JP5950434B2 - Roller cleaning device - Google Patents

Description

  The present invention relates to a roller cleaning device for cleaning a roller of a film forming facility for forming a film.

A film forming facility for industrially forming a film includes a large number of rollers. Since the surfaces of these rollers are in direct contact with the film material being molded, they must always be kept clean.
However, foreign matter adheres to the surface of the roller. The foreign matter adhering to the roller is a precipitate deposited from the film or is brought from the outside. If foreign matter adheres to the surface of the roller, the quality of the formed film will deteriorate. Accordingly, the rollers of the film forming equipment have a procedure and are periodically stopped to perform the cleaning work of the rollers.
It has been proposed that the cleaning of the roller is performed automatically by the operator by wiping the outer periphery of the roller with a cleaning cloth.

  An automatic roller cleaning device for a film forming facility is shown in US Pat. The roller cleaning device of Patent Document 1 includes a cleaning unit that can move along the longitudinal direction of the roller. This cleaning device can use a cleaning cloth that is narrower than the length of the roller to be cleaned. This cleaning device presses a narrow cleaning cloth against the surface of a rotating roller by a pad and moves along the longitudinal direction of the roller. The advantage of this cleaning device is that the width of the cleaning cloth is narrow, so that the contact friction force between the cleaning cloth and the roller can be reduced. The cleaning ability of this roller cleaning device depends on the pressing force of the pad. Further, since the cleaning cloth is pressed by the pad, it is difficult to sufficiently reduce the frictional resistance. When there is a foreign substance fixed on the roller surface, the cleaning cloth gets caught on the foreign substance, and the rotation load is strong against the rotation of the roller.

  Patent Document 2 discloses a roller cleaning device that automatically wipes the surface of a roller that rotates at a high temperature and high speed with a heat-resistant cloth. This roller cleaning device cleans the entire width of the roller at a time, but reduces the load during cleaning and wipes it off during operation. In this roller cleaning device, the influence of the change in the frictional resistance between the roller and the cleaning cloth is reduced by increasing the rotational speed of the roller.

Patent Document 3 shows an example of a roller cleaning device of a printing press. In this cleaning device, a cleaning cloth is pressed against the surface of a rotating roller by a blade. This roller cleaning device is provided with a stabilizing mechanism so that the blade is in uniform contact with the surface of the roller, and also provided with a relief mechanism that gets over the protrusion even if the roller has a protrusion. The cleaning ability of this roller cleaning device depends on the pressing force of the blade.
Patent Documents 4 to 6 show an example in which a fleece (raised fiber) is used as a cleaning cloth and a microfiber is used as a cleaning cloth. According to these documents, when a microfiber is used for a fleece used as a cleaning cloth of a cleaning device, a cleaning effect can be obtained without a cleaning liquid or a uniform cleaning effect can be obtained.

JP 2009-269004 A Japanese Patent Application Laid-Open No. 07-173738 JP 02-108543 A JP 09-193364 A Japanese Patent Laid-Open No. 10-081004 US Pat. No. 5,931,096

The conventional roller cleaning device has a problem that it is necessary to press the cleaning cloth against the surface of the roller with a strong pressure in order to wipe off the foreign matter on the roller surface with the cleaning cloth. This is because the cloth having a normal fiber thickness is used as the cleaning cloth pressed against the surface of the roller, and therefore the wiping force is weak.
An object of the present invention is to realize a roller cleaning device that can be cleaned even if the pressure of the cleaning cloth pressed against the surface of the roller is weakened.

The present invention provides a supply means for supplying a cleaning cloth, a winding means for winding the cleaning cloth supplied from the supply means, and the cleaning cloth disposed between the supply means and the winding means. In a roller cleaning device provided with a pressing body that contacts the surface of the rotating roller,
The cleaning cloth includes a microfiber, and the pressing body includes a rotation shaft, a blade having one end fixed to the rotation shaft, and a pressing portion provided at the other end of the blade. Is elastic, and the pressing portion has a shape in which the cleaning cloth is linearly brought into contact with the surface of the roller along the longitudinal direction of the roller, and the pressing cloth exerts the cleaning cloth on the roller. The roller cleaning device is characterized by pressing the surface linearly .

