Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B1/00—Cleaning by methods involving the use of tools
  • B08B1/10—Cleaning by methods involving the use of tools characterised by the type of cleaning tool
  • B08B1/14—Wipes; Absorbent members, e.g. swabs or sponges
  • B08B1/143—Wipes
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B1/00—Cleaning by methods involving the use of tools
  • B08B1/20—Cleaning of moving articles, e.g. of moving webs or of objects on a conveyor
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B1/00—Cleaning by methods involving the use of tools
  • B08B1/30—Cleaning by methods involving the use of tools by movement of cleaning members over a surface
  • B08B1/32—Cleaning by methods involving the use of tools by movement of cleaning members over a surface using rotary cleaning members
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B1/00—Cleaning by methods involving the use of tools
  • B08B1/50—Cleaning by methods involving the use of tools involving cleaning of the cleaning members
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B6/00—Cleaning by electrostatic means
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B08—CLEANING
  • B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
  • B08B7/00—Cleaning by methods not provided for in a single other subclass or a single group in this subclass
  • B08B7/0028—Cleaning by methods not provided for in a single other subclass or a single group in this subclass by adhesive surfaces
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
  • B65H23/00—Registering, tensioning, smoothing or guiding webs
  • B65H23/04—Registering, tensioning, smoothing or guiding webs longitudinally
  • B65H23/24—Registering, tensioning, smoothing or guiding webs longitudinally by fluid action, e.g. to retard the running web

Definitions

• the present invention relates to a contact cleaning apparatus for a sheet substrate having a curved leading edge.
• the invention relates to a contact cleaning apparatus for a sheet substrate having a curved leading edge wherein the apparatus comprises flattening means operably engage the curved leading edge of the sheet substrate.
• the invention also relates to an air supply manifold directing air onto the surface of the sheet substrate at a curved leading edge of the sheet and/or onto the elastomeric cleaning roller prior to the arrival of the leading edge of the sheet substrate.
• a contact cleaning apparatus consists of a rubber or elastomeric cleaning roller used to remove contaminating particles from a substrate surface, and an adhesive roll which is used to remove the contaminating particles from the cleaning roller.
• a contact cleaning roller contacts at least an upper surface of the substrate, removing debris by means of adhesion removal mechanisms such as van der Waals force and adhesion forces.
• adhesion removal mechanisms such as van der Waals force and adhesion forces.
• the inherent properties of the material used to form the contact cleaning roller attracts the debris and causes the debris to stick to the surface of the contact cleaning roller.
• the contact cleaning roller pulls the contaminating particles away from the substrate surface in this manner due to attractive van der Waals forces between the contaminating particles and the roller. Consequently, existing contact cleaning rollers may ensure effectiveness in removing the contaminating particles by maximising contact with the substrate surface.
• Contact cleaning apparatus for thin film sheet technology such as for example copper foil, or thin film polymer requires an elastomeric cleaning roller to be driven at speed and subsequently cleaned by an adhesive roll located adjacent to the elastomeric cleaning roller.
• thin film sheet technology is known as a sheet substrate.
• the sheet substrate wraps around the elastomeric cleaning roller and the machine must be stopped in order to cleanse the roller of sheet substrate and restart the machinery. Again, the efficiency of the cleaning process is significantly impaired.
• a sheet substrate is stiff due to its relative thickness or its inherent material properties. Additionally, or alternatively, a sheet substrate has curvature, for example in multiple directions, which reinforces the curved leading edge. In these ways, a curved leading edge of a sheet substrate will resist deformation, increasing the risk of failure or of damage to the machine.
• a contact cleaning apparatus for a sheet substrate has a curved leading edge including: an elastomeric cleaning roller and a first conveyor for carrying the sheet substrate to be cleaned towards said elastomeric cleaning roller, wherein said elastomeric cleaning roller includes a contact zone arranged to receivingly engage the sheet substrate from said first conveyor, and a flattening means disposed proximate said first conveyor, wherein said flattening means is configured to operably engage the curved leading edge of the sheet substrate such that the curved leading edge of the sheet substrate is flattened at a point of contact with the elastomeric cleaning roller.
