WO2014141511A1 - 印刷装置及びその配置位置調整方法 - Google Patents

印刷装置及びその配置位置調整方法 Download PDF

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Publication number
WO2014141511A1
WO2014141511A1 PCT/JP2013/074757 JP2013074757W WO2014141511A1 WO 2014141511 A1 WO2014141511 A1 WO 2014141511A1 JP 2013074757 W JP2013074757 W JP 2013074757W WO 2014141511 A1 WO2014141511 A1 WO 2014141511A1
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WIPO (PCT)
Prior art keywords
unit
laser beam
laser light
printing apparatus
support member
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PCT/JP2013/074757
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English (en)
French (fr)
Japanese (ja)
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WO2014141511A8 (ja
Inventor
山本 隆治
真祐 山下
浩明 岸田
Original Assignee
大日本スクリーン製造株式会社
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Publication of WO2014141511A1 publication Critical patent/WO2014141511A1/ja
Publication of WO2014141511A8 publication Critical patent/WO2014141511A8/ja

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J15/00Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in continuous form, e.g. webs
    • B41J15/04Supporting, feeding, or guiding devices; Mountings for web rolls or spindles
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01BMEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
    • G01B11/00Measuring arrangements characterised by the use of optical techniques
    • G01B11/26Measuring arrangements characterised by the use of optical techniques for measuring angles or tapers; for testing the alignment of axes
    • G01B11/27Measuring arrangements characterised by the use of optical techniques for measuring angles or tapers; for testing the alignment of axes for testing the alignment of axes
    • G01B11/272Measuring arrangements characterised by the use of optical techniques for measuring angles or tapers; for testing the alignment of axes for testing the alignment of axes using photoelectric detection means

Definitions

  • the present invention relates to a printing apparatus that prints an image or the like on a printing medium and a method for adjusting the arrangement position thereof.
  • a paper feeding unit supplies, for example, roll-shaped continuous paper.
  • the printing unit prints an image or the like on the supplied continuous paper.
  • the drying unit dries the printed continuous paper.
  • the paper discharge unit winds up the printed and dried continuous paper in a roll shape.
  • each unit when installing a printing apparatus in which the printing apparatus is composed of a plurality of units, each unit is arranged so that the continuous paper conveyance path has a predetermined shape (straight or L-shaped). Be placed. The arrangement position is adjusted according to the result of measurement by visual observation or a ruler. Then, printing is performed on continuous paper, and the arrangement position of each unit is adjusted so that meandering and skewing do not occur.
  • the conventional example having such a configuration has the following problems. That is, the conventional apparatus adjusts the arrangement position by visual observation or a ruler, and performs readjustment according to the printing result. Therefore, there is a problem that it is troublesome and precise positioning is difficult.
  • the present invention has been made in view of such circumstances, and an object of the present invention is to provide a printing apparatus and an arrangement position adjusting method thereof that can be precisely positioned by optical positioning.
  • the present invention has the following configuration. That is, the present invention provides a printing apparatus constituted by a plurality of units constituting a conveyance path for conveying a print medium, provided in one unit, attached to a support member constituting one unit, and a laser. A laser beam irradiating unit for irradiating light, and a laser beam receiving unit for receiving the laser beam from the laser beam irradiating unit, which is provided in the other unit and attached to the support member constituting the other unit. And positioning is performed so that the laser beam from the laser beam irradiation unit is irradiated to the laser beam receiving unit.
  • the laser beam irradiated from the laser beam irradiation means attached to one unit in the optical path parallel to the unit is received by the laser light receiving means attached to the other unit.
  • the alignment is performed so that the light is irradiated.
  • Laser light travels straight without diffusing because of its high coherence. Therefore, precise positioning can be performed by optical positioning that performs positioning so that the laser beam can be irradiated.