Furthermore, the present invention includes the following concept.
(1) The pressing body is composed of a plurality of pressing bodies.
(2) The pressing body is composed of a plurality of pressing bodies, and at least one pressing body is inclined in a direction to get over an obstacle attached to the roller surface.

The microfiber can remove foreign matter adhering to the surface of the roller even when the contact pressure with the surface of the roller is low. Therefore, the roller cleaning device according to the present invention can weaken the contact pressure on the surface of the roller. If the contact pressure on the surface of the roller can be reduced, the frictional resistance between the cleaning cloth and the surface of the roller is reduced. As a result, the cleaning cloth has less load on the rotation of the roller, and the rotation control of the roller on the film forming equipment side can be simplified.
In the roller cleaning device of the present invention, since the cleaning cloth includes microfibers, if there is foreign matter on the surface of the roller, the foreign matter is surely removed even if the pressing force of the cleaning cloth on the roller surface is weakened. Can be removed.

FIG. 1 is a side view of the first embodiment. FIG. 2 is a plan view of the first embodiment. FIG. 3 is a schematic diagram of a cleaning cloth including microfibers. FIG. 4 is a side view of the second embodiment. FIG. 5 is a side view of the third embodiment. FIG. 6 is an explanatory diagram of the inclination direction of the pressing body. FIG. 7 is a side view of the fourth embodiment. FIG. 8 is a side view of the fifth embodiment.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a side view of a first embodiment of the present invention, and FIG. 2 is a plan view thereof. Reference numeral 1 denotes a roller to be cleaned, which rotates counterclockwise on the drawing as indicated by an arrow 2. In the case of a roller of a film forming facility, the roller 1 typically has a diameter of about 0.3 meter and a length of about 1 meter, and the surface 3 of the roller 1 is processed with a smooth textured surface or a mirror finish. 4 is a roller cleaning device. As shown in FIG. 2, the roller cleaning device 4 includes main components between a pair of opposing side plates 5 and 6. FIG. 1 shows a cross-sectional view with the side plate 6 of FIG. 2 removed.

  8 is a cleaning cloth. Reference numeral 7 denotes supply means for supplying the cleaning cloth 8. 9 is a winding means. The winding means 9 winds the cleaning cloth 8 around the winding shaft 11 that is rotationally driven by the rotational drive source 10. The rotational drive source 10 can be realized by an electric motor including a reduction gear, for example. The rotational speed of the rotational drive source 10 determines the traveling speed of the cleaning cloth 8.

  The rotational drive source 10 preferably includes a fixed-size feed mechanism that maintains a predetermined traveling speed of the cleaning cloth 8 even if the winding diameter of the cleaning cloth wound by the winding means 9 changes. The structure of the fixed feed mechanism can be realized by controlling the rotational speed of the winding shaft 11 according to the winding diameter of the cleaning cloth 8 wound around the winding shaft 11. The winding diameter of the cleaning cloth 8 wound around the winding shaft 11 can be calculated by accumulating the total number of rotations of the winding shaft 11.

  The supply means 7 supplies the cleaning cloth wound around the supply roll 12. As a result, the cleaning cloth travels in the direction indicated by the arrow 13 from the supply means 7 toward the winding means 9. The supply unit 7 preferably includes a braking mechanism that applies a predetermined tension to the cleaning cloth 8.

  Reference numeral 14 denotes a pressing body. The pressing body 14 is disposed between the supply unit 7 and the winding unit 9 and is disposed on the travel path of the cleaning cloth 8. The pressing body 14 makes the cleaning cloth 8 contact the roller 1 as necessary. Reference numeral 15 denotes a rotating shaft. The rotation shaft 15 is rotatable by a rotation drive source 16 shown in FIG. Reference numeral 16 denotes a blade. The blade 16 is a thin and elastic thin plate, and its length is somewhat shorter than the width of the cleaning cloth 8. This is because the cleaning cloth 8 covers the entire pressing portion 17 of the blade 16 so that the pressing portion 17 is not exposed.

  The width of the cleaning cloth 8 and the length of the blade 16 may be shorter than the length of the roller 1, and in this case, the roller cleaning device 4 may be moved along the roller 1. .

