EP3403835A1 - Printing apparatus and method for measuring difference in belt moving amount - Google Patents
Printing apparatus and method for measuring difference in belt moving amount Download PDFInfo
- Publication number
- EP3403835A1 EP3403835A1 EP18173315.5A EP18173315A EP3403835A1 EP 3403835 A1 EP3403835 A1 EP 3403835A1 EP 18173315 A EP18173315 A EP 18173315A EP 3403835 A1 EP3403835 A1 EP 3403835A1
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- European Patent Office
- Prior art keywords
- moving amount
- unit
- transport belt
- difference
- transport
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J15/00—Devices 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
- B41J15/04—Supporting, feeding, or guiding devices; Mountings for web rolls or spindles
- B41J15/048—Conveyor belts or like feeding devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/36—Blanking or long feeds; Feeding to a particular line, e.g. by rotation of platen or feed roller
- B41J11/42—Controlling printing material conveyance for accurate alignment of the printing material with the printhead; Print registering
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J29/00—Details of, or accessories for, typewriters or selective printing mechanisms not otherwise provided for
- B41J29/38—Drives, motors, controls or automatic cut-off devices for the entire printing mechanism
- B41J29/393—Devices for controlling or analysing the entire machine ; Controlling or analysing mechanical parameters involving printing of test patterns
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/407—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for marking on special material
- B41J3/4078—Printing on textile
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
- B41J3/44—Typewriters or selective printing mechanisms having dual functions or combined with, or coupled to, apparatus performing other functions
Abstract
Description
- The present invention relates to a printing apparatus and a method for measuring a difference in belt moving amount.
- Recently, in textile printing on fabrics such as cotton, silk, wool, chemical fiber, and mixed fabrics, an ink jet type printing apparatus which discharges ink toward a surface of fabrics and performs printing patterns or the like on fabrics is used. The printing apparatus used in textile printing is provided with a transport belt which mounts a medium and transports the medium in a transport direction to handle fabrics having flexibility as a medium. In this kind of printing apparatus, in order to improve transport accuracy of the transport belt, the printing apparatus provided with a mechanism for measuring a moving amount of the transport belt is known. For example,
JP-A-2013-28143 - However, in the transport belt, there is a case where a difference is generated between the moving amount of one side of the transport belt in an intersecting direction intersecting with the transport direction and the other side thereof. In the printing apparatus described in
JP-A-2013-28143 - The invention can be realized in the following aspects or application examples.
- According to this application example, there is provided a printing apparatus including a printing unit which performs printing on a medium; a transport belt which rotationally moves to transport the medium in a transport direction; a first and a second scale portions which are provided along the transport direction; a first measuring unit which measures a relative moving amount with respect to the first scale portion; a second measuring unit which measures a relative moving amount with respect to the second scale portion; a first holding unit which is configured to move integrally with the first scale portion or the first measuring unit, and holds one side from a center of the transport belt in an intersecting direction intersecting with the transport direction to move along with the transport belt; a second holding unit which is configured to move integrally with the second scale portion or the second measuring unit, and holds the other side from the center of the transport belt in the intersecting direction to move along with the transport belt; and a control unit which determines whether or not a difference between a first moving amount measured by the first measuring unit and a second moving amount measured by the second measuring unit is equal to or greater than a reference value.
- According to the application example, the printing apparatus includes a first measuring unit which measures a relative moving amount with respect to the first scale portion provided along the transport direction, and a first holding unit which moves integrally with the first scale portion or the first measuring unit, and holds one side from a center of the transport belt in an intersecting direction intersecting with the transport direction. In other words, the first measuring unit measures the moving amount (first moving amount) on one side of the transport belt. In addition, the printing apparatus includes a second measuring unit which measures a relative moving amount with respect to the second scale portion provided along the transport direction, and a second holding unit which moves integrally with the second scale portion or the second measuring unit, and holds the other side from the center of the transport belt in the intersecting direction intersecting with the transport direction. In other words, the second measuring unit measures the moving amount (second moving amount) on the other side of the transport belt. Moreover, the printing apparatus includes a control unit which determines whether or not a difference between a first moving amount and a second moving amount is equal to or greater than a reference value. Accordingly, the printing apparatus can measure that the generated difference between the moving amount of one side of the transport belt and the moving amount of the other side of the transport belt is equal to or greater than a reference value.
- In the printing apparatus of the application example, it is preferable that the control unit control the rotational movement of the transport belt based on one moving amount of the first moving amount and the second moving amount.
- According to the application example, the control unit controls the rotational movement of the transport belt based on the one moving amount of the first moving amount and the second moving amount, and thereby it is possible to prevent the control of the transport belt being complicated.
- In the printing apparatus of the application example, it is preferable that the control unit control the rotational movement of the transport belt based on an average moving amount obtained by averaging the first moving amount and the second moving amount.
- According to the application example, the control unit controls the rotational movement of the transport belt based on the average moving amount obtained by averaging the first moving amount and the second moving amount, and thereby it is possible to prevent the difference in the moving amount between one side and the other side of the transport belt from becoming large.
- In the printing apparatus of the application example, it is preferable that the control unit stop printing on the medium by the printing unit in a case where the control unit determines that a difference between the first moving amount and the second moving amount is equal to or greater than a reference value.
- According to the application example, the control unit stops printing on the medium by the printing unit in a case where the control unit determines that the difference between the first moving amount and the second moving amount is equal to or greater than a reference value, and thereby it is possible to prevent printing an image with degraded image quality on the medium beforehand.
- In the printing apparatus of the application example, it is preferable that the control unit receive input of a print mode from a plurality of print modes with different required image qualities and use a reference value corresponding to the image quality of the received print mode.
- According to the application example, the control unit uses the reference value corresponding to the image quality of the print mode, and thereby it is possible to suitably perform printing on the medium.
- In the printing apparatus of the application example, it is preferable that the control unit receive input of a type of an image to be printed and use a reference value corresponding to the received type of the image.
- According to the application example, the control unit uses the reference value corresponding to the type of the image to be printed, and thereby it is possible to suitably perform printing on the medium.
- In the printing apparatus of the application example, it is preferable that, when the number of times that the transport belt transports the medium is n, the control unit calculate the difference between the first moving amount and the second moving amount, store the difference as an nth moving amount difference, and store the difference between the first moving amount and the second moving amount calculated before storing the nth moving amount difference as an (n-1)th moving amount difference.
- According to the application example, the printing apparatus stores the difference between the first moving amount and the second moving amount as an (n-1)th moving amount difference and an nth moving amount difference in time series, and thereby it is possible to check the changes over time on the difference in the moving amount between one side and the other side of the transport belt.
- In the printing apparatus of the application example, it is preferable that the control unit perform a warning operation in a case where the control unit determines that a variation of the (n-1)th moving amount difference with respect to the nth moving amount difference is equal to or greater than a reference value.
- According to the application example, the control unit performs the warning operation in a case where a variation of the (n-1)th moving amount difference with respect to the nth moving amount difference is equal to or greater than a reference value. By comparing the first moving amount difference and the second moving amount difference, it is possible to predict increase in the difference between the first moving amount and the second moving amount, and thereby it is possible to inform a user of abnormality of the apparatus beforehand. Application Example 9
- In the printing apparatus of the application example, it is preferable that a first reference value and a second reference value having a value lower than the first reference value be usable as the reference value in the control unit, and, in a case where the control unit determines that the difference between the first moving amount and the second moving amount is lower than the first reference value and equal to or greater than the second reference value, the control unit perform a preliminary warning operation.
- According to the application example, the control unit uses two reference values of the first reference value and the second reference value to determine whether the difference between the first moving amount and the second moving amount is equal to or greater than a reference value. The control unit performs the preliminary warning operation in a case where the control unit determines that the difference between the first moving amount and the second moving amount is lower than the first reference value and is equal to or greater than the second reference value. For example, by setting the first reference value as a tolerance limit of the difference between the first moving amount and the second moving amount and the second reference value as a value lower than the first reference value, it is possible to inform the user that the tolerance limit of the difference between the first moving amount and the second moving amount is coming close.