  • the support member of the one unit includes a first irradiation side diaphragm unit and a second irradiation side diaphragm unit in the laser beam irradiation direction of the laser beam irradiation unit, and the first irradiation unit. It is preferable that an optical path connecting the side diaphragm unit and the second irradiation side diaphragm unit is attached in parallel to the support member of the one unit.
  • the optical path connecting the first irradiation side diaphragm unit and the second irradiation side diaphragm unit is parallel to the support member of one unit. Therefore, when the laser light irradiated through the first irradiation side diaphragm and the second irradiation side diaphragm is irradiated to the laser light receiving means of the other unit, the support member of the other unit is It is located on a straight line with respect to the support member, and the support member of the other unit is parallel to the first irradiation side stop and the second irradiation side stop. As a result, one unit and the other unit can be accurately aligned linearly.
  • the support member of the other unit includes a first incident side diaphragm unit and a second incident side diaphragm unit on the incident side of the laser beam to the laser beam receiving unit, It is preferable that an optical path connecting the first incident side diaphragm unit and the second incident side diaphragm unit is attached in parallel to the support member of the other unit.
  • the optical path connecting the first incident side diaphragm unit and the second incident side diaphragm unit is parallel to the support member of the other unit. Therefore, when the laser light incident through the first incident side diaphragm unit and the second incident side diaphragm unit is irradiated to the laser light receiving unit of the other unit, the support member of the other unit It is located on a straight line with respect to the support member. As a result, one unit and the other unit can be accurately and linearly aligned.
  • the support member of the other unit is provided with an incident side stop on the incident side of the laser beam to the laser beam receiving means.
  • the alignment accuracy can be improved.
  • the incident-side diaphragm unit includes a diaphragm having a diameter larger than the diaphragm diameters of the first irradiation-side diaphragm unit and the second irradiation-side diaphragm unit, and a transparent plate that transmits laser light. It is preferable that it is attached to the diaphragm.
  • the entrance-side stop has a large-diameter stop and a transparent plate, even if the laser light from the laser light irradiation means is slightly deviated from the center of the entrance-side stop, the laser light is applied to the transparent plate of the entrance-side stop. The incident can be visually recognized. Therefore, it is possible to easily perform alignment so that the laser beam is incident on the center of the entrance stop portion. As a result, workability can be improved.
  • the transparent plate is provided with a light-reducing part for reducing the laser light around the center part.
  • the laser light can be easily visually recognized by the light-reducing part of the transparent plate, workability can be further improved.
  • the laser light irradiation means and the laser light receiving means are attached to support members of the one unit and the other unit in a posture in which optical paths are orthogonal to each other, It is preferable that a reflection unit disposed with an inclination of 45 ° is provided to guide the laser beam from the irradiation unit to the laser beam receiving unit.
  • one unit and the other unit can be aligned in an orthogonal attitude.
  • the laser light irradiation means can be selected and attached to a support member that constitutes one surface of the one unit, and the laser light receiving means is any one of the other units. It is preferable that a support member constituting one surface can be selected and attached.
  • the laser light irradiation means and the laser light receiving means can be selectively attached to the support member, alignment to a desired posture such as a linear position or a right angle position can be performed.
  • At least one unit is disposed as an intermediate unit between the one unit and the other unit, and the laser beam from the laser beam irradiation unit is transmitted through the intermediate unit to the laser. It is preferable to perform alignment so that the light receiving means receives light.
  • At least three units can be aligned by receiving laser light through the intermediate unit.
  • the intermediate unit includes a diaphragm portion on a support member, and the laser light receiving unit receives the laser beam from the laser beam irradiation unit through the diaphragm unit of the intermediate unit. Preferably it is done.
  • Alignment with higher accuracy can be achieved by providing the intermediate unit with a diaphragm.
  • the present invention provides a support member that is provided in one unit and constitutes one unit in a method for adjusting the arrangement position of a printing apparatus that includes a plurality of units that constitute a conveyance path that conveys a print medium.
