the main scanning direction.

The inkjet printer of the present invention has a fixing plate in which one end side portion of the first fixing member in the main scanning direction and one end side portion of the second fixing member in the main scanning direction are fixed, and a plurality of fixing plates fixed to the fixing plate. Using an assembly jig provided with a guide support member that supports the guide shaft from below, the first fixing member and the second fixing member are fixed to the fixing plate with screws, and a plurality of pieces supported by the guide support member. An irradiator holding member that fixes the guide shaft of the book to the first fixing member and the second fixing member and holds the ultraviolet irradiator so that the guide shafts can be moved in the sub-scanning direction with respect to the plurality of guide shafts. After the first assembly step of attaching to a plurality of guide shafts, the second assembly step of fixing the third fixing member to the carriage, and the first assembly step and the second assembly step, the first fixing member and the second fixing member are attached. It can be assembled by an assembly method including a third assembly step of removing from the fixing plate and fixing to a third fixing member fixed to the carriage in the second assembly step. In this case, it is possible to adjust the spacing and parallelism of the plurality of guide shafts before fixing the first fixing member and the second fixing member to the third fixing member.

As described above, in the present invention, in the inkjet printer provided with the ultraviolet irradiator capable of reciprocating in the sub-scanning direction with respect to the carriage, the mounting structure of the ultraviolet irradiation unit having the ultraviolet irradiator on the carriage is simplified. It becomes possible to reduce the weight. Further, in the method of assembling the inkjet printer of the present invention, it is possible to adjust the spacing and parallelism of a plurality of guide shafts before fixing the first fixing member and the second fixing member to the third fixing member. Become.

It is a perspective view of the inkjet printer which concerns on embodiment of this invention. It is a perspective view of the carriage and the like shown in FIG. It is a plan view of the carriage and the like shown in FIG. It is a perspective view of a part of the ultraviolet irradiation unit shown in FIG. It is a front view of a part of the carriage shown in FIG. 2 and the ultraviolet irradiation unit. It is a front view for demonstrating the assembling method of the ultraviolet irradiation unit shown in FIG. It is a front view for demonstrating the fixing method of the 1st fixing member and the 2nd fixing member which concerns on other Embodiments of this invention. It is a front view for demonstrating the structure of the 1st fixing member and the 2nd fixing member which concerns on other Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Outline configuration of inkjet printer)
FIG. 1 is a perspective view of the inkjet printer 1 according to the embodiment of the present invention. FIG. 2 is a perspective view of the carriage 4 and the like shown in FIG. FIG. 3 is a plan view of the carriage 4 and the like shown in FIG.

The inkjet printer 1 of this embodiment (hereinafter referred to as "printer 1") is a commercial inkjet printer for printing on a printing medium such as printing paper. Further, the printer 1 of this embodiment is a so-called flatbed type inkjet printer. The printer 1 includes an inkjet head 3 (hereinafter, referred to as “head 3”) that ejects ultraviolet curable ink (UV ink), and a carriage 4 on which the head 3 is mounted. The printer 1 of this embodiment includes a plurality of heads 3, and the plurality of heads 3 are mounted on the carriage 4. Specifically, 12 heads 3 are mounted on the carriage 4.

Further, the printer 1 reciprocates the carriage 4 in the main scanning direction with respect to the Y bar 5 holding the carriage 4 so that the carriage 4 can be moved in the main scanning direction (Y direction in FIG. 1 and the like). The carriage drive mechanism 6 to be moved, the table 7 on which the print medium is placed, and the sub-scanning direction (X direction in FIG. 1 etc.) orthogonal to the main scanning direction and the vertical direction (vertical direction, Z direction in FIG. 1 etc.) ) Is provided with a slide mechanism for sliding the Y bar 5 with respect to the table 7.

In the following description, the main scanning direction is the left-right direction, and the sub-scanning direction is the front-back direction. Further, the Y1 direction side of FIG. 1, which is one side in the left-right direction, is the "right" side, and the Y2 direction side of FIG. 1, which is the opposite side of the right side, is the "left" side, which is one side in the front-rear direction. The X1 direction side of FIG. 1 and the like is the "front" side, and the X2 direction side of FIG. 1 and the like, which is the opposite side of the front side, is the "rear" side.