- It is preferable that the printing apparatus according to the application example include a driving unit which rotationally moves the transport belt, and in which the driving unit be provided on a downstream side from the printing unit in the transport direction, and the first holding unit and the second holding unit hold the transport belt on an upstream side from the printing unit in the transport direction.
- According to the application example, the driving unit of the transport belt is provided on a downstream side from the printing unit and the first and the second holding units hold the transport belt on an upstream side from the printing unit. In a case where the driving unit is rotationally driven to move the first and the second holding units holding the transport belt along with the transport belt in the transport direction, a portion of the transport belt, that is the downstream side from the driving unit in the transport direction and the upstream side from the first and the second holding units in the transport direction in the rotational moving direction of the transport belt, is easy to loosen. Since it is possible to shorten a range where looseness easily occurs in the transport belt by setting the driving unit on the downstream side from the printing unit and the first and the second holding units on the upstream side from the printing unit, it is possible to make the difference between the first moving amount and the second moving amount hard to occur.
- According to this application example, there is provided a method for measuring a difference in belt moving amount of a printing apparatus which includes a printing unit which performs printing on a medium, a transport belt which rotationally moving to transport the medium in a transport direction, a first and a second scale portions which are provided along the transport direction, a first measuring unit which measures a relative moving amount with respect to the first scale portion, a second measuring unit which measures a relative moving amount with respect to the second scale portion, a first holding unit which is configured to move integrally with the first scale portion or the first measuring unit, and holds one side from a center of the transport belt in an intersecting direction intersecting with the transport direction to move along with the transport belt, and a second holding unit which is configured to move integrally with the second scale portion or the second measuring unit, and holds the other side from the center of the transport belt in the intersecting direction to move along with the transport belt, the method includes determining whether or not a difference between a first moving amount measured by the first measuring unit and a second moving amount measured by the second measuring unit is equal to or greater than a reference value.
- According to the application example, the method for measuring a difference in belt moving amount of a printing apparatus includes determining whether or not the difference between the first moving amount measured by the first measuring unit and the second moving amount measured by the second measuring unit is equal to or greater than a reference value. The first moving amount is the relative moving amount of the first scale portion and the first measuring unit provided along the transport direction. The first scale portion or the first measuring unit moves integrally with the first holding unit holding one side from the center of the transport belt in the intersecting direction intersecting with the transport direction, and thereby the first measuring unit measures the moving amount of one side of the transport belt. The second moving amount is the relative moving amount of the second scale portion and the second measuring unit provided along the transport direction. The second scale portion or the second measuring unit moves integrally with the second holding unit holding the other side from the center of the transport belt in the intersecting direction, and thereby the second measuring unit measures the moving amount of the other side of the transport belt. According to the method for measuring a difference in belt moving amount, it is possible to measure that the difference generated between the moving amount (transport amount) of one side and the moving amount of the other side (transport amount) of the transport belt is equal to or greater than a reference value.
- Embodiments of the invention will now be described by way of example only with reference to the accompanying drawings, wherein like numbers reference like elements.
-
Fig. 1 is a schematic view illustrating an entire schematic configuration of a printing apparatus according to an embodiment. -
Fig. 2 is a plan view illustrating a main portion of the printing apparatus. -
Fig. 3 is a perspective view illustrating a configuration of a first belt moving amount measuring unit. -
Fig. 4 is a cross-sectional view taken along line IV-IV ofFig. 2 . -
Fig. 5 is an electrical block diagram illustrating an electrical configuration of the printing apparatus. -
Fig. 6 is a flowchart illustrating a method for measuring a difference in belt moving amount. -
Fig. 7 is a table illustrating a relationship between a print mode and a reference value. -
Fig. 8 is a table illustrating a relationship between a type of an image and a reference value. -
Fig. 9 is a flowchart illustrating the method for measuring a difference in belt moving amount according to a modification example. -
Fig. 10 is a graph illustrating a variation in the moving amount difference of the transport belt. - Hereinafter, an embodiment of the invention will be described with reference to drawings. Furthermore, in each drawing, scales of each layer and member are made different from the actual scales thereof to a size large enough to be recognized.
- Also, in
Figs. 1 to 4 , for convenience of explanation, three axes, X axis, Y axis, and Z axis, orthogonal to each other are illustrated in the drawings, and the tip end side of the arrow illustrating the axial direction is set to"+ side" and base end side to "- side". A direction parallel to the X axis is referred to as an "X axial direction", a direction parallel to the Y axis is referred to as a "Y axial direction", and a direction parallel to the Z axis is referred to as a "Z axial direction". -
Fig. 1 is a schematic view illustrating an entire schematic configuration of a printing apparatus according to an embodiment.Fig. 2 is a plan view illustrating a main portion of the printing apparatus. First, a schematic configuration of aprinting apparatus 100 according to the embodiment will be explained with reference toFigs. 1 and2 . Furthermore, in the embodiment, an ink jettype printing apparatus 100 which performs textile printing on a medium 95 with forming an image or the like on the medium 95 will be described as an example. - As illustrated in
Fig. 1 , theprinting apparatus 100 includes amedium transport portion 20, a mediumclose contact portion 60, aprinting unit 40, a dryingunit 27, a first belt movingamount measuring unit 70a, a second belt movingamount measuring unit 70b, and acleaning unit 50. The printing apparatus also includes acontrol unit 1 which controls each of these parts. Each part of theprinting apparatus 100 is attached to aframe portion 90. - The
medium transport portion 20 transports the medium 95 in the transport direction. Themedium transport portion 20 includes amedium supply portion 10, atransport roller 22, atransport belt 23, abelt rotating roller 24, abelt driving roller 25,transport rollers medium collecting portion 30. First, a transport path of the medium 95 from themedium supply portion 10 to themedium collecting portion 30 will be described. In addition, in the embodiment, a direction along gravity is set as a Z axis, a direction to which the medium 95 is transported in theprinting unit 40 as an X axis, and a width direction of the medium 95 that intersects with both Z axis and X axis as a Y axis. Furthermore, the positional relationship along the transport direction of the medium 95 or the moving direction of thetransport belt 23 may be referred to as "upstream side" or "downstream side". - The
medium supply portion 10 supplies the medium 95 for forming an image to theprinting unit 40 side. Fabrics such as cotton, wool, and polyester are used as the medium 95. - The
medium supply portion 10 includes asupply shaft portion 11 and a bearingportion 12. Thesupply shaft portion 11 is formed in a cylindrical shape or a columnar shape, and is provided so as to be rotatable in a circumferential direction. On thesupply shaft portion 11, a strip-shapedmedium 95 is wound into a roll shape. Thesupply shaft portion 11 is detachably attached to the bearingportion 12. In this way, the medium 95 in a state wound around thesupply shaft portion 11 in advance can be attached to the bearingportion 12 along with thesupply shaft portion 11. - The bearing
portion 12 rotatably supports both ends of thesupply shaft portion 11 in an axial direction. Themedium supply portion 10 includes a rotational driving unit (not illustrated) which rotationally drives thesupply shaft portion 11. The rotational driving unit rotates thesupply shaft portion 11 in a direction in which the medium 95 is sent out. The operation of the rotational driving unit is controlled by thecontrol unit 1. Thetransport roller 22 relays the medium 95 from themedium supply portion 10 to thetransport belt 23. - The
transport belt 23 is held between at least two rollers which rotate thetransport belt 23, and transports the medium 95 in the transport direction (+X axial direction) as thetransport belt 23 rotationally moves. For details, both end portions of a strip-shaped belt of thetransport belt 23 are connected to form an endless shape, and set on between two rollers of thebelt rotating roller 24 and thebelt driving roller 25. Thetransport belt 23 is held in a state in which a predetermined tension is applied, so as the part between thebelt rotating roller 24 and thebelt driving roller 25 become horizontal. On a surface (supporting surface) 23a of thetransport belt 23, anadhesive layer 29 to which the medium 95 is adhered is provided. Thetransport belt 23 supports (holds) the medium 95 supplied from thetransport roller 22 and brought into close contact with theadhesive layer 29 at the mediumclose contact portion 60 described later. In this way, fabrics having flexibility or the like can be handled as the medium 95. - The
