JP6245750B2 - Gravure printing machine - Google Patents

Description

  The present invention relates to a gravure printing machine.

  In the field of printed electronics (PE), the use of a gravure printing machine has been studied. For example, in a flat bed type in which a sheet-like base material is arranged and printed on a flat plate (flat bed), a plate cylinder (gravure cylinder) in which an intaglio (gravure plate) in which a groove of a wiring pattern is formed is mounted on the outer periphery The ink is fed to the groove of the intaglio plate at the same time as the ink is fed to the intaglio plate while rotating the plate cylinder by contacting a doctor blade to the ink, While removing the scrap from the intaglio plate, the blanket cylinder around which the silicone blanket is wound is rotated while being brought into contact with the plate cylinder, whereby ink corresponding to the wiring pattern of the intaglio plate of the plate cylinder is transferred to the blanket cylinder. After passing on the silicone blanket, the blanket cylinder is rolled on the base material of the flat bed. It way, the ink on the silicone blanket of the blanket cylinder so that it can be printed by transferring onto the substrate (e.g., refer to Patent Document 1, etc.).

JP 2005-186597 A

  In the gravure printing machine as described above, if the ink remains in the groove of the wiring pattern formed on the intaglio and solidifies by drying, a defective portion is formed on the wiring pattern that is transferred and printed on the substrate. Therefore, when a printing operation is performed for a predetermined period, the operator wipes and cleans the intaglio with a waste impregnated with a cleaning liquid.

  However, in the gravure printing machine as described above, since the width of the groove of the wiring pattern formed on the intaglio is very narrow (about 1 to 100 μm), the inside of the groove formed in the intaglio The cleaning work was very time-consuming and put a heavy burden on the workers.

  In view of the above, an object of the present invention is to provide a gravure printing machine capable of easily cleaning the inside of a groove formed in an intaglio.

  In order to solve the above-described problems, a gravure printing machine according to the present invention includes a gravure cylinder in which a gravure plate having a groove formed is mounted on an outer periphery, and an ink that supplies ink to the groove of the gravure plate of the gravure cylinder In a gravure printing machine comprising a supply means and a base material support means for supporting a base material to which ink from the gravure plate of the gravure cylinder is transferred, a cleaning tank into which a cleaning liquid is put, and the cleaning tank A moving means for moving at least one of the cleaning tank and the gravure cylinder so as to put a gravure cylinder; a cleaning means for cleaning the gravure plate of the gravure cylinder provided in the cleaning tank and placed in the cleaning tank; It is characterized by having.

  The gravure printing machine according to the present invention is characterized in that, in the above-described gravure printing machine, the cleaning unit includes an ultrasonic oscillation unit that oscillates an ultrasonic wave in the cleaning liquid inside the cleaning tank. .

  Further, the gravure printing machine according to the present invention is the gravure printing machine described above, wherein the cleaning means is disposed so as to contact the outer periphery of the gravure cylinder, and the brush cleaning means for brush cleaning the outer periphery of the gravure cylinder. It is characterized by having.

  In the gravure printing machine according to the present invention, in the above-described gravure printing machine, the cleaning unit includes a mixed fluid ejecting unit that ejects a mixed fluid of a cleaning liquid and air toward the outer periphery of the gravure cylinder. It is characterized by.

  Further, the gravure printing machine according to the present invention is the above-described gravure printing machine, wherein the outer periphery of the gravure cylinder is above the liquid level of the cleaning liquid inside the cleaning tank when the gravure cylinder is put in the cleaning tank. A cleaning liquid ejecting unit that ejects the cleaning liquid toward the head is provided.

  Further, the gravure printing machine according to the present invention is the above-described gravure printing machine, wherein the outer periphery of the gravure cylinder is above the liquid level of the cleaning liquid inside the cleaning tank when the gravure cylinder is put in the cleaning tank. An air injection means for injecting air toward is provided.

Further, the gravure printing machine according to the present invention is the gravure printing machine described above, wherein the moving means is a cleaning position where the gravure cylinder is placed in the cleaning tank, and a retreat position where the cleaning tank and the gravure cylinder are separated from each other. And a cleaning tank moving means for moving the cleaning tank so as to switch the position of the cleaning tank.