• said flattening means includes a guide, opposingly arranged with said first conveyor, and configured to contactingly engage the curved leading edge of the sheet substrate such that the curved leading edge of the sheet substrate is flattened at said point of contact with said elastomeric cleaning roller.
• the guide is arranged to abut a curved leading edge of a sheet substrate as it is carried towards an elastomeric cleaning roller. That is, the guide is able to flatten the curved leading edge by deflecting or deforming it prior to being received in a contact zone of the elastomeric cleaning roller.
• the outlet region of the guide is preferably provided in close proximity to the elastomeric cleaning roller so that it operably precedes the contact zone by only a short distance. However, the outlet region of the guide may be positioned at any suitable point along the first conveyor.
• the contact cleaning apparatus is able flatten a wide range of sheet substrates.
• the apparatus has been found by the inventors to be effective to flatten curved leading edges for sheet substrates which are stiff or which otherwise resist deformation. That is, the apparatus is able to flatten a curved leading edge of sheet substrates with a thickness of up to 6 millimetres or more.
• said guide is provided at an angle relative to said first conveyor, wherein said guide and said first conveyor are configured so as to provide a channelling of the curved leading edge as the curved leading edge approaches said contact zone.
• said guide includes a second conveyor, wherein said second conveyor is arranged at an angle relative to said first conveyor so as to provide said channelling of the curved leading edge.
• the guide abuts the curved leading edge so that the leading edge is directed or channelled towards the first conveyor.
• the second conveyor is arranged at any suitable angle to the first conveyor so as to provide an appropriate channelling.
• an angle may be chosen based upon a sheet substrate and the contact cleaning operating conditions. For example, an angle may be chosen based on one or more of the material properties of the sheet substrate, the operating speed of the contact cleaning apparatus, or the space within the apparatus in which to position the second conveyor.
• the guide or the second conveyor may be angled relative to the first conveyor at any suitable angle, from substantially perpendicular to substantially parallel. That is, said angle relative to said first conveyor of said guide or said second conveyor is selectably adjustable between perpendicular and parallel. In this way, the orientation of the guide, for example the second conveyor, can be adjusted to optimise processing of sheet substrates having curved leading edges with a range of deformation.
• said second conveyor contactingly engages said first conveyor.
• the second conveyor channels the curved leading edge onto the first conveyor.
• the second conveyor may apply pressure to the curved leading edge. That is, the second conveyor may provide a nip effect with the first conveyor.
• said second conveyor is driven.
• the second conveyor may actively engage the curved leading edge so as to direct it towards the elastomeric cleaning roller as well as providing a channelling effect.
• the second conveyor is driven due to contacting engagement with the first conveyor.
• the second conveyor is provided with an independent drive.
• said flattening means includes an air supply manifold, wherein said air supply manifold is operable to direct a stream of air onto the curved leading edge of the sheet substrate and/or onto said contact zone such that the curved leading edge of the sheet substrate is flattened at said point of contact with said elastomeric cleaning roller.
• a contact cleaning apparatus for a sheet substrate having a curved leading edge comprises an elastomeric cleaning roller and an air supply manifold configured and arranged to direct air onto a contact zone on the elastomeric cleaning roller.
• the contact cleaning apparatus also comprises a conveyor for carrying the sheet substrate to be cleaned towards the elastomeric cleaning roller.
• the air supply manifold is operable to direct a stream of air onto the curved leading edge of the sheet substrate and/or onto the contact zone such that the curved leading edge of the sheet substrate is flattened at the point of contact with the elastomeric cleaning roller.
• the contact zone comprises a boundary layer of air around the surface of the elastomeric cleaning roller. In certain embodiments, the contact zone extends at least partly around the elastomeric cleaning roller. Thus, when the stream of air from the air supply manifold is directed to the contact zone, it forms an augmented boundary layer.
• the “contact zone” is the portion of the contact cleaning apparatus at which the leading edge of the sheet substrate engages with the elastomeric cleaning roller. More specifically, it is the region including the position at which the leading edge of the sheet substrate contacts the elastomeric cleaning roller or the boundary layer of air around it. As will be understood, this position may refer to one or more points or regions along the surface of the elastomeric cleaning roller or its boundary layer of air depending on the cross-machine shape of the leading edge.