belt rotating roller 24 and thebelt driving roller 25 support an innerperipheral surface 23b of thetransport belt 23. Furthermore, a supporting portion such as a roller for supporting thetransport belt 23 may be provided between thebelt rotating roller 24 and thebelt driving roller 25. - The
belt driving roller 25 is a driving unit that rotationally moves thetransport belt 23 and includes a motor (not illustrated) that rotationally drives thebelt driving roller 25. Thebelt driving roller 25 as the driving unit is provided on the downstream side from theprinting unit 40 with respect to the transport direction of the medium 95 and thebelt rotating roller 24 is provided on the upstream side from theprinting unit 40. When thebelt driving roller 25 is rotationally driven, thetransport belt 23 rotates as thebelt driving roller 25 rotates, and thebelt rotating roller 24 rotates by the rotation of thetransport belt 23. By the rotation of thetransport belt 23, the medium 95 supported by thetransport belt 23 is transported in the transport direction (+X axial direction), and an image is formed on the medium 95 at theprinting unit 40 described later. - In the embodiment, medium 95 is supported on a side (+Z axial side) where the
surface 23a of thetransport belt 23 is opposite to theprinting unit 40, and the medium 95 is transported from thebelt rotating roller 24 side to thebelt driving roller 25 side along with thetransport belt 23. In addition, on a side (-Z axial side) where thesurface 23a of thetransport belt 23 is opposite to thecleaning unit 50, only thetransport belt 23 moves to thebelt rotating roller 24 side from thebelt driving roller 25 side. Furthermore, it is noted that thetransport belt 23 is provided with theadhesive layer 29 to which the medium 95 is adhered, but the invention is not limited thereto. For example, the transport belt may be an electrostatic adsorption type belt which electrostatically adsorbs a medium to a belt. - The
transport roller 26 separates the medium 95 on which an image is formed from theadhesive layer 29 of thetransport belt 23. Thetransport rollers transport belt 23 to themedium collecting portion 30. - The
medium collecting portion 30 collects the medium 95 transported by themedium transport portion 20. Themedium collecting portion 30 includes a windingshaft portion 31 and a bearingportion 32. The windingshaft portion 31 is formed in a cylindrical shape or a columnar shape, and is provided so as to be rotatable in a circumferential direction. In the windingshaft portion 31, the strip-shapedmedium 95 is wound in a roll shape. The windingshaft portion 31 is detachably attached to the bearingportion 32. In this way, the medium 95 in a state wound around the windingshaft portion 31 can be removed with the windingshaft portion 31. - The bearing
portion 32 rotatably supports both ends of the windingshaft portion 31 in an axial line direction. Themedium collecting portion 30 includes the rotational driving unit (not illustrated) which rotationally drives the windingshaft portion 31. The rotational driving unit rotates the windingshaft portion 31 in a direction on which the medium 95 is wound. The operation of the rotational driving unit is controlled by thecontrol unit 1. - Next, each part of the medium
close contact portion 60, the first belt movingamount measuring unit 70a, the second belt movingamount measuring unit 70b, theprinting unit 40, the dryingunit 27, and thecleaning unit 50 provided along themedium transport portion 20 will be described. - The medium
close contact portion 60 brings the medium 95 into close contact with thetransport belt 23. The mediumclose contact portion 60 is provided on the upstream side (-X axial side) from theprinting unit 40. The mediumclose contact portion 60 includes apressing roller 61, a pressingroller driving unit 62 and aroller supporting portion 63. Thepressing roller 61 is formed in a cylindrical shape or a columnar shape, and is provided so as to be rotatable in a circumferential direction. Thepressing roller 61 is disposed so that the axial line direction thereof intersects with the transport direction to rotate in a direction along the transport direction. Theroller supporting portion 63 is disposed on the innerperipheral surface 23b side of thetransport belt 23 opposite to thepressing roller 61 via thetransport belt 23 interposed therebetween. - The pressing
roller driving unit 62 moves thepressing roller 61 in the transport direction (+X axial direction) and in a reverse direction of the transport direction (-X axial direction) while pressing thepressing roller 61 to a lower side (-Z axial side) in the vertical direction thereof. The medium 95 superimposed on thetransport belt 23 is pressed against thetransport belt 23 between thepressing roller 61 and theroller supporting portion 63. In this way, it becomes possible to firmly adhere the medium 95 to theadhesive layer 29 provided on thesurface 23a of thetransport belt 23, and thereby it is possible to prevent the occurrence of floating of the medium 95 on thetransport belt 23. - The first belt moving
amount measuring unit 70a and the second belt movingamount measuring unit 70b are provided between the mediumclose contact portion 60 and theprinting unit 40 in the transport direction. The first belt movingamount measuring unit 70a is provided on one side from the center of the transport belt 23 (+Y axial side) in the intersecting direction (Y axial direction) intersecting with the transport direction, the second belt movingamount measuring unit 70b is provided on the other side from the center of the transport belt 23 (-Y axial side) in a direction intersecting with the transport direction. The configuration of the first belt movingamount measuring unit 70a and the second belt movingamount measuring unit 70b will be described later. - The
printing unit 40 is disposed above (+Z axial side) the arrangement position of thetransport belt 23, and performs printing on the medium 95 mounted on thesurface 23a of thetransport belt 23. Theprinting unit 40 includes ahead unit 42, acarriage 43 on which thehead unit 42 is mounted, acarriage moving unit 45 that moves thecarriage 43 in the width direction (Y axial direction) of the medium 95 which intersects with the transport direction, and the like. Thehead unit 42 of the embodiment is configured with foursubunits 42a, and, in thesubunit 42a, a plurality of discharge heads (not illustrated) for discharging ink (for example, yellow, cyan, magenta, black, and the like) supplied from an ink supply portion (not illustrated) to the medium 95 mounted on thetransport belt 23 as liquid are provided. - The
carriage moving unit 45 is provided above (+Z axial side) thetransport belt 23. Thecarriage moving unit 45 includes a pair ofguide rails frame portions transport belt 23. Thehead unit 42 is supported by theguide rails carriage 43. - The
carriage moving unit 45 is provided with a moving mechanism and a power source (not illustrated). As a moving mechanism, for example, a mechanism combining a ball screw with a ball nut, a linear guide mechanism, or the like can be adopted. Moreover, thecarriage moving unit 45 includes a motor (not illustrated) as the power source for moving thecarriage 43 along theguide rails control unit 1, thehead unit 42 moves in the Y axial direction along with thecarriage 43. - The drying
unit 27 is provided between thetransport roller 26 and thetransport roller 28. The dryingunit 27 dries ink discharged on the medium 95. In the dryingunit 27, for example, an IR heater is included, and it is possible to dry the ink discharged on the medium 95 in a short period of time by driving the IR heater. In this way, it is possible to wind the strip-shapedmedium 95 on which an image or the like is formed around the windingshaft portion 31. - The
cleaning unit 50 is disposed between thebelt rotating roller 24 and thebelt driving roller 25 in the X axial direction. Thecleaning unit 50 includes a cleaning portion 51, a pressing portion 52 and a movingportion 53. The movingportion 53 moves integrally with thecleaning unit 50 along afloor surface 99 and fixes the cleaning unit at a predetermined position. - The pressing portion 52, for example, is a lifting device configured with an air cylinder 56 and a
ball bush 57, and causes the cleaning portion 51 provided thereabove to abut and move away from thesurface 23a of thetransport belt 23. The cleaning portion 51 is set between thebelt rotating roller 24 and thebelt driving roller 25 in a state in which a predetermined tension is applied, and cleans the surface (supporting surface) 23a of thetransport belt 23 moving from thebelt driving roller 25 toward thebelt rotating roller 24 from below (-Z axial direction). - The cleaning portion 51 includes a
cleaning tank 54, a cleaningroller 58 and ablade 55. Thecleaning tank 54 is a tank for storing a cleaning liquid used for cleaning ink or foreign matters adhered to thesurface 23a of thetransport belt 23, and the cleaningroller 58 and theblade 55 are provided inside thecleaning tank 54. As a cleaning liquid, for example, water or a water-soluble solvent (alcohol solution or the like) can be used, and a surfactant or an antifoaming agent may be added as necessary. - When the cleaning
roller 58 rotates, the cleaning liquid is supplied to thesurface 23a of thetransport belt 23, and the cleaningroller 58 and thetransport belt 23 slide on each other. In this way, the ink adhered to thetransport belt 23, fibers of the fabrics serving as the medium 95, or the like are removed by the cleaningroller 58. - The