  According to the gravure printing machine according to the present invention, the moving means moves at least one of the cleaning tank and the gravure cylinder to put the gravure cylinder in the cleaning tank, and the cleaning means includes the gravure cylinder in the cleaning tank. Since the gravure plate is washed, the inside of the groove formed in the gravure plate can be easily washed without the operator having to wipe off the gravure plate with a waste impregnated with a cleaning solution. The burden can be greatly reduced.

It is a schematic block diagram of the principal part of 1st embodiment of the gravure printing machine which concerns on this invention. It is an operation explanatory view at the time of printing operation of the gravure printing machine of FIG. It is operation | movement explanatory drawing at the time of the washing | cleaning driving | operation with respect to the intaglio of the gravure printing machine of FIG. It is a schematic block diagram of the principal part of 2nd embodiment of the gravure printing machine which concerns on this invention. It is action | operation explanatory drawing at the time of the washing | cleaning driving | operation with respect to the intaglio of the gravure printing machine of FIG.

  Embodiments of a gravure printing machine according to the present invention will be described with reference to the drawings, but the present invention is not limited to only the following embodiments described with reference to the drawings.

<First embodiment>
A first embodiment of a gravure printing machine according to the present invention will be described with reference to FIGS.

  As shown in FIG. 1, a base material 1 such as a sheet-like resin film or flexible glass as a target body is placed and supported on one side in the longitudinal direction on the flat bed 101 (right side in FIG. 1). It has become so. A plate in which a sleeve-type intaglio (gravure plate) 112 in which a groove (width: about 1 to 100 μm) of a wiring pattern is formed on the other side in the longitudinal direction of the flat bed 101 (left side in FIG. 1) is mounted on the outer periphery. A cylinder (gravure cylinder) 111 is rotatably arranged so as to be directed in the axial direction in the width direction of the flat bed 101 (the vertical direction in FIG. 1). A doctor blade 113 is disposed above the plate cylinder 111 so that the tip of the doctor blade 113 is in contact with the intaglio 112 of the plate cylinder 111, and the doctor blade 113 is opposed to the plate cylinder 111. It can be moved up and down so that it can move toward and away.

  Ink 2 is supplied between the plate cylinder 111 and the doctor blade 113, and the doctor blade 113 is rotated at the leading end of the plate cylinder 111 with the rotation of the plate cylinder 111. Ink 2 is supplied to the groove of the wiring pattern of the intaglio 112 of the cylinder 111, and at the same time, the ink 2 attached to portions other than the groove of the intaglio 112 can be scraped off from the intaglio 112.

  A blanket cylinder (silicone blanket cylinder) 114 in which a silicone blanket is wound around the outer periphery of the plate cylinder 111 in the axial direction in the width direction of the flat bed 101 is rotatably contacted. It can move while rotating between one end side (right side in FIG. 1) and the other end side (left side in FIG. 1) of the flat bed 101, on the base material 1 on the flat bed 101. Can be rolled while being in contact with the substrate 1.

  A support table 121 is disposed below the plate cylinder 111 and below the flat bed 101. On the support table 121, a cleaning tank 123 into which the cleaning liquid 3 can be placed is disposed below the flat table 101. An elevating device 122 that raises and lowers the support table 121 is provided below the support table 121. The elevating device 122 moves the position of the cleaning tank 123 to the inside of the cleaning tank 123. The cleaning tank 123 is moved so that it can be switched between an upper cleaning position (see FIG. 3) for inserting the cleaning tank and a lower retreat position (see FIGS. 1 and 2) in which the cleaning tank 123 and the plate cylinder 111 are separated from each other. It can be moved up and down.

  Below the cleaning tank 123, an ultrasonic oscillator 124, which is an ultrasonic oscillator that oscillates ultrasonic waves in the cleaning liquid 3 inside the cleaning tank 123, is disposed.

  When the washing tank 123 is positioned at the washing position, the inside of the washing tank 123 is downstream in the rotation direction with respect to the uppermost part of the plate cylinder 111 and upstream in the rotation direction with respect to the lowermost part. At a position below the liquid surface of the cleaning liquid 3 inside (the left side in FIG. 1), a brush roller 125 that can be driven and rotated is axially disposed on the outer periphery of the plate cylinder 111 when positioned at the cleaning position. It arrange | positions so that it can contact | abut over the full length.