  • the laser light irradiation means of one unit is irradiated with the laser light
  • the laser light reception means of the other unit is irradiated with the laser light.
  • the arrangement position of the unit or one unit and the other unit is adjusted. Laser light travels straight without diffusing because of its high coherence. Therefore, precise positioning can be performed by optical positioning that performs positioning so that laser light can be received.
  • At least one unit is arranged as an intermediate unit between the one unit and the other unit, and the process of adjusting the arrangement position is performed by the intermediate unit from the laser beam irradiation means. It is preferable to perform alignment so that the laser beam receiving means receives the laser beam via the intermediate unit.
  • At least three units can be aligned by receiving laser light through the intermediate unit.
  • the laser light irradiated from the laser light irradiation means attached to one unit in the optical path parallel to the unit is applied to the laser light receiving means attached to the other unit. Align so that it is irradiated. Laser light travels straight without diffusing because of its high coherence. Therefore, positioning can be performed precisely by optical positioning that performs positioning so that the laser beam is irradiated.
  • 1 is a side view illustrating a schematic configuration of a printing apparatus according to an embodiment.
  • 1 is a plan view illustrating a schematic configuration of a printing apparatus according to an embodiment. It is a partially expanded view which shows the 1st form of a positioning assistance apparatus. It is a figure with which it uses for operation
  • It is a partially expanded view which shows the 2nd form of a positioning assistance apparatus.
  • It is a schematic diagram which shows the entrance side aperture
  • FIG. 1 is a side view illustrating a schematic configuration of a printing apparatus according to the embodiment.
  • FIG. 2 is a plan view illustrating a schematic configuration of the printing apparatus according to the embodiment.
  • an inkjet printing system that is an inkjet printing apparatus will be described as an example of a printing apparatus, but the present invention can also be applied to printing apparatuses of other systems.
  • the ink jet printing system 1 corresponding to the “printing device” in the present invention includes a paper feeding unit 3, an ink jet printing device 5, and a paper discharge unit 7.
  • the paper feed unit 3 holds the roll-shaped continuous paper WP so as to be rotatable around a horizontal axis, and unwinds and supplies the continuous paper WP to the inkjet printing apparatus 5.
  • the ink jet printing apparatus 5 performs printing on the continuous paper WP.
  • the paper discharge unit 7 winds the continuous paper WP printed by the inkjet printer 5 around the horizontal axis.
  • the paper feed unit 3 is disposed on the upstream side of the inkjet printing apparatus 5, and the paper discharge unit 7 is downstream of the inkjet printing apparatus 5. Arranged on the side.
  • the above continuous paper WP corresponds to the “print medium” in the present invention.
  • the inkjet printing apparatus 5 includes an entrance unit 9, a first intermediate unit 11, a second intermediate unit 13, and an exit unit 15 in order from the paper feed unit 3 side.
  • the ink jet printing apparatus 5 is configured by appropriately selecting and connecting the units 9, 11, 13, and 15 described above. In the first apparatus, all units are provided.
  • the entrance unit 9 includes a driving roller 17 and a nip roller 19, an edge position control unit 21, a driving roller 17 and a nip roller 19, four transport rollers 23, and two inkjet heads 25 in order from the paper feeding unit 3 side. And.
  • the driving roller 17 and the nip roller 19 take in the continuous paper WP from the paper feeding unit 3.
  • the edge position control unit 21 automatically corrects the position when the continuous paper WP meanders so that the continuous paper WP is appropriately conveyed.
  • the four transport rollers 23 are in contact with the lower surface of the continuous paper WP and smoothly transport the continuous paper WP.
  • the ink jet head 25 is for ejecting ink droplets onto the continuous paper WP to form a print image.
  • the first intermediate unit 11 includes four transport rollers 23 and two inkjet heads 25.
  • the second intermediate unit 13 has the same configuration as the first intermediate unit 11 described above. That is, four transport rollers 23 and two inkjet heads 25 are provided. For example, the two inkjet heads 25 eject gold ink on the upstream side and eject the overcoat material on the downstream side.