  One end of the blade 16 is fixed to the rotary shaft 15, and a pressing portion 17 is provided at the other end. In the example of FIG. 1, the rotation shaft 15 can reciprocate within a range of about 15 degrees. The state of FIG. 1 shows a state in which the rotary shaft 15 has rotated counterclockwise, and shows a state in which the pressing portion 17 makes the cleaning cloth 8 contact the surface 3 of the roller 1. Although not shown, when the rotating shaft 15 rotates in the clockwise direction, the pressing portion 17 is separated from the surface 3 of the roller 1, and accordingly, the cleaning cloth 8 is also separated from the surface 3 of the roller 1. The shape with which the cleaning cloth 8 contacts the surface 3 of the roller 1 depends on the shape of the pressing portion 17 and is linear in the example of FIG.

According to the above configuration, the cleaning cloth 8 is continuously wound by the winding means 9. The cleaning cloth 8 is brought into contact with the linear shape of the surface 3 of the roller 1 by the pressing body 14.
The blade 16 is inclined at a predetermined angle with respect to the surface in the tangential direction of the roller 1. The inclination direction of the blade 16 may be inclined with respect to the surface in the tangential direction in the direction of getting over the foreign object and in the direction of collision with the foreign object.

  FIG. 1 is an example of a crossover direction suitable for implementing the present invention. In FIG. 1, R is a foreign substance attached to the surface of the roller 1. The foreign matter is an obstacle that approaches toward the pressing portion 17 from the upstream side in the rotation direction 2 of the roller 1. The inclination of the blade 16 in FIG. 1 is inclined in a direction over the obstacle R attached to the surface 3 of the roller 1. In other words, even if the obstacle R reaches the pressing portion 17 of the blade 16, the pressing portion 17 gets over without colliding because the blade 17 is inclined in the direction in which the blade 16 gets over. The blade 16 can get over the foreign matter R by the elasticity of the blade 16 as a spring, and the pressing portion 17 can get over the foreign matter R. Further, the way over the blade 16 may be a mechanism that allows the rotating shaft 15 to rotate clockwise.

  On the other hand, FIG. 6 is an explanatory diagram of the inclination of the blade 16 in the collision direction. The inclination of the blade 16 shown in FIG. 6 is inclined counterclockwise with respect to the perpendicular H to the surface 3 of the roller 1 with the pressing portion 17 as a fulcrum. In this case, when the foreign matter R collides with the pressing portion 17, the blade 16 cannot escape counterclockwise around the rotation shaft 15. That is, the blade 16 is inclined in the collision direction. Therefore, when the pressing body 14 is used alone, it is not suitable for carrying out the present invention. This is because, when the blade 16 is inclined in the collision direction, the pressing portion 17 collides with the obstacle R, and the impact becomes a sudden braking force and affects the rotation of the roller 1.

  FIG. 3 is a schematic diagram of a cleaning cloth including microfibers. The cleaning cloth 8 preferably contains microfibers. Microfibers are fibers that are thinner than common fibers such as cotton that are naturally available and can be obtained from chemical fiber suppliers. In FIG. 3, the X-axis is the microfiber 18 and the Y-axis is the normal fiber 19, which is an example of a plain weave cloth. Note that both the X axis and the Y axis may be microfibers. As shown in FIG. 3, when only the X axis is a microfiber, it is preferable that the length direction of the roller 1 is parallel to the X axis and the rotation direction of the roller 1 is a direction along the Y axis.

1 and FIG. 2 is a configuration equivalent to the roller cleaning device shown in the embodiment, the width of the cleaning cloth 8 is shorter than the length of the roller 1, and a microfiber is used as an example for comparison. As an experiment, a non-woven fabric was used.
The roller 1 has a diameter of 0.3 meter, a length of 1.0 meter, and a chrome-plated mirror finish, and was rotated at a speed of one revolution per second as an experimental speed. In addition, the foreign matter R was heated by paraffin wax (for candle) and dropped onto the surface 3 of the roller 1 to be adhered. The pressing portion 17 with respect to the surface 3 of the roller 1 has a pressing portion length of 0.4 m, a width of 0.005 m, a pressing force of the pressing portion of 0.1 kg, and a cleaning cloth 8 at 0 per second. It was wound up by 0.006 meters.