  When the cleaning tank 123 is positioned at the cleaning position, the cleaning tank 123 has a rotation direction downstream from the lowermost part of the plate cylinder 111 and an upstream side in the rotation direction from the uppermost part. A cleaning liquid nozzle 126 oriented along the axial direction of the plate cylinder 111 is oriented so that the tip is directed toward the outer periphery (right side in FIG. 1) of the plate cylinder 111 above the liquid level of the internal cleaning liquid 3. A plurality are provided at predetermined intervals.

  Below the cleaning tank 123, an inlet of a delivery pump 127 for sending the cleaning liquid 3 inside the cleaning tank 123 is connected via a flexible hose or the like. The delivery port of the delivery pump 127 communicates via a filter 128 above a storage tank 129 that stores the cleaning liquid 3 therein. Below the storage tank 129, a receiving port of a delivery pump 130 for sending the cleaning liquid 3 inside the storage tank 129 is connected. The delivery port of the delivery pump 130 is connected to the proximal end of the cleaning nozzle 126 via a flexible hose or the like.

  When the cleaning tank 123 is positioned at the cleaning position, the cleaning tank 123 has a rotation direction downstream from the lowermost part of the plate cylinder 111 and an upstream side in the rotation direction from the uppermost part. An air nozzle 131 oriented so that the front end is directed toward the outer periphery (right side in FIG. 1) of the plate cylinder 111 that is above the liquid surface of the internal cleaning liquid 3 and above the front end of the cleaning liquid nozzle 126. A plurality of plates are provided at predetermined intervals along the axial direction of the plate cylinder 111. The outlet of the air blower 132 is connected to the base end of the air nozzle 131 via a flexible hose or the like.

  In this embodiment, the flat bed 101 or the like constitutes a base material support means, the doctor blade 113 or the like constitutes an ink supply means, and the support table 121 and the elevating device 122 or the like serve as a washing tank moving means. And a moving means, a brush cleaning means is constituted by the brush roller 125 and the like, and a cleaning liquid injection means is constituted by the cleaning liquid nozzle 126, the delivery pumps 127 and 130, the filter 128, the storage tank 129 and the like. The air nozzle 131, the air blower 132, and the like constitute air injection means, and the brush cleaning means, the ultrasonic oscillation means, and the like constitute cleaning means.

  In the gravure printing machine 100 according to this embodiment, after the base material 1 is placed and supported on the flat bed 101, the plate cylinder 111 is rotated while the plate cylinder 111 and the blanket cylinder 114 are rotated. When the ink 2 is supplied between the doctor blade 113 and the doctor blade 113, the ink 2 is supplied to the groove of the wiring pattern of the intaglio 112 of the plate cylinder 111 by the tip of the doctor blade 113 and the intaglio 112. The portion of the blanket cylinder 114 is scraped off from the portion other than the groove, and delivered to the silicone blanket of the blanket cylinder 114 in a state corresponding to the wiring pattern.

  When the ink 2 is transferred onto the silicone blanket of the blanket cylinder 114, the blanket cylinder 114 is moved from the other end side (left side in FIG. 2) to one end side (right side in FIG. 2) of the flat bed 101. The ink 2 on the silicone blanket is transferred onto the base material 1 and printed (see FIG. 2).

  As a result, the ink 2 is transferred onto the substrate 1 in a state corresponding to the wiring pattern, and the wiring pattern is printed.

  Then, when such a printing operation is performed for a predetermined period, as shown in FIG. 3, the blanket cylinder 114 is positioned so that the blanket cylinder 114 is located at the retracted position (right side in FIG. 3) separated from the plate cylinder 111. 114 is moved, and the doctor blade 113 is moved so that the doctor blade 113 is moved to the retreat position (upward in FIG. 3) separated from the plate cylinder 111, and then the cleaning tank 123 is cleaned. The inversion plate 112 of the plate cylinder 111 is immersed in the cleaning liquid 3 inside the cleaning tank 123 by operating the elevating device 122 to raise the support table 121 so as to switch to the position.