  • the outlet unit 15 includes a transport roller 23, a heat drum 27, a transport roller 23, an inspection unit 29, a driving roller 17, and a nip roller 19 in order from the upstream side of the transport path.
  • the heat drum 27 incorporates a heater and is driven to rotate in accordance with the conveyance of the continuous paper WP.
  • the heat drum 27 heats and dries the ink droplets discharged onto the continuous paper WP.
  • the inspection unit 29 inspects for print defects such as dirt and missing in the print image formed on the continuous paper WP.
  • paper feed unit 3 the entrance unit 9, the first intermediate unit 11, the second intermediate unit 13, the exit unit 15, and the paper discharge unit 7 described above correspond to the “unit” in the present invention. To do.
  • the paper feed unit 3, the entrance unit 9, the first intermediate unit 11, the second intermediate unit 13, the exit unit 15, and the paper discharge unit 7 described above are disposed inside the external panel indicated by a solid line.
  • a support member F is provided. Exactly, the external panel shown by the solid line is attached to each support member F.
  • the support members F arranged on both side surfaces are set as the horizontal support members SF, and in each part, the upstream support member F in the transport direction of the continuous paper WP is set as the front support member FF, and in the transport direction of the continuous paper WP.
  • the downstream support member F is referred to as a rear support member BF. In FIG. 2, only the support member F of a necessary part is shown for the explanation to be described later.
  • the arrangement position of the entrance unit 9 and the paper feed unit 3 is adjusted.
  • the entrance unit 9 and the paper feed unit 3 are attached with an alignment assisting device 31.
  • various forms of the alignment assisting device 31 will be described.
  • FIG. 3 is a partially enlarged view showing a first form of the alignment assisting device.
  • the alignment assisting device 31 includes a laser light irradiation unit 33 and a laser light detection unit 35.
  • the laser light irradiation unit 33 is attached to the lateral support member SF of the paper feed unit 3
  • the laser light detection unit 35 is attached to the lateral support member SF of the first intermediate unit 11.
  • the sheet feeding unit 3 corresponds to “one unit” in the present invention
  • the entrance unit 9 corresponds to “the other unit” in the present invention.
  • the laser beam irradiation unit 33 includes a laser beam irradiation unit 37 corresponding to the “laser beam irradiation unit” in the present invention, a first irradiation side diaphragm unit A1, and a second irradiation side diaphragm unit A2.
  • the laser beam irradiation unit 37 has a built-in laser oscillator and irradiates the laser beam LB from the irradiation unit 39 only in a predetermined direction.
  • the first irradiation side stop A1 and the second irradiation side stop A2 each have a stop ap at the center. These diaphragms ap are supported horizontally by the first irradiation side diaphragm A1 and the second irradiation side diaphragm A2 so as to coincide with the center of the irradiation unit 39 of the laser beam irradiation unit 37. It is attached to the member SB.
  • the optical path connecting the stop ap of the first irradiation side stop A1 and the stop ap of the second irradiation side stop A2 is attached to the lateral support member SB so as to be parallel to the lateral support member SB. .
  • the laser light detection unit 35 includes a laser light detection section 41 corresponding to the “laser light receiving means” in the present invention, a first incident side diaphragm section A3, and a second incident side diaphragm section A4.
  • the laser beam detector 41 has a light receiving sensitivity to the laser beam LB, and detects only the laser beam LB incident from the light receiver 43. When the incidence of the laser beam LB is detected, it is preferable to notify the operator by notifying means such as a lamp or a buzzer (not shown).
  • the first incident side diaphragm unit A3 and the second incident side diaphragm unit A4 each include a diaphragm ap at the center.
  • the first incident side diaphragm portion A3 and the second incident side diaphragm portion A4 are lateral support members of the entrance unit 9 so that these diaphragms ap coincide with the light receiving section 43 of the laser light detection section 41. It is attached to SB.