  First, as an example, the roller cleaning device 4 shown in FIG. 1 uses a 100% polyester microfiber sold as TORAYSEE (trade name) as a cleaning cloth 8 from Toray Industries, Inc. The cleaning operation was performed while rotating. Then, it was recognized that the foreign matter R gradually decreased with the rotation of the roller 1.

  Next, as a comparative example, the cleaning cloth 8 was replaced with a spunlace nonwoven fabric of 55% pulp and 45% polyester sold by DuPont as SONTARA (trade name), and the same cleaning operation was performed. This nonwoven fabric does not contain microfibers. When the change of the foreign matter R was observed, the foreign matter R hardly changed, unlike the case of the cleaning cloth 8 including the microfiber.

  From this, when implementing this invention, it turns out that it is preferable that the cleaning cloth 8 contains a microfiber. This is presumed to be because the microfiber itself has a scraping action of the foreign matter R. When a microfiber is used for the cleaning cloth 8, even if the pressing force of the pressing body 14 is small, the cleaning force is not lost. As a result, the pressing force of the pressing body 14 may be small, and when the foreign matter R is not present on the surface 3 of the roller 1 or is small, the frictional resistance between the cleaning cloth 8 and the surface 3 of the roller 1 is very small. . Furthermore, even when the foreign matter R is present on the surface 3 of the roller 1, it is possible to wipe it off reliably even though the pressing force of the pressing body 14 is small.

Therefore, if the cleaning cloth 8 is made of microfiber and the surface 3 of the roller 1 is cleaned frequently or continuously at a stage where the foreign matter R is small, the cleaning by the roller cleaning device 4 is substantially performed. The effect on the rotation of the roller 1 is small.
On the other hand, when using a nonwoven fabric for the cleaning cloth 8, in order to wipe off the foreign material R, it is necessary to press the cleaning cloth 8 against the surface 3 of the roller 1 with a pressing force of a predetermined strength. Therefore, even when the foreign matter R is not present on the surface 3 of the roller 1, the frictional resistance between the cleaning cloth 3 and the surface 3 of the roller 1 is large.

Moreover, in FIG. 1, 20 and 21 are the cleaning agent supply means which supplies a cleaning agent. The cleaning agent supply means 20 is disposed on the upstream side of the pressing portion 17 with respect to the cleaning cloth 8 and supplies the cleaning agent to the cleaning cloth 8. The cleaning cloth 8 supplied from the supply means 7 reaches the pressing portion 17 after the cleaning agent is supplied by the cleaning agent supply means 20.
The cleaning agent supply means 21 is arranged on the upstream side of the pressing portion 17 in the rotation direction 2 of the roller 1 and supplies the cleaning agent to the surface 3 of the roller 1. The surface 3 of the roller 1 reaches the pressing portion 17 after the cleaning agent is supplied.

  In the roller cleaning device 4 shown in FIG. 1, the cleaning agent supply means may be both 20 and 21, or may be either 20 or 21. The cleaning agent supply means 20 and 21 are not essential for the roller cleaning device 4, but are effective depending on the type of foreign matter R. The cleaning agent can be selected according to the physical properties of the foreign matter R adhering to the surface 3 of the roller 1, such as cold water, hot water, high temperature steam, an organic solvent, and an aqueous solution containing a surfactant.

  The roller cleaning device 4 shown in FIG. 1 presses the cleaning cloth 8 against the surface 3 of the roller 1 linearly along the longitudinal direction of the roller 1 by the pressing portion 17. Since the pressing portion 17 has a structure that presses the cleaning cloth 8 linearly, a pressing force per predetermined unit area can be easily obtained as compared with a structure that presses the cleaning cloth 8 in a line shape. Therefore, the pressing force of the entire pressing portion 17 may be small. Furthermore, since the cleaning cloth 8 is a microfiber, cleaning that does not depend on the pressing force of the pressing portion 17 is possible, and the pressing force of the pressing portion 17 may be small. As a result, the film forming equipment including the roller 1 can be cleaned during production in which the roller 1 is continuously cleaned during film production. That is, the roller cleaning device 4 embodying the present invention is realized by skillfully utilizing the properties of the microfiber so that the cleaning cloth 8 includes the microfiber.