  Next, the plate cylinder 111 is rotationally driven and the brush roller 125 is rotationally driven, whereby the intaglio 112 is brush-cleaned in the cleaning liquid 3, and the ultrasonic oscillator 124 is operated so The intaglio 112 immersed in the cleaning liquid 3 is ultrasonically cleaned by oscillating sound waves, and the delivery pumps 127 and 130 are operated to apply the cleaning liquid to the surface of the intaglio 112 cleaned in the cleaning liquid 3. By spraying a fresh cleaning liquid 3 from the nozzle 126 over the entire length of the plate cylinder 111 in the axial direction, the intaglio 112 is rinsed and the air blower 132 is operated, and the air nozzle is applied to the surface of the intaglio 112 that has been rinsed. Cleaning that adheres to the intaglio 112 by injecting air 4 from the entire length of the plate cylinder 111 in the axial direction. 3 is removed.

  Thereby, the intaglio 112 is reliably cleaned including the inside of the groove (width: about 1 to 100 μm) of the wiring pattern.

  When such a cleaning operation is performed for a predetermined time, the rotational driving of the plate cylinder 111 is stopped, the rotational driving of the brush roller 125, the operation of the ultrasonic oscillator 124, the operation of the delivery pumps 127 and 130, the air blower The operation of 132 is stopped, and the lifting device 122 is operated again to lower the support table 121 so that the cleaning tank 123 is switched to the original lower retreat position (see FIGS. 1 and 2).

  Then, the blanket cylinder 114 is moved so as to be positioned at a contact position (left side in FIGS. 1 and 2) where the blanket cylinder 114 is in contact with the plate cylinder 111, and the doctor blade 113 is moved to the plate cylinder 111. The doctor blade 113 is moved so as to be located at a contact position (downward in FIGS. 1 and 2) to be brought into contact with each other, thereby returning to an initial state in which a printing operation is possible.

  Therefore, according to the gravure printing machine 100 according to the present embodiment, the wiring pattern formed on the intaglio 112 is very fine even if the operator does not wipe and wash the intaglio 112 with a waste impregnated with a cleaning liquid. It is easy to reliably clean the inside of the width groove, and the burden on the operator can be greatly reduced.

<Second Embodiment>
A second embodiment of the gravure printing machine according to the present invention will be described with reference to FIGS. However, parts similar to those in the above-described embodiment are denoted by the same reference numerals as those used in the description of the above-described embodiment, thereby omitting the description overlapping with the description of the above-described embodiment.

  As shown in FIGS. 4 and 5, when the cleaning tank 123 is located at the cleaning position, the cleaning tank 123 rotates more downstream than the uppermost part of the plate cylinder 111 in the rotation direction. A jet nozzle 233 that is oriented so that its tip is directed toward the outer periphery (left side in FIGS. 4 and 5) of the plate cylinder 111 that is upstream in the direction and above the liquid level of the cleaning liquid 3 inside the cleaning tank 123. Are provided at predetermined intervals along the axial direction of the plate cylinder 111.

  The outlet of the air compressor 234 and the outlet of the delivery pump 235 are connected to the base end of the jet nozzle 233 via a flexible hose or the like. The receiving port of the delivery pump 235 is connected to the lower side of the storage tank 129.

  That is, when the air compressor 234 and the delivery pump 235 are operated to supply the air 4 and the cleaning liquid 3 to the jet nozzle 233, the mixed fluid 5 of the air 4 and the cleaning liquid 3 is jetted from the tip of the jet nozzle 233. It can be injected.

  In this embodiment, the delivery pumps 127 and 235, the filter 128, the storage tank 129, the jet nozzle 233, the air compressor 234, and the like constitute a mixed fluid ejection unit, and the mixed fluid ejection unit, The cleaning means is constituted by ultrasonic oscillating means or the like.

  In such a gravure printing machine 200 according to the present embodiment, by performing a printing operation in the same manner as in the above-described embodiment, the ink 2 is transferred onto the substrate 2 in a state corresponding to the wiring pattern, and the wiring A pattern can be printed.