  • the diaphragm ap of the first incident side diaphragm section A3 and the diaphragm ap of the second incident side diaphragm section A4 are attached to the lateral support member SB so as to be parallel to the lateral support member SB.
  • the laser beam irradiation unit 33 and the laser beam detection unit 35 described above have the horizontal support member SF of the paper feed unit 3 and the horizontal support member SF of the entrance unit 9 aligned in a straight line in plan view. Only in this state, the positional relationship of each part is determined so that the laser beam LB is detected by the laser beam detection unit 35.
  • FIG. 4 is a diagram for explaining the operation of the alignment assisting device according to the first embodiment.
  • the alignment is performed by first irradiating the laser beam LB and then adjusting the arrangement position of each part so that the laser beam LB is detected by the laser beam detection unit 35.
  • the laser beam LB (indicated by the two-dot chain line with an arrow) irradiated from the laser beam irradiation unit 33 passes through the first irradiation side diaphragm unit A1 and the second irradiation side diaphragm unit A2.
  • the laser beam LB is not detected by the laser beam detection unit 35 because it is moved by the first incident side stop A3 on the laser beam detection unit 35 side. Therefore, the operator finely adjusts and adjusts the arrangement position of the entrance unit 9 or the sheet feeding unit 3 or the entrance unit 9 and the sheet feeding unit 3 so that the laser beam detection unit 35 is irradiated with the laser beam LB.
  • FIG. 5 is a partially enlarged view showing a second form of the alignment assisting device.
  • subjecting a same sign is abbreviate
  • the positioning auxiliary device 31A is composed of a laser light irradiation unit 33 and a laser light detection unit 35A.
  • the laser light detection unit 35A is composed of only the laser light detection unit 41 and the first incident side diaphragm unit A3.
  • the same effects as those of the first embodiment described above can be achieved while suppressing the cost.
  • FIG. 6 is a partially enlarged view showing a third form of the alignment assisting device.
  • FIG. 7 is a schematic diagram showing an entrance-side stop at the time of alignment in the alignment auxiliary device of the third embodiment. Note that the same components as those in the first and second embodiments described above are denoted by the same reference numerals, and detailed description thereof is omitted.
  • the alignment auxiliary device 31B is composed of a laser light irradiation unit 33 and a laser light detection unit 35B.
  • the laser light detection unit 35B includes only the laser light detection unit 41 and the first incident side diaphragm unit A3B.
  • the first incident side stop A3B includes a stop ap having a larger diameter than the stops ap of the first irradiation side stop A1 and the second irradiation side stop A2.
  • a transparent plate 45 is attached to the laser light detector 41 side so as to cover the stop ap.
  • the alignment assisting device 31B When the sheet feeding unit 3 and the entrance unit 9 are not positioned on a straight line and are slightly shifted from each other, the alignment assisting device 31B has the signs LB (1) and LB (2 ) Is located on the outer peripheral side of the stop ap. Since the aperture ap has a large diameter and the transparent plate 45 is attached, it can be visually recognized how much the laser beams LB (1) and LB (2) that are misaligned deviate from the center. Therefore, workability can be improved when the paper feed unit 3 or the entrance unit 9 is moved to adjust the position.
  • FIG. 8 is a partially enlarged view showing a fourth form of the alignment assisting device.
  • FIG. 9 is a schematic diagram showing an entrance-side stop at the time of alignment in the alignment auxiliary device of the fourth embodiment.
  • the same components as those in the first to third embodiments described above are denoted by the same reference numerals, and detailed description thereof is omitted.
  • the positioning auxiliary device 31C is composed of a laser beam irradiation unit 33 and a laser beam detection unit 35C.
  • the laser light detection unit 35C includes only the laser light detection unit 41 and the second incident side diaphragm unit A3C.
  • the first incident side stop A3C is formed with a stop ap having a larger diameter than the stops ap of the first irradiation side stop A1 and the second irradiation side stop A2.