blade 55, for example, can be made of a flexible material such as silicone rubber. Theblade 55 is provided on the downstream side from the cleaningroller 58 in the transport direction of thetransport belt 23. The remaining cleaning liquid on thesurface 23a of thetransport belt 23 is removed as theblade 55 and thetransport belt 23 slide on each other. -
Fig. 3 is a perspective view illustrating a configuration of a first belt moving amount measuring unit.Fig. 4 is a cross-sectional view taken along line IV-IV ofFig. 2 . Note that, the second belt movingamount measuring unit 70b is configured symmetric with the first belt movingamount measuring unit 70a with respect to the center of thetransport belt 23 in the intersecting direction intersecting with the transport direction, and the perspective view thereof will be omitted. - Next, the configuration of the first belt moving
amount measuring unit 70a will be described with reference toFigs. 2 to 4 . - The first belt moving
amount measuring unit 70a is provided on the upstream side of theprinting unit 40, and is positioned on a +Y axial side of thetransport belt 23. - The first belt moving
amount measuring unit 70a includes afirst scale portion 75a provided along the transport direction (X axial direction), afirst measuring unit 85a for measuring the relative moving amount with respect to thefirst scale portion 75a, and afirst holding unit 80a which is configured to move integrally with thefirst measuring unit 85a, and holds one side (+Y axial direction) from the center of thetransport belt 23 in the intersecting direction (Y axial side) to move along with thetransport belt 23. - For details, the first belt moving
amount measuring unit 70a includes a rectangular shapedbase 71 long along the transport direction (X axial direction) of the medium 95, ascale pasting portion 73 provided above thebase 71, thefirst holding unit 80a, which is provided on thebase 71 and moves along aguide rail 72 extending in the X axial direction, areturn portion 76 which moves thefirst holding unit 80a to the upstream side in the transport direction, and the like. - The
scale pasting portion 73 is laid betweencolumn portions scale pasting portion 73 in the first belt movingamount measuring unit 70a has a protruding portion protruding like eaves in the -Y axial direction, and a part thereof overlaps with thetransport belt 23 in a plan view. - The
first scale portion 75a is provided on a lower surface (-Z axial side surface) of the protruding portion of thescale pasting portion 73. In thefirst scale portion 75a of the embodiment, a magnetic scale in which magnets having different polarities are alternately arranged is used. - The
first holding unit 80a includes a holdingsubstrate 81, aguide block 82, thefirst measuring unit 85a, and the like. The holdingsubstrate 81 has a rectangular plate shape long in the width direction (Y axial direction) of thetransport belt 23. Anend portion 81c on a -Y axial side of the holdingsubstrate 81 substantially coincides with aside wall 73c on the -Y axial side of thescale pasting portion 73 in a plan view, and overlaps with thetransport belt 23. Anend portion 81d on the +Y axial side of the holdingsubstrate 81 protrudes in a +Y axial direction from aside wall 71d on the +Y axial side of the base 71 in a plan view. Theguide block 82 is provided on a bottom surface of the holding substrate 81 (-Z axial side surface). On theguide block 82, a concave groove opened on the -Z axial side is formed following the shape of the convexly protrudingguide rail 72 along the X axial direction from thebase 71. As theguide block 82 and theguide rail 72 are engaged with each other, thefirst holding unit 80a is formed to move reciprocally along the transport direction (X axial direction). - An
elastic member 83 is provided on an upper surface (+Z axial side surface) of the holdingsubstrate 81. Theelastic member 83 has a rectangular plate shape shorter than the holdingsubstrate 81. Anend portion 83d on the +Y axial side of theelastic member 83 is joined with the holdingsubstrate 81 at substantially the center of the holdingsubstrate 81. Anend portion 83c on the -Y axial side of theelastic member 83 substantially coincides with theend portion 81c on the -Y axial side of the holdingsubstrate 81 in a plan view. Theend portion 81c of the holdingsubstrate 81 and theend portion 83c of theelastic member 83 have a gap slightly larger than the thickness of thetransport belt 23. Thefirst holding unit 80a is configured to sandwich thetransport belt 23 between theend portion 81c of the holdingsubstrate 81 and theend portion 83c of theelastic member 83 by the elastic force of theelastic member 83. As a material for theelastic member 83, a carbon fiber or the like can be used. - The
first holding unit 80a has aferromagnetic material 84 on an upper surface (+Z axial side surface) of theelastic member 83 that does not overlap with thetransport belt 23 in a plan view. As theferromagnetic material 84, iron, nickel, cobalt, and the like can be used. - In addition, at a position that is a lower surface of the holding
substrate 81 of thefirst holding unit 80a and opposite to theferromagnetic material 84, a switchingunit 74 that switches the state of thefirst holding unit 80a between a holding state and an unholding state is provided. The switchingunit 74 includes an electromagnet, and theferromagnetic material 84 is attracted to the switching unit 74 (electromagnet) by the magnetic force generated in a case where current flows in the electromagnet. At this time, theelastic member 83 is elastically deformed toward the holdingsubstrate 81 side, and the state of thetransport belt 23 is changed to the holding state held between the holdingsubstrate 81 and theelastic member 83 by the elastic force. Moreover, in a case where the current flowing in the electromagnet is blocked, the state of thefirst holding unit 80a is changed from the holding state to the unholding state. - The
first measuring unit 85a is an upper surface of theend portion 83c of theelastic member 83 and is provided on a position opposite to thefirst scale portion 75a. Thefirst measuring unit 85a is provided with an element for converting a change in a magnetic field into an electric signal (for example, hall element or MR element) and measures a relative moving amount with respect to thefirst scale portion 75a. Thefirst measuring unit 85a of the embodiment is provided on a pedestal for placing the first measuring unit close to thefirst scale portion 75a. Thefirst measuring unit 85a is configured to move integrally with thefirst holding unit 80a. - The
return portion 76 moves thefirst holding unit 80a in the unholding state in a reverse direction (-X axial direction) of the transport direction. Thereturn portion 76 includes a movinglever 78 and alever moving portion 77 reciprocally moving the movinglever 78 along the transport direction. Thelever moving portion 77 has a rectangular shape long in the transport direction, and is fixed to theside wall 71d on the +Y axial side of thebase 71. On an upper surface (+Z axial side surface) and a lower surface (-Z axial side surface) of thelever moving portion 77, a concave guide groove extending in the transport direction is provided. - The moving
lever 78 includes apedestal 78a having a projection following the shape of the guide groove and anelongated portion 78b extending from thepedestal 78a in a vertical direction (+Z axial direction). The movinglever 78 is configured such that the guide groove of thelever moving portion 77 and thepedestal 78a are engaged with each other and move reciprocally along the X axial direction. Thelever moving portion 77 includes the moving mechanism (not illustrated) reciprocally moving the movinglever 78 in the transport direction. As the moving mechanism, for example, an air cylinder or the like can be adopted. When the movinglever 78 is moved to the upstream side of the transport direction by thelever moving portion 77, theelongated portion 78b of the movinglever 78 abuts on the holdingsubstrate 81 of thefirst holding unit 80a, and thefirst holding unit 80a in the unholding state is returned to an upstream side in the reverse direction of the transport direction. In this way, it is possible to repeatedly move thefirst holding unit 80a along with thetransport belt 23. - The first belt moving
amount measuring unit 70a is configured as described above, and thefirst measuring unit 85a moves in the transport direction (+X axial direction) along with thetransport belt 23 holding thefirst holding unit 80a, and measures the moving amount of +Y axial side (one side) of the transport belt 23 (hereinafter, referred to as first moving amount). - The second belt moving
amount measuring unit 70b is provided on the upstream side of theprinting unit 40, and is positioned on a -Y axial side of thetransport belt 23. - The second belt moving
amount measuring unit 70b includes asecond scale portion 75b provided along the transport direction, asecond measuring unit 85b which measures the relative moving amount with respect to thesecond scale portion 75b, and asecond holding unit 80b which is configured to move integrally with thesecond measuring unit 85b, and holds the other side (-Y axial side) from the center of thetransport belt 23 in the intersecting direction to move along with thetransport belt 23. - The second belt moving
amount measuring unit 70b has the same configuration symmetrical to the first belt movingamount measuring unit 70a in the intersecting direction, so the explanation of the configuration will be omitted. - The
second measuring unit 85b moves in the transport direction (+X axial direction) along with thetransport belt 23 held by thesecond holding unit 80b and measures the moving amount of the -Y axial side (the other side) of the transport belt 23 (hereinafter, referred to as second moving amount). - The first and the