  On the other hand, cleaning during stoppage of cleaning the roller 1 while film production is stopped is also possible. Depending on the conditions, the cleaning agent supplied from the cleaning agent supply means 20 and 21 may be supplied during cleaning while the roller 1 is stopped, and in the case of cleaning during production, the cleaning agent may not be supplied.

  FIG. 4 is a side view of the second embodiment of the present invention. This roller cleaning device 4 has two pressing bodies, and includes a first pressing body 14 and a second pressing body 25 between the supply means 7 and the winding means 9 of the cleaning cloth 8. . The structure of the second pressing body 25 may be similar to that of the first pressing body 14. That is, the second pressing body 25 includes a rotating shaft 26 corresponding to the rotating shaft 15, a blade 27 corresponding to the blade 16, and a pressing portion 28 corresponding to the pressing portion 17. Both the blades 16 and 27 are inclined in a direction to get over the foreign matter R as an obstacle attached to the surface 3 of the roller 1.

  29 is a cleaning cloth guide. The cleaning cloth guide 29 is located between the first pressing body 14 and the second pressing body 25 and separates the cleaning cloth 8 from the surface 3 of the roller 1. In this case, the cleaning cloth 8 contacts the surface 3 of the roller 1 at the portions of the pressing portion 17 and the pressing portion 28. The foreign matter R is first wiped off with the cleaning cloth 8 by the second pressing body 25 and subsequently wiped off by the cleaning cloth 8 by the first pressing body 16.

  Even in this case, the pressing force of the pressing bodies 16 and 25 may be weak by using a microfiber for the cleaning cloth 8. Accordingly, when the foreign matter R is not present on the surface 3 of the roller 1 or is present sparsely, the influence of the frictional resistance between the cleaning cloth 8 and the surface 3 of the roller 1 on the rotation of the roller 1 is not affected. Similar to the embodiment shown in FIG. On the other hand, when the foreign matter R exists on the surface 3 of the roller 1, it is wiped off with the cleaning cloth 8 by the second pressing body 25, and subsequently wiped off with the cleaning cloth 8 by the first pressing body 14. As a result, the foreign matter R can be removed quickly.

  The cleaning agent supply means 21 can supply the cleaning agent toward the surface 3 of the roller 1. The cleaning agent supply means 21 is arranged on the upstream side of the second pressing body 25 in the rotation direction 2 of the roller 1. Accordingly, the cleaning agent adhering to the surface 3 of the roller 1 is wiped off by the cleaning cloth 8 that is first pressed by the second pressing body 25, and subsequently by the cleaning cloth 8 that is pressed by the first pressing body 14. Wiped off. That is, the cleaning agent adhering to the surface 3 of the roller 1 is wiped off twice continuously. As a result, as compared with the first embodiment shown in FIG. 1, the cleaning agent remains on the surface 3 of the roller 1 after passing through the first pressing body 14 following the second pressing body 25. Hateful.

  Furthermore, the cleaning cloth guide 29 may have a structure capable of supplying a cleaning agent as a cleaning agent supply means. The cleaning cloth guide 29 as the cleaning agent supply means may supply the cleaning agent to the cleaning cloth 8 or directly to the surface 3 of the roller 1.

  When the cleaning agent is supplied from the cleaning cloth guide 29 to the cleaning cloth 8, the first traveling direction of the cleaning cloth 8 is the direction indicated by the arrow 13 and the rotation direction of the roller 1 is the direction indicated by the arrow 2. The pressing body 14 and the second pressing body 25 play different roles. That is, the surface 3 of the roller 1 is first wiped with the cleaning cloth 8 containing the cleaning agent at the portion of the second pressing body 25, and then does not contain the cleaning agent at the portion of the first pressing body 14. It is wiped with a cleaning cloth 8. As a result, the surface 3 of the roller 1 does not pass through the roller cleaning device 4 with the cleaning agent attached.

  When supplying the cleaning agent to the surface of the roller 1 from the cleaning cloth guide 29, the foreign substance R can be easily removed with the cleaning cloth 8 of the first pressing body 14 as long as the foreign substance R changes depending on the cleaning agent. Can be wiped off. That is, first, the cleaning cloth of the second pressing body 25 is wiped off in the absence of the cleaning agent, and the role of the cleaning cloth 8 of the first pressing body 14 is further wiped off the foreign matter R changed by the cleaning agent. Can do.