  • a transparent plate 47 is attached to the laser light detector 41 so as to cover the stop ap.
  • the transparent plate 47 is formed with a light reducing portion 49 on the outer peripheral side excluding the central portion thereof.
  • the light reduction unit 49 reduces the light amount of the laser light LB.
  • the alignment assisting device 31C When the sheet feeding unit 3 and the entrance unit 9 are not positioned on a straight line and are slightly displaced, the alignment assisting device 31C has the signs LB (1) and LB (2 ) Is located on the outer peripheral side of the stop ap. Since the aperture ap has a large diameter and the transparent plate 47 is attached, it can be visually recognized how much the laser beams LB (1) and LB (2) that are displaced are displaced from the center. Moreover, since the laser beam LB is dimmed by the dimming unit 49, it can be more easily recognized. Therefore, workability can be improved when the paper feed unit 3 and the entrance unit 9 are moved to adjust the position.
  • FIG. 10 is a partially enlarged view showing a fifth form of the alignment assisting device.
  • subjecting a same sign is abbreviate
  • the laser light irradiation unit 33 is attached to the lateral support member SF of the paper feed unit 3, and the laser light detection unit 35 is attached to the front support member FF of the entrance unit 9.
  • the laser beam irradiation unit 33 has an optical path such that when the lateral support member SB of the paper feed unit 3 and the front support member FF of the entrance unit 9 are arranged at right angles, the optical paths cross each other at right angles. And a laser light detection unit 35 are provided.
  • the horizontal support member SF of the entrance unit 9 is provided with a reflecting plate 51 in an inclined posture (corresponding to “reflecting means” in the present invention).
  • the reflection plate 51 reflects the laser beam LD, and has a 45 ° attitude with respect to the front support member FF of the entrance unit 9 by the attachment member 53 at the corner between the horizontal support member SF and the front support member FF. It is attached to become.
  • the laser beam LB is reflected by the reflection plate 51 having a 45 ° attitude, and therefore, the lateral support member SB of the paper feed unit 3 and the front support member FF of the entrance unit 9 are aligned in an orthogonal attitude. Can do.
  • the laser beam LB from the laser beam irradiation unit 33 attached to the paper feed unit 3 can be attached to the entrance unit 9.
  • the alignment is performed so that the laser light detection units 35 and 35A to 35C are irradiated. Since the laser beam LB has high coherence, it travels straight without diffusing. Therefore, positioning can be performed precisely by optical positioning that performs positioning so that the laser beam LB can be irradiated.
  • FIG. 11 is a schematic diagram showing the alignment of the three units.
  • the paper feed unit 3, the entrance unit 9, and the first intermediate unit 11 are aligned.
  • the sheet feeding unit 3 corresponds to “one unit” in the present invention
  • the entrance unit 9 corresponds to “the other unit”
  • the first intermediate unit 11 corresponds to the “intermediate unit”.
  • the alignment assisting device 31E includes a laser beam irradiation unit 33 in the paper feeding unit 3 and a laser beam detection unit 35 in the first intermediate unit 11. Further, the first intermediate unit 11 is provided with an intermediate diaphragm 55.
  • the aperture 55 includes an aperture A5 on the front support member FF side and an aperture A6 on the rear support member BF side. The aperture portions A5 and A6 are attached so that the optical path connecting the centers of these apertures ap is parallel to the lateral support member SB. In addition, you may make it the aperture
  • the paper feed unit 3 the entrance unit 9, and the first unit so that the laser beam LB from the laser beam irradiation unit 37 is detected by the laser beam detection unit 41 through the entrance unit 9.
  • the intermediate unit 11 By aligning with the intermediate unit 11, it is possible to align the three units.
  • the present invention is not limited to the above embodiment, and can be modified as follows.