The carriage drive mechanism 6 includes, for example, a motor, a drive pulley that is rotated by the power of the motor, a driven pulley, and a belt that is bridged between the drive pulley and the driven pulley. A part of the belt is fixed to the carriage 4. The Y bar 5 is formed in a rectangular parallelepiped shape elongated in the left-right direction. A guide rail 8 for guiding the carriage 4 in the left-right direction is fixed to the front surface of the Y bar 5. The slide mechanism includes, for example, a motor and a ball screw.

The carriage 4 is arranged above the table 7. The head 3 ejects ink from above toward the print medium placed on the upper surface of the table 7. The carriage 4 includes a metal base member (head base) 9 to which 12 heads 3 are fixed. The base member 9 of this embodiment is formed of die-cast aluminum. The base member 9 is formed as a flat rectangular parallelepiped having a thin vertical thickness as a whole. The shape of the base member 9 when viewed from the vertical direction is substantially rectangular, and the long sides of the base member 9 which is substantially rectangular when viewed from the vertical direction are arranged parallel to the horizontal direction. ing. The base member 9 constitutes the lower end of the carriage 4. A plurality of recesses for lightening are formed on the upper surface of the base member 9.

As described above, the carriage 4 is equipped with 12 heads 3. The 12 heads 3 are fixed to the base member 9. In this embodiment, as shown in FIG. 3, two heads 3 arranged at a constant interval in the front-rear direction and at the same position in the left-right direction are arranged at a constant interval in the left-right direction. It is arranged in 6 places in the state. Of the two heads 3 arranged at the six locations, the two heads 3 arranged at the three locations and the two heads 3 arranged at the remaining three locations are displaced in the front-rear direction. Is located in. In the present embodiment, of the 12 heads 3, the three heads 3 arranged on the front side eject white ink, and the remaining nine heads 3 eject color ink.

Further, the printer 1 includes an ultraviolet irradiation unit 11 having an ultraviolet irradiator 10 for curing the ink by irradiating the ink ejected from the head 3 with ultraviolet rays. The printer 1 of this embodiment includes two ultraviolet irradiation units 11. Hereinafter, the configuration of the ultraviolet irradiation unit 11 will be described.

(Structure of UV irradiation unit)
FIG. 4 is a perspective view of a part of the ultraviolet irradiation unit 11A shown in FIG. FIG. 5 is a front view of a part of the carriage 4 shown in FIG. 2 and the ultraviolet irradiation unit 11A.

One of the two ultraviolet irradiation units 11 is attached to the left end of the carriage 4, and the other ultraviolet irradiation unit 11 is attached to the right end of the carriage 4. In the following description, when the two ultraviolet irradiation units 11 are distinguished from each other, the ultraviolet irradiation unit 11 attached to the left end of the carriage 4 is referred to as an "ultraviolet irradiation unit 11A", and the ultraviolet rays attached to the right end of the carriage 4 are used. The irradiation unit 11 is referred to as an "ultraviolet irradiation unit 11B".

The ultraviolet irradiation unit 11A guides the irradiator holding member 15 that holds the ultraviolet irradiator 10, the irradiator driving mechanism 16 that reciprocates the irradiator holding member 15 in the front-rear direction, and the irradiator holding member 15 in the front-rear direction. It includes two guide shafts 17 and a shaft holding member 18 for holding both ends of the two guide shafts 17. Further, the ultraviolet irradiation unit 11A includes a detection mechanism (not shown) for detecting the origin position of the irradiator holding member 15 in the front-rear direction. The ultraviolet irradiator 10 is composed of, for example, a plurality of UV LED chips. The ultraviolet irradiator 10 is fixed to the lower end of the irradiator holding member 15 and irradiates ultraviolet rays downward.

As shown in FIG. 4, the irradiator drive mechanism 16 includes a motor 20, a pinion (gear) 21 fixed to an output shaft of the motor 20, and a rack 22 that meshes with the pinion 21. The motor 20 is fixed to the shaft holding member 18 (specifically, the base plate 28 described later) via the bracket 23. The motor 20 is arranged above the irradiator holding member 15. Further, the motor 22 is arranged behind the center position of the ultraviolet irradiation unit 11A in the front-rear direction, and is arranged at a position closer to the Y bar 5 than the center position of the ultraviolet irradiation unit 11A in the front-rear direction. The rack 22 is fixed to the upper surface of the irradiator holding member 15.