  When the printing operation is performed for a predetermined period, as in the case of the above-described embodiment, the blanket cylinder 114 is positioned so as to be positioned at the retracted position (right side in FIG. 5) separated from the plate cylinder 111. 114 is moved, and the doctor blade 113 is moved so that the doctor blade 113 is moved to a retracted position (upward in FIG. 5) separated from the plate cylinder 111, and then the cleaning tank 123 is cleaned. The inversion plate 112 of the plate cylinder 111 is immersed in the cleaning liquid 3 inside the cleaning tank 123 by operating the elevating device 122 to raise the support table 121 so as to switch to the position.

  Next, while rotating the plate cylinder 111 and operating the air compressor 234 and the delivery pumps 127 and 235, the mixed fluid 5 is supplied to the surface of the intaglio 112 from the tip of the jet nozzle 233. The intaglio 112 is jet-cleaned by jetting over the entire length in the axial direction, and the ultrasonic oscillator 124 is operated to oscillate ultrasonic waves in the cleaning liquid 3 in the same manner as in the above-described embodiment, The intaglio 112 immersed in the cleaning liquid 3 is ultrasonically cleaned, and the delivery pump 130 is operated to apply the fresh cleaning liquid 3 from the cleaning liquid nozzle 126 onto the surface of the intaglio 112 cleaned in the cleaning liquid 3. By injecting the entire length of the plate cylinder 111 in the axial direction, the intaglio 112 is rinse-cleaned, and the air blower 1 2 by operating the, by injecting air 4 over the entire axial length of the plate cylinder 111 from the air nozzle 131 to rinse the cleaned surface of the intaglio 112, to remove the washing liquid 3 adhering to the intaglio 112.

  Thereby, the intaglio 112 is reliably cleaned including the inside of the groove (width: about 1 to 100 μm) of the wiring pattern as in the case of the above-described embodiment.

  When such a cleaning operation is performed for a predetermined time, the rotational drive of the plate cylinder 111 is stopped, the operation of the ultrasonic oscillator 124, the operation of the delivery pumps 127, 130, 235, the operation of the air blower 132, the air The operation of the compressor 234 is stopped, and the lift device 122 is operated again so that the cleaning tank 123 is switched to the initial lower retreat position (see FIGS. 1 and 2), as in the above-described embodiment. The support table 121 is lowered.

  As in the case of the above-described embodiment, the blanket cylinder 114 is moved so that the blanket cylinder 114 is located at a contact position (on the left side in FIGS. 4 and 5) where the plate cylinder 111 is in contact. The doctor blade 113 is moved to a contact position (downward in FIGS. 4 and 5) where the doctor blade 113 is brought into contact with the plate cylinder 111, so that the printing operation can be performed in an initial state. Can return.

  That is, in the gravure printing machine 200 according to the present embodiment, instead of the brush cleaning means such as the brush roller 125 of the gravure printing machine 100 according to the above-described embodiment, a mixed fluid ejecting unit including the jet nozzle 233 or the like is used. It was made to apply.

  Therefore, according to the gravure printing machine 200 according to the present embodiment, as in the case of the gravure printing machine 100 according to the above-described embodiment, the operator does not wipe and wash the intaglio 112 with the waste impregnated with the cleaning liquid. However, it is easy to reliably clean the inside of the very narrow groove of the wiring pattern formed on the intaglio 112, and the burden on the operator can be greatly reduced.

<Other embodiments>
In the first embodiment described above, the brush roller 125 is disposed at a position below the liquid surface of the cleaning liquid 3 inside the cleaning tank 123. However, as another embodiment, as shown in FIG. For example, by disposing the brush roller 125 at a position above the liquid level of the cleaning liquid 3 inside the cleaning tank 123, the resistance applied when the brush roller 125 is driven to rotate is reduced. It is also possible to do.

  However, as in the first embodiment described above, if the brush roller 125 is disposed at a position below the level of the cleaning liquid 3 inside the cleaning tank 123, the groove of the wiring pattern of the intaglio 112 is provided. Since the inside washing efficiency can be improved, it is preferable.