  • the alignment of the two units of the paper feeding unit 3 and the entrance unit 9 has been described as an example, but the linear alignment of the two units can be similarly performed with other units. Right-angle alignment can be performed.
  • the three units of the paper feeding unit 3, the entrance unit 9, and the first intermediate unit 11 are aligned.
  • the positions of the other three units and three or more units are aligned. Combinations can also be made.
  • the alignment auxiliary devices 31 and 31A to 31E are attached to the lateral support member SF and the front support member FF of the support member F has been described.
  • the laser beam detection unit 35 and the laser beam detection unit 35 can be attached by selecting the support member F that constitutes one surface of any unit. Therefore, alignment to a desired posture such as a straight line position or a right angle position can be performed.
  • the aperture portions A1 to A6 are provided.
  • the laser beam irradiation unit 37 can irradiate the support member F with parallel light by the optical system, the aperture unit A1. It is not necessary to provide A6.
  • the laser light detection unit 35 is used, but a reflector may be used instead.
  • linear alignment may be performed by detecting the laser beam recursively reflected by the reflector.
  • the present invention is suitable for a printing apparatus that performs printing on a print medium and a method for adjusting the arrangement position thereof.

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  • Length Measuring Devices By Optical Means (AREA)
  • Accessory Devices And Overall Control Thereof (AREA)
  • Exposure Of Semiconductors, Excluding Electron Or Ion Beam Exposure (AREA)
PCT/JP2013/074757 2013-03-12 2013-09-12 印刷装置及びその配置位置調整方法 WO2014141511A1 (ja)

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CN107917682B (zh) * 2016-10-10 2019-06-25 中北大学 外置式深孔直线度检测装置与方法
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JPS6276582A (ja) * 1985-09-27 1987-04-08 Hitachi Koki Co Ltd レ−ザ発振器の光軸調整装置及び調整方法
JPH06198479A (ja) * 1993-01-08 1994-07-19 Toshiba Corp レーザ加工装置
JPH11295025A (ja) * 1998-04-09 1999-10-29 Nkk Corp 板継ぎ位置合せ計測方法及び装置並びにこの方法を用いた板継ぎ工作法
JP2010188647A (ja) * 2009-02-19 2010-09-02 Seiko Epson Corp 液体噴射装置、液体噴射装置の製造方法、および液体噴射ヘッドの位置調整方法
JP2011029292A (ja) * 2009-07-23 2011-02-10 Fuji Xerox Co Ltd 機器の高さ調整装置
JP2011038967A (ja) * 2009-08-17 2011-02-24 Yokogawa Electric Corp 位置決め装置およびこれに着脱可能な光学アダプター
JP2011112574A (ja) * 2009-11-27 2011-06-09 Toyota Motor Corp アライメントテスタ校正装置

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS605578A (ja) * 1984-05-30 1985-01-12 Matsushita Electric Ind Co Ltd 出力結合鏡
JPS6276582A (ja) * 1985-09-27 1987-04-08 Hitachi Koki Co Ltd レ−ザ発振器の光軸調整装置及び調整方法
JPH06198479A (ja) * 1993-01-08 1994-07-19 Toshiba Corp レーザ加工装置
JPH11295025A (ja) * 1998-04-09 1999-10-29 Nkk Corp 板継ぎ位置合せ計測方法及び装置並びにこの方法を用いた板継ぎ工作法
JP2010188647A (ja) * 2009-02-19 2010-09-02 Seiko Epson Corp 液体噴射装置、液体噴射装置の製造方法、および液体噴射ヘッドの位置調整方法
JP2011029292A (ja) * 2009-07-23 2011-02-10 Fuji Xerox Co Ltd 機器の高さ調整装置
JP2011038967A (ja) * 2009-08-17 2011-02-24 Yokogawa Electric Corp 位置決め装置およびこれに着脱可能な光学アダプター
JP2011112574A (ja) * 2009-11-27 2011-06-09 Toyota Motor Corp アライメントテスタ校正装置

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