The guide shaft 17 is formed in an elongated columnar shape. The guide shaft 17 is arranged parallel to the front-rear direction. The two guide shafts 17 are arranged so as to be spaced apart from each other in the left-right direction. Further, the two guide shafts 17 are arranged at the same height in the vertical direction. A guide bush (not shown) through which the guide shaft 17 is inserted is attached to the irradiator holding member 15, and the guide shaft 17 is inserted through the guide bush.

The shaft holding member 18 includes a side plate 26 as a first fixing member to which the front end portion of the guide shaft 17 is fixed, a side plate 27 as a second fixing member to which the rear end portion of the guide shaft 17 is fixed, and a side plate 26. It includes a base plate 28 as a third fixing member to which the 27 is fixed. Further, the shaft holding member 18 includes two connecting members 29 that connect the side plate 26 and the side plate 27. The side plates 26 and 27 are formed by bending a thin metal plate such as a steel plate into a predetermined shape. As shown in FIG. 4, the side plate 26 includes a shaft fixing portion 26a to which the front end portion of the guide shaft 17 is fixed, and a fixed portion 26b fixed to the base plate 28. The side plate 27 includes a shaft fixing portion 27a to which the rear end portion of the guide shaft 17 is fixed, and a fixed portion 27b fixed to the base plate 28.

The shaft fixing portions 26a and 27a are formed in a rectangular flat plate shape. The shaft fixing portions 26a and 27a are arranged so that the thickness direction and the front-rear direction of the shaft fixing portions 26a and 27a coincide with each other. The fixed portion 26b is connected to the right end of the shaft fixing portion 26a. The fixed portion 27b is connected to the right end of the shaft fixing portion 27a. The fixed portions 26b and 27b are arranged so that the thickness direction and the left-right direction of the fixed portions 26b and 27b coincide with each other. The fixed portion 26b constitutes the right end portion of the side plate 26, and the fixed portion 27b constitutes the right end portion of the side plate 27.

The two guide shafts 17 are fixed to the lower ends of the shaft fixing portions 26a and 27a. The fixed positions of the two guide shafts 17 on the shaft fixing portions 26a and 27a in the vertical and horizontal directions can be finely adjusted. The connecting member 29 is formed by bending a thin metal plate such as a steel plate into an L shape. The connecting member 29 connects the upper end portion of the side plate 26 and the upper end portion of the side plate 27. The two connecting members 29 are arranged so as to be spaced apart from each other in the left-right direction. The connecting member 29 is a reinforcing member for ensuring the strength of the shaft holding member 18. The two guide shafts 17 also function to secure the strength of the shaft holding member 18.

The base plate 28 is made of metal. The base plate 28 is formed of, for example, aluminum die-cast. Further, the base plate 28 is formed in a substantially rectangular flat plate shape. The base plate 28 is arranged so that the thickness direction and the left-right direction of the base plate 28 coincide with each other. The fixed portion 26b of the side plate 26 and the fixed portion 27b of the side plate 27 are fixed to the base plate 28. That is, only the right end side portion of the side plate 26 is fixed to the base plate 28, and only the right end side portion of the side plate 27 is fixed to the base plate 28.

The fixed portion 26b is fixed to the base plate 28 by two screws 30 arranged at intervals in the vertical direction. Similarly, the fixed portion 27b is fixed to the base plate 28 by two screws 30 arranged at intervals in the vertical direction. That is, the side plates 26 and 27 are fixed to the base plate 28 at two fixing points arranged in a vertically spaced state. The two screws 30 are arranged at the same position in the front-rear direction. The right side surfaces of the fixed portions 26b and 27b are in contact with the left side surface of the base plate 28.

In this embodiment, only the right end side portion of the shaft holding member 18 is fixed to the left end portion of the carriage 4, and the ultraviolet irradiation unit 11A is cantilevered and supported by the carriage 4 in the left-right direction. Specifically, the base plate 28 forming a part of the shaft holding member 18 is fixed to the left end portion of the carriage 4. That is, the base plate 28 is fixed to the left end portion of the carriage 4 in a state where the thickness direction and the left-right direction of the base plate 28 coincide with each other. More specifically, the base plate 28 is fixed to the left end portion of the base member 9. Further, the lower end portion of the base plate 28 is fixed to the left end portion of the base member 9 with a screw. In this embodiment, the rear end portion of the base plate 28 is also fixed to the back surface member 32 of the carriage 4 that rises upward from the rear end of the base member 9. However, the base plate 28 may be fixed only to the base member 9.