  FIG. 5 is a side view of the third embodiment of the present invention. The mode shown in FIG. 5 and the mode shown in FIG. 4 are common in that the pressing body has two stages, but differs in that the cleaning cloth guide 29 in FIG. 4 is not provided. As a result, the cleaning cloth 8 comes into contact with the surface 3 of the roller 1 at the contact portion 30 between the pressing portion 17 and the pressing portion 28. The pressing force of the cleaning cloth 8 on the contact portion 30 depends on the tension of the cleaning cloth 8. When the tension of the cleaning cloth 8 is weak, the pressing force of the contact portion 30 is weak. However, if the cleaning cloth 8 includes microfibers, even if the pressing force of the contact portion 30 is weak, the rotation of the roller 1 is sufficient as long as the foreign matter R is sparsely adhered to the surface 3 of the roller 1. A sufficient cleaning ability can be exhibited without affecting the operation.

  In addition, although the embodiment shown in FIG. 4 or the embodiment shown in FIG. 5 shows an example in which the pressing body has two steps, it can be formed in three or more steps. This is because the cleaning cloth 8 includes microfibers, and thus it is not necessary to press the cleaning cloth 8 against the surface 3 of the roller 1 with a strong pressure. When a plurality of pressing bodies are provided, the pressing force that presses the cleaning cloth 8 against the surface 3 of the roller 1 may be different from the foreign matter R according to the physical properties.

  FIG. 7 is a side view of the fourth embodiment of the present invention. Compared to the second embodiment shown in FIG. 4, instead of the cleaning cloth guide 29, the cleaning agent supply means 31 and the suction means 32 are provided between the first pressing body 14 and the second pressing body 25. Prepare. The cleaning agent supply means 31 supplies cold water, hot water, high temperature steam, an organic solvent, an aqueous solution containing a surfactant, or the like as a cleaning agent toward the cleaning cloth 8 or the surface 3 of the roller 1. The suction unit 32 sucks the cleaning agent supplied from the cleaning agent supply unit 31, the foreign matter R separated from the surface 3 of the roller 1 by the cleaning agent, or suspended matter such as a modified product or a mixture thereof as necessary. . This is because if there is a floating substance, the surface 3 of the roller 1 may be re-stained, or the floating substance may leak around the roller 1 and reattach to the structure around the roller 1. In particular, when the roller 1 is maintained at a high temperature, there is a high possibility that floating substances are generated by supplying the cleaning agent.

Further, the cleaning agent supplying means 31 can be provided at a position 33 on the opposite side of the surface 3 of the roller 1 with the cleaning cloth 8 interposed therebetween. The cleaning agent supply means 33 supplies the cleaning agent toward the cleaning cloth 8. If it does so, the cleaning cloth 8 will reach the press part 28 in the state containing the cleaning agent.
Further, the cleaning agent supply means 31 can be provided at a position indicated by reference numeral 34 on the upstream side of the pressing portion 28 in the rotation direction 2 of the roller 1. The cleaning agent supply means 31 supplies the cleaning agent toward the surface 3 of the roller 1. Then, the surface 3 of the roller 1 reaches the pressing portion 28 with the cleaning agent attached. The cleaning agent supply means 31 is located inside the cleaning cloth 8 at the position indicated by reference numeral 31 on the side facing the surface 3 of the roller 1, outside the cleaning cloth 8, and sandwiching the cleaning cloth 8. It may be at either the position indicated by the reference numeral 33 on the opposite side of the surface of the roller 1 or the position indicated by 34, or may be provided in duplicate, but in combination according to the physical properties of the foreign matter R Also good.

  For example, when supplying the cleaning agent from the cleaning agent supply means 34, 33, it is not necessary that both are the same type of cleaning agent, steam is supplied from the cleaning agent supply means 34, and the cleaning agent supply means 33 A liquid solvent can be supplied.