• “boundary layer” is a layer of air formed on the surface of the elastomeric cleaning roller.
• flattened means that the sheet substrate leading edge is oriented to be suitably received by the elastomeric cleaning roller for cleaning. That is, approaching the contact zone the sheet substrate leading edge is flat or substantially flat so that it is received by the elastomeric cleaning roller in a manner which provides effective cleaning.
• augmented boundary layer is one having a temporary increase in thickness when measured on a radius from the centre of the elastomeric cleaning roller.
• the leading edge of the sheet substrate is deflected by the airflow into the contact zone. In this way, the sheet substrate leading edge is oriented to be received by the elastomeric cleaning roller for cleaning.
• the sheet substrate is flattened into the plane of the trailing sheet substrate portion allowing the airflow and / or the boundary layer to carry the sheet substrate round into the nip of the elastomeric roller without damage to the sheet substrate or incorrect engagement with the elastomeric cleaning roller, such as the sheet substrate sticking to the rollers.
• the augmented boundary layer extends around the elastomeric cleaning roller until a nip gap. In this way, the leading edge of the sheet substrate may further be deflected by the augmented boundary layer to flatten the sheet and enter the nip gap between elastomeric cleaning rollers.
• the airflow may be activated just before the leading edge reaches the elastomer roller so there is a temporary increase in the boundary layer [0029]
• air is directed by the air supply manifold towards the contact zone of the elastomeric cleaning roller.
• the air supply manifold is operable to direct air directly onto the leading edge of the curved sheet in order to flatten the sheet as it approaches the elastomeric cleaning roller.
• the flattening of the sheet ensures that it enters the contact zone rather than engaging another part of the contact cleaning apparatus, such as a process roller or a further elastomeric cleaning roller.
• the flattening of the leading edge avoids crumpling of the sheet substrate because it does not engage correctly with the elastomeric cleaning roller.
• the contact cleaning apparatus therefore need not be stopped during the cleaning process.
• the apparatus does not require additional set up time to ensure that the leading edge is correctly engaged with or received by the elastomeric cleaning roller.
• the air supply manifold is operable to direct air onto the elastomeric cleaning roller. More specifically, the air supply manifold is operable to direct air onto the contact zone of the elastomeric cleaning roller.
• an augmented boundary layer is formed at the surface of the elastomeric cleaning roller. As the leading edge of the sheet substrate contacts the augmented boundary layer, the curvature at the leading edge is removed, or significantly reduced thereby flattening the sheet substrate in the contact zone.
• the airflow from the air supply manifold is selectively activated. In this way, the airflow is provided only as the leading edge of the sheet substrate reaches the elastomeric cleaning roller. In this way, the airflow provides a temporary increase in the boundary layer thickness forming the augmented boundary layer, thereby improving efficiency of the apparatus.
• the air supply manifold is operable to direct air towards the contact zone at an adjustable angle relative to a reference plane extending vertically through the rotational axis of the elastomeric cleaning roller. More specifically, the adjustable angle is selectable between parallel and perpendicular to the reference plane.
• the adjustable angle is selected and fixed relative to a reference plane extending vertically from the rotational axis of the elastomeric cleaning roller prior to operation of the apparatus. Any angle is selectable within the range of from parallel to the plane extending vertically from the rotational axis of the elastomeric cleaning roller and perpendicular to the same plane. The angle is selected based on any one or more of: the velocity of the conveyor; the material of the sheet substrate or the like.
• the air supply is directed tangentially onto the elastomeric cleaning roller in the contact zone.
• the air supply manifold is operable to direct air towards the contact zone at an adjustable angle relative to the conveyor surface. More specifically, the adjustable angle is selectable between perpendicular to the conveyor surface and parallel to the conveyor surface.
• the elastomeric cleaning roller comprises a pair of elastomeric cleaning rollers.
• the pair of elastomeric cleaning rollers may be opposingly arranged to form a nip gap through which a sheet substrate is conveyed.
• the contact cleaning apparatus comprises multiple pairs of elastomeric cleaning rollers configured and arranged to provide one or more cleaning surfaces for the sheet substrate between each pair of rollers.