The configuration of the ultraviolet irradiation unit 11B is symmetrical with the configuration of the ultraviolet irradiation unit 11A. Therefore, the description of the specific configuration of the ultraviolet irradiation unit 11B will be omitted. In the ultraviolet irradiation unit 11B, only the left end side portion of the side plate 26 is fixed to the base plate 28, and only the left end side portion of the side plate 27 is fixed. Further, only the left end side portion of the shaft holding member 18 of the ultraviolet irradiation unit 11B is fixed to the right end portion of the carriage 4, and the ultraviolet irradiation unit 11B is cantilevered by the carriage 4 in the left-right direction.

Specifically, the base plate 28 of the ultraviolet irradiation unit 11B is fixed to the right end of the carriage 4. That is, the base plate 28 of the ultraviolet irradiation unit 11B is fixed to the right end portion of the carriage 4 in a state where the thickness direction and the left-right direction of the base plate 28 coincide with each other. Further, the base plate 28 of the ultraviolet irradiation unit 11B is fixed to the right end portion of the base member 9. Further, the lower end portion of the base plate 28 of the ultraviolet irradiation unit 11B is fixed to the right end portion of the base member 9 with a screw.

In this embodiment, for example, when the white ink is ejected from the three heads 3 arranged on the front side, the ultraviolet irradiator 10 of the ultraviolet irradiation units 11A and 11B moves to the front side together with the irradiator holding member 15. .. Further, when the color ink is ejected from the other head 3, the ultraviolet irradiator 10 of the ultraviolet irradiation units 11A and 11B moves to the rear side together with the irradiator holding member 15.

(Assembly method of UV irradiation unit)
FIG. 6 is a front view for explaining an assembly method of the ultraviolet irradiation unit 11A shown in FIG.

When assembling the ultraviolet irradiation unit 11A, a fixing plate 41 in which the right end side portions of the side plates 26 and 27 are fixed, and a guide support member 42 fixed to the fixing plate 41 and supporting the two guide shafts 17 from below. Assembling jig 43 is used. A plurality of guide support members 42 arranged at intervals in the front-rear direction are fixed to the fixing plate 41. Further, using the assembly jig 43, the side plates 26 and 27 are fixed to the fixing plate 41 with screws 30 (specifically, the fixed portions 26b and 27b are fixed to the fixing plate 41), and the guide is supported. Irradiation that fixes the two guide shafts 17 supported by the member 42 to the side plates 26 and 27 and holds the ultraviolet irradiator 10 so that the two guide shafts 17 can move in the front-rear direction. The vessel holding member 15 is attached to the two guide shafts 17 (first assembly step).

In the first assembly step, the connecting member 29 is fixed to the side plates 26 and 27. Further, in the first assembly step, the distance, parallelism, height, etc. of the two guide shafts 17 are adjusted. Further, the base plate 28 is fixed to the left end portion of the carriage 4 (second assembly step). Further, after the first assembly step and the second assembly step, the screws 30 are removed, and the side plates 26 and 27 to which the guide shaft 17 and the connecting member 29 and the like are attached are removed from the fixing plate 41, and the second assembly step is performed. The side plates 26 and 27 are fixed to the base plate 28 fixed to the carriage 4 (third assembly step). After that, the irradiator drive mechanism 16 is attached.

Similarly, when assembling the ultraviolet irradiation unit 11B, a fixing plate 41 in which the left end side portions of the side plates 26 and 27 are fixed, and a guide support that is fixed to the fixing plate 41 and supports the two guide shafts 17 from below. Using the assembly jig 43 provided with the member 42, the first assembly step and the second assembly step are performed. Further, after the first assembly step and the second assembly step, the third assembly step is performed, and then the irradiator drive mechanism 16 is attached.

(Main effect of this form)
As described above, in the present embodiment, only the right end side portion of the shaft holding member 18 of the ultraviolet irradiation unit 11A is fixed to the left end portion of the carriage 4, and only the left end side portion of the shaft holding member 18 of the ultraviolet irradiation unit 11B. Is fixed to the right end of the carriage 4, and the ultraviolet irradiation units 11A and 11B are cantilevered and supported by the carriage 4 in the left-right direction. Therefore, in the present embodiment, the mounting structure of the ultraviolet irradiation units 11A and 11B to the carriage 4 is simplified and reduced in weight as compared with the case where the ultraviolet irradiation units 11A and 11B are supported by the carriage 4 in the left-right direction. It becomes possible to do.