second holding units transport belt 23 on the upstream side from theprinting unit 40 in the transport direction. In a case where thebelt driving roller 25 is rotationally driven in order to move the first and thesecond holding units transport belt 23, since thetransport belt 23 has elasticity, a portion of thetransport belt 23, that is the downstream side from thebelt driving roller 25 in the transport direction and the upstream side from the first and thesecond holding units transport belt 23, is easy to loosen. Since it is possible to shorten a range where looseness easily occurs in thetransport belt 23 by setting the first and thesecond holding units printing unit 40 than the case where the first and thesecond holding units printing unit 40, it is possible to make the difference between the first moving amount and the second moving amount hard to occur. - Furthermore, in the embodiment, a configuration of the first and the
second measuring units second holding units second scale portions - In addition, in the embodiment, a so-called magnetic encoder that obtains a relative moving amount between the
first scale portion 75a and thefirst measuring unit 85a and a relative moving amount between thesecond scale portion 75b and thesecond measuring unit 85b from a change in the magnetic field is exemplified, but an optical encoder that obtains the moving amount from optical change may be used. -
Fig. 5 is an electrical block diagram illustrating an electrical configuration of the printing apparatus. Next, the electrical configuration of theprinting apparatus 100 will be described with reference toFig. 5 . - The
printing apparatus 100 includes aninput device 6 to which printing conditions or the like are input, thecontrol unit 1 which controls each part of theprinting apparatus 100, or the like. As theinput device 6, a desktop type or a laptop type personal computer (PC) provided with adisplay unit 6a, a tablet type terminal, a portable terminal, and the like can be used. Theinput device 6 may be provided separately from theprinting apparatus 100. - The
control unit 1 includes an interface (I/F) 2, a central processing unit (CPU) 3, astorage unit 4, acontrol circuit 5, and the like. Theinterface 2 transmits and receives data between theinput device 6 and thecontrol unit 1 for handling input signals and images. TheCPU 3 is an arithmetic processing device for processing an input signal from various measuringdevice groups 7 including the first and thesecond measuring units printing apparatus 100. For example, theCPU 3 calculates the first and second moving amounts of thetransport belt 23 from the input signal output from the first and thesecond measuring units CPU 3. - The
storage unit 4 is a storage medium for securing an area for storing a program of theCPU 3 or a work area, and has a storage element such as random access memory (RAM), electrically erasable programmable read-only memory (EEPROM), and the like. - The
control unit 1 controls driving of a discharge head provided in thehead unit 42 by a control signal output from thecontrol circuit 5 and discharges ink toward the medium 95. Thecontrol unit 1 controls driving of the motor provided in thecarriage moving unit 45 by the control signal output from thecontrol circuit 5 and reciprocally moves thecarriage 43 mounted with thehead unit 42 in a main scanning direction (Y axial direction). Thecontrol unit 1 controls driving of the motor provided in thebelt driving roller 25 by the control signal output from thecontrol circuit 5 and rotationally moves thetransport belt 23. In this way, the medium 95 mounted on thetransport belt 23 is moved in the transport direction (+X axial direction). - An image or the like is formed on the medium 95 by the alternately repeated printing operation of main scanning in which the
control unit 1 controls thecarriage moving unit 45 and thehead unit 42 and moves the head unit 42 (carriage 43) while discharging ink from the discharge head, and sub-scanning in which the control unit controls thebelt driving roller 25 and transports the medium 95 in the transport direction. - The
control unit 1 controls the current flowing in the electromagnet provided in theswitching unit 74 by the control signal output from thecontrol circuit 5 and switches the state of the first and thesecond holding units control unit 1 controls the moving mechanism of thelever moving portion 77 by the control signal output from thecontrol circuit 5 and reciprocally moves the movinglever 78 along the transport direction. In addition, thecontrol unit 1 controls each device (not illustrated). -
Fig. 6 is a flowchart illustrating a method for measuring a difference in belt moving amount.Fig. 7 is a table illustrating a relationship between a print mode and a reference value.Fig. 8 is a table illustrating a relationship between a type of an image and a reference value. - Next, the method for measuring a difference in belt moving amount in the printing operation of the
printing apparatus 100 will be described with reference toFigs. 6 to 8 . - Step S1 is a print information receiving step for receiving print data. The
control unit 1 receives input of the print data or the print information for recording an image on the medium 95 from theinput device 6 and stores the print data in thestorage unit 4. - Step S2 is a reference value setting step for setting a reference value. In the print information received in step S1, information on the print mode or the type of the image is included. In addition, in the
storage unit 4, for example, a table illustrating a relationship between the print mode and a reference value as illustrated inFig. 7 , and a table illustrating a relationship between the type of the image and a reference value as illustrated inFig. 8 are stored in advance. - As illustrated in
Fig. 7 , a plurality of modes with different required image qualities, expressed as, for example, "super-high image quality", "high image quality", "fast", and the like are prepared in the print mode. In each the print mode, a reference value serving as a criterion for the determination in the determination step S5 described later is set, and it is possible to use two reference values of a first reference value and a second reference value corresponding to the print mode. For example, in a case where the print mode is "super-high image quality", "medium" in the first reference value and "low" in the second reference value are used, and in a case where the print mode is "fast", only "high" in the first reference value is used. In a case where thecontrol unit 1 received the input of any one print mode from the plurality of print modes, thecontrol unit 1 refers to the table stored in thestorage unit 4 and sets a reference value corresponding to the image quality of the received print mode. Furthermore, the first reference value is set to a value at which a desired image quality cannot be satisfied and the second reference value is set to a value lower than the first reference value. In this way, by using a reference value corresponding to the image quality in the print mode, it is possible to suitably perform print on the medium 95. - As shown in
Fig. 8 , a plurality of kinds expressed as, for example, "line image", "plane image", and the like, are prepared in the image type. Here, the "line image" means an image mainly composed of text, a ruled line, and the like, and the "plane image" means an image mainly composed of a photograph, an illustration, or the like. For example, in a case where the type of the image is "line image", since the displacement of the ruled line is likely to be visually recognized, "medium" in the first reference value, and "low" in the second reference value are used, and in a case where the type of the image is "plane image", "high" in the first reference value and "medium" in the second reference value are used. In a case where thecontrol unit 1 receives input of the type of the image to be printed, thecontrol unit 1 refers to the table stored in thestorage unit 4 and uses a reference value corresponding to the received type of the image. Furthermore, the first reference value is set to a value at which a desired image quality cannot be satisfied and the second reference value is set to a value lower than the first reference value. In this way, by using a reference value corresponding to the type of the image, it is possible to suitably perform print on the medium 95. - Step S3 is a holding step for holding the first and the
second holding units transport belt 23. Thecontrol unit 1 applies current to the electromagnet of the switchingunit 74 and generates magnetic force to the electromagnet. In this way, the first and thesecond holding units transport belt 23. - Step S4 is a sub-scanning step for transporting the
transport belt 23 in the transport direction. Thecontrol unit 1 controls thebelt driving roller 25 to move the first and thesecond holding units transport belt 23. Thecontrol unit 1, in accordance with the movement of thetransport belt 23, calculates a first moving amount from a signal output from thefirst measuring unit 85a, calculates a second moving amount from a signal output from thesecond measuring unit 85b, and controls the rotation operation of thetransport belt 23 based on one of the first moving amount and the second moving amount. - In the embodiment, since the
control unit 1 controls the rotation operation of thetransport belt 23 based on the first moving amount, it is possible to prevent the control of thetransport belt 23 being complicated. Then, thecontrol unit 1 stops the rotation of thetransport belt 23 based on the first moving amount measured by thefirst measuring unit 85a in a case where thefirst holding unit 80a is moved from a first position (initial position) to a second position positioned on a downstream side from the first position in the transport direction. Moreover, in the initial sub-scanning step, a distance between the first position and the second position is the transport amount up to a predetermined position for starting the printing operation. In the second and subsequent the sub-scanning steps, the distance between the first position and the second position is the line feed amount generated during the printing operation. - Step S5 is a determination step for determining whether or not the difference between the first moving amount measured by the