• each elastomeric cleaning roller is cleaned by an adjacent adhesive roll.
• the air supply manifold comprises a manifold comprising spaced apart apertures. More specifically, the manifold comprises spaced apart air delivery apertures for the output of air from the manifold.
• the manifold is tubular.
• the manifold comprises a plurality of spaced apart pin holes.
• the manifold is formed of a metal or plastic material.
• Other suitable materials will be known to the skilled person.
• the air supply manifold is operably coupled to an air supply.
• the air supply is operable to deliver air to the air supply manifold.
• the contact cleaning apparatus comprises a sensor configured and arranged to detect the leading edge of the sheet substrate.
• the senor is operably coupled to the air supply.
• the sensor detects the leading edge of the sheet substrate and causes the air supply to deliver air to the air supply manifold.
• the air supply manifold in turn directs air onto the leading edge of the sheet substrate and/or onto the contact zone of the elastomeric cleaning roller.
• the air supply directed at the curved leading edge of the sheet substrate unbends the sheet before the contact zone of the elastomeric cleaning roller.
• incorrect engagement of the sheet substrate with the elastomeric cleaning roller is prevented.
• Creasing of the sheet or wrapping of the sheet substrate around the elastomeric cleaning roller is also prevented.
• the air serves to facilitate transfer of the sheet substrate through the cleaning apparatus.
• the air directed onto the elastomeric cleaning roller contact zone creates an augmented boundary layer over the surface of the elastomeric cleaning roller. In this way, the air ensures that the sheet substrate is cleaned by the elastomeric cleaning roller surface without making contact.
• air is supplied from the air supply manifold in pulses. More specifically, the pulses are generated when the sensor detects the leading edge of the sheet substrate adjacent to the elastomeric cleaning roller. Each pulse of air flattens the leading surface as it approaches the contact zone.
• air flow through the air flow manifold is activated by a sensor detecting the curved leading edge of a sheet substrate a predetermined distance from the contact zone. Additionally, or alternatively, air flow through the air flow manifold is deactivated as the leading edge engages the contact zone. In these ways, the air flow is used to flatten the curved leading edge only when it approaches the contact zone. Air flow only provided when the curved leading edge is within the operable range of the air flow manifold. The air flow provided by the air supply is thereby utilised efficiently.
• the conveyor is configured and arranged to deliver the sheet substrate to the contact zone.
• the sheet substrate is a film. More specifically, the film is a thin film. Yet more specifically, the film is a copper foil or a thin film polymer.
• Figure 1 illustrates a schematic representation of a contact cleaning apparatus with the air supply to the air flow manifold turned off, in a first configuration
• Figure 2 illustrates a schematic representation of the contact cleaning apparatus of Figure 1 , in a second configuration
• Figure 3 illustrates a schematic representation of the contact cleaning apparatus of Figure 1 , in a third configuration
• Figure 4 illustrates a schematic representation the contact cleaning apparatus of Figure 1 , in a fourth configuration
• Figure 5 illustrates a schematic representation of a contact cleaning apparatus with the air supply to the air flow manifold turned on according to an embodiment, in a first configuration
• Figure 6 illustrates a schematic representation of the contact cleaning apparatus of Figure 5, in a second configuration
• Figure 7 illustrates a schematic representation of the contact cleaning apparatus of Figure 5, in a third configuration
• Figure 8 illustrates a schematic representation of a further example contact cleaning apparatus according an aspect of the invention.
• connection As used herein, the terms ‘connected’, ‘attached’, ‘coupled’, ‘mounted’ are intended to include direct connections between two members without any other members interposed therebetween, as well as, indirect connections between members in which one or more other members are interposed therebetween.
• the terminology includes the words specifically mentioned above, derivatives thereof, and words of similar import.
• the contact cleaning apparatus comprises a first pair of elastomeric cleaning rollers and a second pair of elastomeric cleaning rollers.
• the first pair of elastomeric cleaning rollers comprises a first elastomeric cleaning roller 24 and a second elastomeric cleaning roller 26 mounted in the path of a conveyor 16.