In this embodiment, the shaft holding member 18 is fixed to a metal base member 9 having high strength and rigidity. Therefore, in the present embodiment, even if the relatively heavy ultraviolet irradiation unit 11 is fixed to both ends of the carriage 4 in the left-right direction, it is possible to prevent the carriage 4 from being deformed. Further, in the present embodiment, even if the ultraviolet irradiation unit 11 is cantilevered by the carriage 4 in the left-right direction, it is possible to suppress the vibration of the ultraviolet irradiation unit 11 when the carriage 4 moves in the left-right direction.

In this embodiment, the side plates 26 and 27 are fixed to the base plate 28 by two screws 30 arranged at intervals in the vertical direction. Therefore, in this embodiment, it is possible to stabilize the fixed state of the side plates 26 and 27 to the base plate 28. Further, in the present embodiment, since the third assembly step is performed after the first assembly step and the second assembly step, as described above, in the first assembly step before fixing the side plates 26 and 27 to the base plate 28. In addition, the distance, parallelism, height, etc. of the two guide shafts 17 can be adjusted.

(Other embodiments)
The above-described embodiment is an example of a preferred embodiment of the present invention, but the present invention is not limited to this, and various modifications can be carried out without changing the gist of the present invention.

In the above-described embodiment, in the ultraviolet irradiation unit 11A, the right end side portions of the side plates 26 and 27 are fixed to the base plate 28 as the third fixing member, but as shown in FIG. 7, the upper end side of the side plates 26 and 27 is fixed. The portion may be fixed to the third fixing member 48. That is, the shaft holding member 18 may include a third fixing member 48 instead of the base plate 28, and the upper end side portions of the side plates 26 and 27 may be fixed to the third fixing member 48. In this case, the third fixing member 48 includes, for example, a fixed portion 48a fixed to the carriage 4 and a fixing portion 48b to which the side plates 26 and 27 are fixed.

The fixed portion 48a is formed in a flat plate shape, and is arranged so that the thickness direction and the left-right direction of the fixed portion 48a coincide with each other. The fixing portion 48b is formed in a flat plate shape, and is arranged so that the thickness direction and the left-right direction of the fixing portion 48b coincide with each other. The fixed portion 48b is connected to the upper end portion of the fixed portion 48a. Further, in this case, the fixed portions 26b and 27b are connected to the upper ends of the shaft fixing portions 26a and 27a, and are arranged so that the thickness direction and the vertical direction of the fixed portions 26b and 27b coincide with each other. There is. The fixed portions 26b and 27b are fixed to the fixing portion 48b of the third fixing member 48 by two screws 30 arranged at intervals in the left-right direction. Similarly, in the ultraviolet irradiation unit 11B, the upper end side portions of the side plates 26 and 27 may be fixed to the third fixing member 48.

In the above-described embodiment, the shaft holding member 18 is viewed from the front-rear direction as shown in FIG. 8 instead of the side plate 26 as the first fixing member formed by bending a thin metal plate such as a steel plate into a predetermined shape. A block-shaped first fixing member 56 having an L-shaped shape may be provided. Further, the shaft holding member 18 is a block having an L shape when viewed from the front-rear direction instead of the side plate 27 as a second fixing member formed by bending a thin metal plate such as a steel plate into a predetermined shape. A second fixing member (not shown) may be provided. In this case, for example, the first fixing member 56 and the second fixing member are fixed to the base plate 28 by two screws 30 arranged at intervals in the front-rear direction.

In the above-described embodiment, the number of guide shafts 17 included in the ultraviolet irradiation unit 11 may be three or more. Further, in the above-described form, the base member 9 may be made of resin as long as the strength and rigidity of the base member 9 can be ensured. Further, in the above-described embodiment, the side plates 26 and 27 may be fixed to the base plate 28 by three or more screws 30 arranged at intervals in the vertical direction.

In the above-described embodiment, when assembling the ultraviolet irradiation unit 11, the side plates 26 and 27 may be directly fixed to the base plate 28 fixed to the carriage 4 without using the assembly jig 43. Further, in the above-described embodiment, the number of ultraviolet irradiation units 11 included in the printer 1 may be one. That is, the printer 1 may include only one of the ultraviolet irradiation unit 11A and the ultraviolet irradiation unit 11B. Further, in the above-described embodiment, the number of heads 3 mounted on the carriage 4 may be 11 or less, or 13 or more.