first measuring unit 85a and the second moving amount measured by thesecond measuring unit 85b is equal to or greater than a reference value (first reference value). Since thetransport belt 23 has elasticity, there is a concern that a slight shift in the moving amount (transport amount) between one side and the other side in the intersecting direction may occur. Therefore, after stopping the movement (transport) of thetransport belt 23, thecontrol unit 1 calculates the difference between the first moving amount (moving amount of one side of transport belt 23) measured by thefirst measuring unit 85a and the second moving amount (moving amount of the other side of transport belt 23) measured by thesecond measuring unit 85b, and determines whether or not the difference is equal to or greater than the first reference value. In a case where the difference between the first moving amount and the second moving amount is less than the first reference value (No in step S5), the process proceeds to step S6. In a case where the difference between the first moving amount and the second moving amount is equal to or greater than the first reference value (Yes in step S5), thecontrol unit 1 determines that the desired image quality cannot be obtained and stops (ends) printing on the medium 95 by theprinting unit 40. As a result, it is possible to prevent the image having the deteriorated image quality from being printed on the medium 95 in advance. Furthermore, when the printing is stopped, thecontrol unit 1 may display on thedisplay unit 6a that the printing is stopped since it exceeds the first reference value. - Step S6 is a determination step for determining whether or not the difference between the first moving amount measured by the
first measuring unit 85a and the second moving amount measured by thesecond measuring unit 85b is equal to or greater than a reference value (second reference value). In a case where the second reference value is not set, or the difference between the first moving amount and the second moving amount is less than the second reference value (No in step S6), the process proceeds to step S8. In a case where the difference between the first moving amount and the second moving amount is equal to or greater than the second reference value (Yes in step S6), the process proceeds to step S7. - As described in steps S5 and S6, the
control unit 1 determines whether or not the difference between the moving amount (first moving amount) of one side of thetransport belt 23 measured by thefirst measuring unit 85a and the moving amount (second moving amount) of the other side of thetransport belt 23 is equal to or greater than a reference value (first reference value or second reference value). This makes it possible to measure that the difference generated between the moving amount of one side of thetransport belt 23 measured by thesecond measuring unit 85b and the moving amount of the other side of thetransport belt 23 is equal to or greater than a reference value. - Step S7 is a preliminary warning step for giving a preliminary warning to a user. In a case where the difference between the first moving amount and the second moving amount is less than the first reference value and equal to or greater than the second reference value, the
control unit 1 determines that there is a possibility that the image quality may be deteriorated, and performs the preliminary warning operation. - The preliminary warning operation is to notify a user that the difference between the first moving amount and the second moving amount is within an allowable range that is less than the first reference value but it is approaching the limit of the allowable range (first reference value). The
control unit 1 displays a message on thedisplay unit 6a of theinput device 6 via theinterface 2, for example, "The difference in belt moving amount is getting bigger. Print is possible, but maintenance is recommended". Accordingly, it is possible to notify the user that the difference between the first moving amount and the second moving amount (difference between moving amounts of one side and the other side of transport belt 23) is approaching the tolerance limit. In the embodiment, the preliminary warning operation is described as an operation displaying a message as a preliminary warning on thedisplay unit 6a of theinput device 6. However, the printing apparatus may be provided with a notifying unit that performs a preliminary warning operation, and the user may be notified of the preliminary warning by emitting sound, light, or the like from the notifying unit. - Step S8 is a main scanning step for discharging ink toward the medium 95. The
control unit 1 controls thehead unit 42 and thecarriage moving unit 45 to perform the main scanning of discharging ink toward the medium 95 from thehead unit 42 while moving thecarriage 43 mounted with thehead unit 42 in the width direction (Y axial direction) of the medium 95 intersecting with the transport direction. - Step S9 is an unholding step for changing the state of the first and the
second holding units transport belt 23 to the unholding state. Thecontrol unit 1 blocks current flowing in the electromagnet of the switchingunit 74 to demagnetize the magnetic force of the electromagnet. In this way, the first and thesecond holding units - Step S10 is a returning step for returning the
return portion 76 to the upstream side of the transport direction. Thecontrol unit 1 controls thelever moving portion 77 to move the movinglever 78 waiting at a predetermined position on the downstream side in the transport direction to the upstream side in the transport direction from the first and thesecond holding units second holding units lever 78, and the first and thesecond holding units second holding units transport belt 23. Next, the movinglever 78 is moved to the downstream side from the second position in the transport direction and waits at a predetermined position. Furthermore, for convenience of explanation, the steps from the main scanning step for step S8 to the returning step for step S10 are explained in different steps, but, step S7 and step S8 are performed substantially simultaneously with step S6. - Step S11 is a determination step for determining whether there is print data for the next line. The
control unit 1 determines whether there is the print data for the next line with reference to the print data stored in thestorage unit 4. In a case where there is the print data for the next line (Yes in step S11), the process returns to step S3 and step S3 to step S11 are repeated. In this way, the main scanning and the sub-scanning are repeated and an image or the like is printed on the medium 95. In a case where there is no print data for the next line (No in step S11), thecontrol unit 1 ends the printing operation of theprinting apparatus 100. - In step S4, it is noted that the
control unit 1 controls the rotation operation of thetransport belt 23 based on one of the first moving amount and the second moving amount. However, thecontrol unit 1 may control the rotation operation of thetransport belt 23 based on an average moving amount obtained by averaging the first moving amount and the second moving amount. This makes it possible to suppress the difference in the moving amount between one side and the other side of thetransport belt 23 from becoming large. - Further, in the embodiment, the flow of performing the returning step for each sub-scanning step and the main scanning step is described, but a flow of returning the moving amount of the first and the
second holding units - As described above, the following effects can be obtained according to the
printing apparatus 100 and the method for measuring a difference in belt moving amount of the embodiment. - The
printing apparatus 100 includes the first belt movingamount measuring unit 70a that measures a moving amount of one end side of thetransport belt 23 in the intersecting direction, and the second belt movingamount measuring unit 70b that measures a moving amount of the other end side of thetransport belt 23. The first belt movingamount measuring unit 70a includes thefirst scale portion 75a provided along the transport direction and thefirst holding unit 80a which moves integrally with thefirst measuring unit 85a that measures the relative moving amount with respect to thefirst scale portion 75a and holds one side of thetransport belt 23. The second belt movingamount measuring unit 70b includes thesecond scale portion 75b provided along the transport direction and thesecond holding unit 80b which moves integrally with thesecond measuring unit 85b that measures the relative moving amount with respect to thesecond scale portion 75b and holds the other side of thetransport belt 23. With this configuration, thefirst measuring unit 85a measures the moving amount of one end side of thetransport belt 23, and thesecond measuring unit 85b measures the moving amount of the other end side of thetransport belt 23. Theprinting apparatus 100 further includes thecontrol unit 1 that determines whether or not the difference between the first moving amount and the second moving amount is equal to or greater than a reference value. As a result, theprinting apparatus 100 can measure that a difference equal to or greater than a reference value is generated between the moving amount of one side of thetransport belt 23 and the moving amount for the other side. - Since the
control unit 1 of theprinting apparatus 100 controls the rotation operation of thetransport belt 23 based on the first moving amount, it is possible to suppress the control of thetransport belt 23 being complicated. - The
control unit 1 of theprinting apparatus 100 determines that a desired image quality cannot be obtained in a case where the difference between the first moving amount and the second moving amount is equal to or greater than the first reference value, and stops printing on the medium 95 by theprinting unit 40. As a result, it is possible to prevent the image having the deteriorated image quality from being printed on the medium 95 in advance. - In a case where the