  In the second embodiment described above, the jet nozzle 233 is disposed at a position above the liquid surface of the cleaning liquid 3 inside the cleaning tank 123. However, as another embodiment, as shown in FIG. For example, the jet nozzle 233 can be disposed at a position below the liquid surface of the cleaning liquid 3 inside the cleaning tank 123.

  However, as in the second embodiment described above, when the jet nozzle 233 is disposed at a position above the liquid level of the cleaning liquid 3 inside the cleaning tank 123, the mixed fluid 5 with respect to the intaglio 112 is used. The pressure drop of the intaglio 112 can be suppressed, and the cleaning efficiency inside the groove of the wiring pattern of the intaglio 112 can be increased.

  In the first embodiment described above, the brush cleaning means, the ultrasonic oscillating means, and the like constitute cleaning means. In the second embodiment described above, the mixed fluid ejecting means, Although the cleaning means is constituted by the sound wave oscillating means or the like, the present invention is not limited to this, and the cleaning means is constituted by at least one of the ultrasonic wave oscillating means, the brush cleaning means, and the mixed fluid ejecting means. If comprised, the inside of the groove | channel currently formed in the intaglio can be wash | cleaned easily.

  However, if the cleaning means is configured by combining the above means as in the above-described embodiment, it is easy to reliably clean the inside of the very narrow groove of the wiring pattern formed on the intaglio. Very preferred.

  In the above-described embodiment, the cleaning liquid spraying means sprays the fresh cleaning liquid 3 onto the surface of the intaglio 112 washed in the cleaning liquid 3 to rinse the intaglio 112 and the air spraying means. The air 4 is sprayed onto the surface of the intaglio 112 to remove the cleaning liquid 3 adhering to the intaglio 112. However, as another embodiment, for example, depending on the characteristics of the ink and the cleaning liquid, One or both of the air injection means can be omitted.

  In the above-described embodiment, the cleaning liquid 3 attached to the intaglio 112 is removed by operating the air blower 132 and injecting air 4 from the air nozzle 131 onto the surface of the intaglio 112. As another embodiment, for example, by providing a heating means between the air blower 132 and the air nozzle 132 and spraying the heated air 4 onto the surface of the intaglio 112, the cleaning liquid 3 adhered to the intaglio 112. It is also possible to remove by drying.

  In the above-described embodiment, the case where a plurality of the nozzles 126, 131, and 233 are provided at predetermined intervals along the axial direction of the plate cylinder 111 has been described. However, as another embodiment, for example, a plate cylinder It is also possible to apply a slit type nozzle (for example, an air knife or the like) that opens over the axial direction.

  Further, in the above-described embodiment, the cleaning tank 123 is moved up and down by the lifting device 122 so that the position of the cleaning tank 123 is switched between the cleaning position and the retracted position. Although the plate cylinder 111 is inserted, as another embodiment, for example, the plate cylinder is cleaned by moving the plate cylinder by moving means so that the position of the plate cylinder is switched between a cleaning position and a retracted position. It is also possible to put it in a tank. Furthermore, it is possible to put the plate cylinder into the cleaning tank by moving both the cleaning tank and the plate cylinder.

  In the above-described embodiment, after the ink 2 supplied to the groove of the intaglio 112 of the plate cylinder 111 is transferred onto the blanket of the blanket cylinder 114, the blanket cylinder 114 is rolled on the base material 1 of the flat bed 101. The offset type gravure printing machine 100, 200 has been described in which the ink 2 on the blanket of the blanket cylinder 114 is transferred and printed on the base material 1 by moving it, but other embodiments are described. For example, the blanket cylinder is omitted, and the plate cylinder supplied with ink in the grooves of the intaglio 112 is rolled on the substrate of the flat bed, so that the ink in the intaglio grooves of the plate cylinder is transferred to the base. Even in the case of a gravure printing machine that is directly transferred and printed on a material, the same effect as in the case of the above-described embodiment It is possible to obtain.

  Furthermore, as another embodiment, for example, based on information from a timer or the like, it is possible to include a control unit that controls the time of the cleaning operation so that the cleaning operation is performed for a predetermined time.