In the above-described embodiment, the printer 1 may include a slide mechanism that slides the table 7 in the front-rear direction instead of the slide mechanism that slides the Y bar 5. Further, the printer 1 includes a platen on which a print medium for printing is placed and a medium feed mechanism for feeding the print medium in the sub-scanning direction, instead of the slide mechanism for sliding the table 7 and the Y bar 5. Is also good. Further, in the above-described form, the printer 1 may be a 3D printer for modeling a three-dimensional modeled object.

1 Printer (inkjet printer)
3 heads (inkjet heads)
4 Carriage 6 Carriage drive mechanism 9 Base member 10 Ultraviolet irradiator 11 Ultraviolet irradiation unit 15 Irradiator holding member 16 Irradiator driving mechanism 17 Guide shaft 18 Axis holding member 26 Side plate (first fixing member)
27 Side plate (second fixing member)
28 Base plate (third fixing member)
30 Screw 41 Fixing plate 42 Guide support member 43 Assembly jig 48 Third fixing member 56 First fixing member X Sub-scanning direction Y Main scanning direction Z Vertical direction

Claims (7)

An inkjet head that ejects ultraviolet curable ink, a carriage on which the inkjet head is mounted, a carriage drive mechanism that reciprocates the carriage in the main scanning direction, and an ink ejected from the inkjet head are irradiated with ultraviolet rays. It is equipped with an ultraviolet irradiation unit having an ultraviolet irradiation device that cures the ink.
The ultraviolet irradiation unit includes an irradiator holding member that holds the ultraviolet irradiator, an irradiator driving mechanism that reciprocates the irradiator holding member in a sub-scanning direction orthogonal to the main scanning direction and the vertical direction, and a sub-scanning. A plurality of guide shafts for guiding the irradiator holding member in the direction and a shaft holding member for holding both ends of the guide shaft are provided.
Only one end side portion of the shaft holding member in the main scanning direction is fixed to the end portion of the carriage in the main scanning direction, and the ultraviolet irradiation unit is cantilevered and supported by the carriage in the main scanning direction. An inkjet printer featuring. The plurality of the guide axes are arranged in parallel with the sub-scanning direction.
The shaft holding member includes a first fixing member to which one end of the guide shaft is fixed, a second fixing member to which the other end of the guide shaft is fixed, the first fixing member, and the second fixing member. With a third fixing member to which
The inkjet printer according to claim 1, wherein the third fixing member is fixed to an end portion of the carriage in the main scanning direction. The third fixing member is formed in a flat plate shape, and is fixed to the carriage in a state where the thickness direction and the main scanning direction of the third fixing member coincide with each other.
Only one end side portion of the first fixing member in the main scanning direction is fixed to the third fixing member.
The inkjet printer according to claim 2, wherein only one end side portion of the second fixing member in the main scanning direction is fixed to the third fixing member. The plurality of guide axes are arranged at intervals in the main scanning direction.
The inkjet printer according to claim 3, wherein the first fixing member and the second fixing member are fixed to the third fixing member at a plurality of fixing positions arranged at intervals in the vertical direction. .. The carriage comprises a metal base member to which the inkjet head is fixed.
The inkjet printer according to any one of claims 1 to 4, wherein the shaft holding member is fixed to the base member. The inkjet printer according to claim 5, wherein the base member is formed of die-cast aluminum. The method for assembling an inkjet printer according to claim 3 or 4.
A fixing plate on which one end side portion of the first fixing member in the main scanning direction and one end side portion of the second fixing member in the main scanning direction are fixed, and a plurality of the guide shafts fixed to the fixing plate. Using an assembly jig including a guide support member that supports from below, the first fixing member and the second fixing member are fixed to the fixing plate with screws and supported by the guide support member. The plurality of guide shafts are fixed to the first fixing member and the second fixing member, and the ultraviolet irradiator is held so that the plurality of guide shafts can be moved in the sub-scanning direction with respect to the plurality of guide shafts. The first assembly step of attaching the irradiator holding member to the plurality of guide shafts, and
A second assembly step of fixing the third fixing member to the carriage, and
After the first assembly step and the second assembly step, the first fixing member and the second fixing member are removed from the fixing plate and fixed to the carriage in the second assembly step. A method of assembling an inkjet printer, which comprises a third assembling step of fixing to a carriage.

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