control unit 1 of theprinting apparatus 100 receives input of any one of the print modes or image types from the plurality of print modes or image types, the control unit of the printing apparatus refers to the table stored in thestorage unit 4, and a reference value corresponding to the image quality of the received print mode or the received type of the image is used. The two reference values of the first reference value and the second reference value can be used as a reference value. The first reference value is set to a value at which a desired image quality cannot be satisfied, and the second reference value is set to a value lower than the first reference value. As a result, it is possible to suitably perform print on the medium 95. - The first and the
second holding units printing apparatus 100 hold thetransport belt 23 on the upstream side from theprinting unit 40 in the transport direction. This makes it possible to shorten the range in which looseness easily occurs in thetransport belt 23 as compared with the case where the first and thesecond holding units printing unit 40. Therefore, it is possible to make the difference between the first moving amount and the second moving amount hard to occur. - The method for measuring a difference in belt moving amount of the
printing apparatus 100 includes a determination step for determining whether or not the difference between the first moving amount measured by thefirst measuring unit 85a and the second moving amount measured by thesecond measuring unit 85b is equal to or greater than a reference value. The first moving amount is a relative moving amount between thefirst scale portion 75a and thefirst measuring unit 85a provided along the transport direction. Since thefirst measuring unit 85a moves integrally with thefirst holding unit 80a which holds one side from the center of thetransport belt 23 in the intersecting direction intersecting the transport direction, thefirst measuring unit 85a measures the moving amount of one side of thetransport belt 23. The second moving amount is a relative moving amount between thesecond scale portion 75b and thesecond measuring unit 85b provided along the transport direction. Since thesecond measuring unit 85b moves integrally with thesecond holding unit 80b that holds the other side from the center of thetransport belt 23 in the intersecting direction, thesecond measuring unit 85b measures the moving amount of the other side of thetransport belt 23. Therefore, according to the method for measuring a difference in belt moving amount, it is possible to measure whether the difference generated between the moving amount (transport amount) of one side and the moving amount of the other side (transport amount) of thetransport belt 23 is equal to or greater than a reference value. - The invention is not limited to the above-described embodiments, and various modifications and improvements can be added to the above-described embodiments. A modification example will be described below.
-
Fig. 9 is a flowchart illustrating the method for measuring a difference in belt moving amount according to a modification example.Fig. 10 is a graph illustrating a variation in the moving amount difference of the transport belt. In the method for measuring a difference in belt moving amount of theprinting apparatus 100 described in this modification example, the difference (moving amount difference) between the first moving amount and the second moving amount is stored in time series, and is different from the embodiment in that the warning operation is performed in a case where the variation in the moving amount difference stored before and after reaches a reference value or more. - Below, a method for measuring a difference in belt moving amount of the printing operation of the
printing apparatus 100 according to the modification example will be described with reference toFigs. 9 and10 . Since the configuration of theprinting apparatus 100 is the same as that of the embodiment, its description will be omitted. In the flowchart illustrated inFig. 9 , the step S101 is the same as the step S1 described in the embodiment, the step S102 and the step S103 are the same as the steps S3 and S4 explained in the embodiment, and the steps S107 to S110 are the same as the steps S8 to S11 described in the embodiment, so that the description thereof will be omitted. - Step S104 is a variation in moving amount difference storing step for calculating and storing the moving amount difference. When the number of times the
transport belt 23 has transported the medium 95 (the number of times of sub-scanning) is n, thecontrol unit 1 calculates the difference between the first moving amount (moving amount of one side of transport belt 23) and the second moving amount (moving amount of the other side of transport belt 23), and stores the difference as the nth moving amount difference in thestorage unit 4. As a result, it is possible to check the changes over time on the difference in the moving amount (moving amount difference = second moving amount-first moving amount) between one side and the other side of thetransport belt 23. Further, thecontrol unit 1 calculates the variation (hereinafter, referred to as variation in moving amount difference) in the nth moving amount difference with respect to the (n-1)th moving amount difference, that is the difference between the first moving amount and the second moving amount calculated before storing the nth moving amount difference and stored in thestorage unit 4, and stores the variation in thestorage unit 4. - For example, the difference between the first moving amount and the second moving amount calculated in the first sub-scanning (n = 1) is stored in the
storage unit 4 as the first moving amount difference, and the difference between the first moving amount and the second moving amount calculated in the second sub-scanning (n = 2) is stored in thestorage unit 4 as the second moving amount difference. Then, in the second sub-scanning, thecontrol unit 1 calculates the difference (variation in moving amount difference = second moving amount difference - first moving amount difference) of the second moving amount difference with respect to the first moving amount difference. Furthermore, in the case of the first sub-scanning, the first moving amount difference is set as the variation in moving amount difference. As a result, it is possible to grasp the change overtime on the variation in moving amount difference. - The graph of
Fig. 10 shows an example of the variation in moving amount difference calculated when the sub-scanning is performed from the first time to the 13th time. The vertical axis of the graph shown inFig. 10 represents the variation in moving amount difference, and a predetermined reference value is set. The horizontal axis represents the number n times of sub-scanning. From this graph, it can be seen that in the sub-scanning from the first time to the ninth time, the moving amount of one side of thetransport belt 23 and the moving amount of the other side are substantially equal to the predetermined moving amount. In the tenth and subsequent sub-scannings, since the variation in moving amount difference continuously changes toward the +reference value side, it can be seen that the second moving amount (moving amount of the other side of transport belt 23) continues to increase. This makes it possible to predict that the difference between the first moving amount and the second moving amount (difference between moving amounts of one side and the other side of transport belt 23) increases. - Step S105 is a determination step for determining whether or not the variation in moving amount difference is equal to or greater than a reference value. The
control unit 1 refers to the variation in moving amount difference stored in thestorage unit 4 and determines whether or not the variation in moving amount difference is equal to or greater than a predetermined reference value. In a case where the variation in moving amount difference is less than the predetermined reference value (No in step S105), the process proceeds to step S107. In a case where the variation in moving amount difference is equal to or greater than the predetermined reference value (Yes in step S105), the process proceeds to step S106. - Step S106 is a warning step for giving a warning to the user. In a case where the variation (variation in moving amount difference) in the (n-1)th moving amount difference with respect to the nth moving amount difference is equal to or greater than a reference value, the
control unit 1 determines that the image quality is deteriorated and performs a warning operation. For example, inFig. 10 , since the variation in moving amount difference (variation in the twelfth moving amount difference with respect to the thirteenth moving amount difference) calculated in the thirteenth sub-scanning is equal to or greater than a reference value, a warning operation will be performed after performing the thirteenth sub-scanning step. As a warning operation, thecontrol unit 1 displays a message on thedisplay unit 6a of theinput device 6 via theinterface 2, for example, "The difference in belt moving amount is getting bigger. Please carry out maintenance". In this way, it is possible to notify the user of abnormality of the apparatus in advance. In the present modification example, the warning operation is described as an operation displaying a message as a preliminary warning on thedisplay unit 6a of theinput device 6. However, the printing apparatus may include a notifying unit that performs a warning operation, and the user may be notified of the preliminary warning by emitting sound, light, or the like. In addition, two thresholds can be used in this modification example similar to the embodiment. Moreover, the embodiment and the modification example can be combined. In the modification example, after a YES determination in S105, the printing operation may be stopped.