  Here, for example, the control means inputs the dirt so as to perform the washing operation under the optimum washing conditions corresponding to the dirt conditions such as the width of the groove formed in the intaglio plate and the kind of ink. Based on the conditions, the ultrasonic oscillation output by the ultrasonic oscillation means, the brush rotation speed by the brush cleaning means, the injection pressure of the mixed fluid by the mixed fluid injection means, the rotation speed of the plate cylinder, etc. can be controlled. Is also possible.

  In addition, as another embodiment, for example, an ink residual detection unit such as a camera that detects ink remaining on the intaglio of the plate cylinder is further provided, and based on information from the timer and the ink residual detection unit. If the control means determines that the ink remains on the intaglio of the plate cylinder even after the cleaning operation is performed for a predetermined time, the ultrasonic oscillation output by the ultrasonic oscillation means is further increased, or the brush cleaning means is used. In order to further increase the rotational speed of the brush, further increase the jet pressure of the mixed fluid by the mixed fluid ejecting means, or further decrease the rotational speed of the plate cylinder, the control means may perform the ultrasonic transmission means and the brush cleaning. It is also possible to control the means, the mixed fluid ejecting means, and the plate cylinder driving means.

  The gravure printing machine according to the present invention can easily clean the inside of the groove formed in the gravure plate without the operator wiping and cleaning the gravure plate with a waste impregnated with a cleaning liquid. Therefore, it can be used in an extremely useful manner industrially.

DESCRIPTION OF SYMBOLS 1 Substrate 2 Ink 3 Cleaning liquid 4 Air 5 Mixed fluid 100 Gravure printing machine 101 Flat bed 111 Plate cylinder 112 Intaglio 113 Doctor blade 114 Blanket cylinder 121 Support table 122 Lifting device 123 Cleaning tank 124 Ultrasonic oscillator 125 Brush roller 126 Cleaning liquid nozzle 127 Delivery Pump 128 Filter 129 Storage tank 130 Delivery pump 131 Air nozzle 132 Air blower 200 Gravure printing machine 233 Jet nozzle 234 Air compressor 235 Delivery pump

Claims (7)

A gravure cylinder with a grooved gravure plate on the outer periphery,
Ink supply means for supplying ink to the groove of the gravure plate of the gravure cylinder;
In a gravure printing machine comprising a substrate support means for supporting a substrate to which ink from the gravure plate of the gravure cylinder is transferred,
A cleaning tank into which cleaning liquid can be placed;
Moving means for moving at least one of the cleaning tank and the gravure cylinder so as to put the gravure cylinder in the cleaning tank;
A gravure printing machine comprising: a cleaning unit provided in the cleaning tank and cleaning the gravure plate of the gravure cylinder placed in the cleaning tank. In the gravure printing machine according to claim 1,
The gravure printing machine, wherein the cleaning unit includes an ultrasonic oscillation unit that oscillates an ultrasonic wave in a cleaning liquid inside the cleaning tank. In the gravure printing machine according to claim 1 or 2,
The gravure printing machine, wherein the cleaning means includes brush cleaning means disposed so as to contact the outer periphery of the gravure cylinder and performing brush cleaning on the outer periphery of the gravure cylinder. In the gravure printing machine as described in any one of Claims 1-3,
The gravure printing machine, wherein the cleaning unit includes a mixed fluid ejecting unit that ejects a mixed fluid of a cleaning liquid and air toward the outer periphery of the gravure cylinder. In the gravure printing machine as described in any one of Claims 1-4,
A cleaning liquid spraying means for spraying the cleaning liquid toward the outer periphery of the gravure cylinder that is above the liquid level of the cleaning liquid inside the cleaning tank when the gravure cylinder is placed in the cleaning tank Gravure printing machine. In the gravure printing machine as described in any one of Claims 1-5,
An air injection means for injecting air toward the outer periphery of the gravure cylinder, which is above the liquid level of the cleaning liquid inside the cleaning tank when the gravure cylinder is placed in the cleaning tank, Gravure printing machine. In the gravure printing machine as described in any one of Claims 1-6,
Cleaning for moving the cleaning tank so that the moving means switches the position of the cleaning tank to a cleaning position where the gravure cylinder is placed in the cleaning tank and a retreat position where the cleaning tank and the gravure cylinder are separated from each other A gravure printing machine characterized by being a tank moving means.

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