  When the cleaning agent supply unit is provided at the position 33 or 34, the heating unit 35 can be used instead of the cleaning agent supply unit 31. The heating means 35 can supply heated air, steam, or the like. The heating means 35 can be used for the purpose of drying the cleaning agent adhering to the surface 3 of the roller 1. In addition, when the cleaning agent supplied from the cleaning agent supply means 33 or 34 lowers the temperature of the surface 3 of the roller 1, the surface of the surface 3 of the roller 1 is heated to correct the decrease in temperature. Can be used.

  FIG. 8 is a side view of the fifth embodiment of the present invention. In FIG. 8, the second pressing body 25 is inclined in a direction to get over the foreign object R as in the fourth embodiment shown in FIG. 7, but the third pressing body 36 gets over the foreign object R. There is no tilt in the collision direction. This is effective when the foreign matter R approaching the roller cleaning device 4 is first largely cleaned by the pressing portion 28 of the second pressing body 25. That is, as long as the third pressing body 36 does not collide with the foreign object R, the third pressing body 36 does not need to be inclined in the direction of getting over. That is, only the preceding pressing body 25 may be inclined among the plurality of pressing bodies 25 and 26 in the direction over the foreign object R. This is because, by using a cloth containing microfibers as the cleaning cloth 8, the main foreign matter R can be removed only by the second pressing body 25, and the third pressing body 36 is applied to the surface 3 of the roller 1. This is because it may be necessary to wipe off the remaining moisture.

  In FIG. 7, reference numerals 38 and 39 denote heating means having almost the same length as the length of the roller 1. The heating means 38 and 39 supply heated high-temperature air, high-temperature steam, and high-temperature gas toward the surface 3 of the roller 1. That is, if the cleaning agent supply means supplies water as a cleaning agent to the surface 3 of the roller 1 from the position indicated by 34, the temperature of the surface 3 of the roller 1 decreases. This is largely due to the heat of vaporization of water in addition to the cooling effect of water itself. The heating means 38 and 39 are on the downstream side of the cleaning agent supply means 34 and have an effect of increasing the temperature of the surface 3 of the roller 1 that has been lowered. The heating means may be either 38 or 39. Furthermore, instead of the heating means 39, a heating element may be incorporated in the pressing portion 17 or the pressing portion 28 or both. The heating element incorporated in the pressing parts 17 and 28 may be a nichrome wire or a heating ceramic combined with a temperature sensor.

  In the roller cleaning device 4, the cleaning cloth 8 includes microfibers. Microfibers have a higher rate of liquid absorption and diffusion due to capillary action than ordinary fabrics. Therefore, compared with the case where a nonwoven fabric is used for the cleaning cloth 8, the cleaning agent forms a curtain with extremely little unevenness on the surface 3 of the roller 1 wiped with the cleaning cloth 8. Therefore, the surface 3 of the roller 1 can be easily and uniformly heated by the heating means shown in FIG. Therefore, the roller 1 can be cleaned by a roller cleaning device even during film production.

DESCRIPTION OF SYMBOLS 1 Roller 2 Rotation direction of roller 1 Roller surface 4 Roller cleaning device 7 Supply means 8 Cleaning cloth 9 Winding means 13 Traveling direction 14 of cleaning cloth Press body 18 Microfiber 19 Normal fiber 25 Press body 36 Press body

Claims (3)

A supply means for supplying a cleaning cloth; a winding means for winding the cleaning cloth supplied from the supply means; and disposed between the supply means and the winding means, and rotating the cleaning cloth. In a roller cleaning device comprising a pressing body that is brought into contact with the surface of the roller being
The cleaning cloth includes a microfiber, and the pressing body includes a rotation shaft, a blade having one end fixed to the rotation shaft, and a pressing portion provided at the other end of the blade. Is elastic, and the pressing portion has a shape in which the cleaning cloth is linearly brought into contact with the surface of the roller along the longitudinal direction of the roller, and the pressing cloth exerts the cleaning cloth on the roller. A roller cleaning device that presses the surface linearly .   The roller cleaning device according to claim 1, wherein the pressing body includes a plurality of pressing bodies. 2. The roller cleaning device according to claim 1 , wherein the pressing body includes a plurality of pressing bodies, and at least one pressing body is inclined in a direction to get over an obstacle attached to the roller surface.

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