Claims (11)
- A printing apparatus (100) comprising:a printing unit (40) configured to perform printing on a medium (95);a transport belt (23) which rotationally moves to transport the medium in a transport direction;a first and a second scale portions (75a, 75b) which are provided along the transport direction;a first measuring unit (85a) configured to measure a relative moving amount with respect to the first scale portion;a second measuring unit (85b) configured to measure a relative moving amount with respect to the second scale portion;a first holding unit (80a) which is configured to move integrally with the first scale portion or the first measuring unit, and holds the transport belt on one side from a center of the transport belt in an intersecting direction intersecting with the transport direction to move along with the transport belt;a second holding unit (80b) which is configured to move integrally with the second scale portion or the second measuring unit, and holds the transport belt on the other side from the center of the transport belt in the intersecting direction to move along with the transport belt; anda control unit (1) configured to determine whether or not a difference between a first moving amount measured by the first measuring unit and a second moving amount measured by the second measuring unit is equal to or greater than a reference value.
- The printing apparatus according to Claim 1,
wherein the control unit is configured to control the rotational movement of the transport belt based on one moving amount of the first moving amount and the second moving amount. - The printing apparatus according to Claim 1,
wherein the control unit is configured to control the rotational movement of the transport belt based on an average moving amount obtained by averaging the first moving amount and the second moving amount. - The printing apparatus according to any one of the preceding claims,
wherein the control unit is configured to stop printing on the medium by the printing unit in a case where the control unit determines that a difference between the first moving amount and the second moving amount is equal to or greater than a reference value. - The printing apparatus according to any one of the preceding claims,
wherein the control unit is configured to receive input of a print mode from a plurality of print modes with different required image qualities and to use a reference value corresponding to the image quality of the received print mode. - The printing apparatus according to any one of the claims 1 to 4,
wherein the control unit is configured to receive input of a type of an image to be printed and to use a reference value corresponding to the received type of the image. - The printing apparatus according to any one of the preceding claims,
wherein, when the number of times that the transport belt transports the medium is n,
the control unit is configured to calculate the difference between the first moving amount and the second moving amount, store the difference as an nth moving amount difference, and store the difference between the first moving amount and the second moving amount calculated before storing the nth moving amount difference as an (n-1)th moving amount difference. - The printing apparatus according to Claim 7,
wherein the control unit is configured to perform a warning operation in a case where the control unit determines that a variation of the (n-1)th moving amount difference with respect to the nth moving amount difference is equal to or greater than a reference value. - The printing apparatus according to any one of the preceding claims,
wherein a first reference value and a second reference value having a value lower than the first reference value are usable as the reference value in the control unit, and
wherein, in a case where the control unit determines that the difference between the first moving amount and the second moving amount is lower than the first reference value and equal to or greater than the second reference value, the control unit is configured to perform a preliminary warning operation. - The printing apparatus according to any one of the preceding claims, further comprising:a driving unit (25) configured to rotationally move the transport belt,wherein the driving unit is provided on a downstream side from the printing unit in the transport direction, andwherein the first holding unit and the second holding unit are configured to hold the transport belt on an upstream side from the printing unit in the transport direction.
- A method for measuring a difference in belt moving amount of a printing apparatus (100) which includes a printing unit (40) which performs printing on a medium (95), a transport belt (23) which rotationally moves to transport the medium in a transport direction, a first and a second scale portions (75a, 75b) which are provided along the transport direction, a first measuring unit (85a) which measures a relative moving amount with respect to the first scale portion, a second measuring unit (85b) which measures a relative moving amount with respect to the second scale portion, a first holding unit (80a) which is configured to move integrally with the first scale portion or the first measuring unit, and holds the transport belt on one side from a center of the transport belt in an intersecting direction intersecting with the transport direction to move along with the transport belt, and a second holding unit (80b) which is configured to move integrally with the second scale portion or the second measuring unit, and holds the transport belt on the other side from the center of the transport belt in the intersecting direction to move along with the transport belt, the method comprising:
determining whether or not a difference between a first moving amount measured by the first measuring unit and a second moving amount measured by the second measuring unit is equal to or greater than a reference value.
Applications Claiming Priority (1)
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JP2017099543A JP6919327B2 (en) | 2017-05-19 | 2017-05-19 | Printing device and belt movement amount difference detection method |
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EP3403835B1 EP3403835B1 (en) | 2020-12-23 |
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Cited By (3)
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EP3680107A1 (en) * | 2019-01-09 | 2020-07-15 | Konica Minolta, Inc. | Printing device and meandering amount detecting method |
EP4173836A1 (en) * | 2021-10-27 | 2023-05-03 | Seiko Epson Corporation | Transport device and recording apparatus |
EP4183493A1 (en) * | 2021-11-19 | 2023-05-24 | Seiko Epson Corporation | Transport device, liquid ejecting device |
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JP7208586B2 (en) * | 2019-02-21 | 2023-01-19 | セイコーエプソン株式会社 | recording device |
JP7352825B2 (en) * | 2019-09-26 | 2023-09-29 | セイコーエプソン株式会社 | Liquid discharge device and conveyance belt conveyance method |
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JP2013028143A (en) | 2011-07-29 | 2013-02-07 | Konica Minolta Ij Technologies Inc | Recording medium conveying device and inkjet recording apparatus |
EP2679391A1 (en) * | 2011-02-24 | 2014-01-01 | Konica Minolta, Inc. | Recording medium transfer apparatus and image forming apparatus |
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US7258414B2 (en) * | 2004-09-17 | 2007-08-21 | Ricoh Company, Ltd. | Image-forming apparatus |
JP5239656B2 (en) * | 2007-09-13 | 2013-07-17 | 株式会社リコー | Image forming apparatus and belt apparatus |
JP2009202491A (en) * | 2008-02-28 | 2009-09-10 | Ricoh Co Ltd | Image formation device |
JP5573450B2 (en) * | 2010-07-20 | 2014-08-20 | セイコーエプソン株式会社 | Recording device |
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2017
- 2017-05-19 JP JP2017099543A patent/JP6919327B2/en active Active
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EP2679391A1 (en) * | 2011-02-24 | 2014-01-01 | Konica Minolta, Inc. | Recording medium transfer apparatus and image forming apparatus |
JP2013028143A (en) | 2011-07-29 | 2013-02-07 | Konica Minolta Ij Technologies Inc | Recording medium conveying device and inkjet recording apparatus |
US20160152051A1 (en) * | 2013-07-08 | 2016-06-02 | Mimaki Engineering Co., Ltd. | Inkjet recording device |
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EP3680107A1 (en) * | 2019-01-09 | 2020-07-15 | Konica Minolta, Inc. | Printing device and meandering amount detecting method |
EP4173836A1 (en) * | 2021-10-27 | 2023-05-03 | Seiko Epson Corporation | Transport device and recording apparatus |
EP4183493A1 (en) * | 2021-11-19 | 2023-05-24 | Seiko Epson Corporation | Transport device, liquid ejecting device |
Also Published As
Publication number | Publication date |
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CN108944040B (en) | 2021-08-17 |
JP6919327B2 (en) | 2021-08-18 |
CN108944040A (en) | 2018-12-07 |
EP3403835B1 (en) | 2020-12-23 |
JP2018192734A (en) | 2018-12-06 |
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