• the conveyor 16 is driven by two transport rollers 12,14 in order to transport a substrate 80 (i.e. a sheet 80) along the conveyor 16.
• the first elastomeric cleaning roller 24 is elongate and generally cylindrical in shape, and is mounted on a holder (not shown) having a rotational axis perpendicular to the plane of view about which the first elastomeric cleaning roller 24 is free to rotate.
• the first elastomeric cleaning roller 24 comprises a silicone elastomer layer in this particular example, but other material are also envisaged.
• the second elastomeric cleaning roller 26 is generally cylindrical in shape, and comprises a silicone elastomer layer.
• the second elastomeric cleaning roller 26 is mounted on a holder (not shown) having a rotational axis perpendicular to the plane of view and parallel to that of the first elastomeric cleaning roller 24 about which the second elastomeric cleaning roller 26 is free to rotate.
• the first elastomeric cleaning roller 24 and the second elastomeric cleaning roller 26 are mounted so as to be in contact with one another such that the first elastomeric cleaning roller 24 and the second elastomeric cleaning roller 26 rotate in opposite directions about their respective rotational axes.
• the first elastomeric cleaning roller 24 rotates anticlockwise while the second elastomeric cleaning roller 26 rotates clockwise.
• the first elastomeric cleaning roller 24 and the second elastomeric cleaning roller 26 are mounted so as to receive the substrate from the conveyor. Once the substrate has been received, both the first elastomeric cleaning roller 24 and the second elastomeric cleaning roller 26 are arranged to be in contact with the surface of the substrate 80. The first elastomeric cleaning roller 24 is arranged to contact the upper surface of the substrate 80. The second elastomeric cleaning roller 26 is arranged to contact the lower surface of the substrate 80.
• the substrate 80 has a curved end 82 closest to the rollers.
• the second pair of rollers comprises a third elastomeric cleaning roller 34 and a fourth elastomeric cleaning roller 36 mounted in the path of a conveyor 16 downstream from the first pair of rollers.
• the third elastomeric cleaning roller 34 is elongate and generally cylindrical in shape, and is mounted on a holder (not shown) having a rotational axis perpendicular to the plane of view about which the third elastomeric cleaning roller 34 is free to rotate.
• the fourth elastomeric cleaning roller 36 is mounted on a holder (not shown) having a rotational axis perpendicular to the plane of view and parallel to that of the third elastomeric cleaning roller 34 about which the fourth elastomeric cleaning roller 36 is free to rotate.
• the third elastomeric cleaning roller 34 and the fourth elastomeric cleaning roller 36 are mounted so as to be in contact with one another such that the third elastomeric cleaning roller 34 and the fourth elastomeric cleaning roller 36 rotate in opposite directions about their respective axes.
• the third elastomeric cleaning roller 34 rotates clockwise while the fourth elastomeric cleaning roller 36 rotates anticlockwise.
• the third elastomeric cleaning roller 34 and the fourth elastomeric cleaning roller 36 are mounted so as to receive the substrate from the first and second elastomeric cleaning rollers 24, 26. Once the substrate has been received, both the third elastomeric cleaning roller 34 and the fourth elastomeric cleaning roller are arranged to be in contact with the surface of the substrate 80. The third elastomeric cleaning roller 34 is arranged to contact the upper surface of the substrate 80. The fourth elastomeric cleaning roller 36 is arranged to contact the lower surface of the substrate 80.
• the first pair of rollers 24,36 and the second pair of rollers 34,36 may each be provided with a nip gap through which the substrate 80 is to be conveyed.
• the sheet substrate 80 to be cleaned is positioned on the surface of the conveyor 16 which, in Figure 1 , conveys the sheet substrate 80 from left to right.
• the substrate 80 passes between the first pair of elastomeric cleaning rollers and second pair of elastomeric cleaning rollers consecutively. That is, the substrate 80 firstly passes between the first elastomeric cleaning roller 24 and the second elastomeric cleaning roller 26.
• the first elastomeric cleaning roller 24 rotates anticlockwise while the second elastomeric cleaning roller 26 rotates clockwise, moving the substrate 80 to the right.
• the first elastomeric cleaning roller 24 contacts the upper surface of the substrate 80, removing debris therefrom.
• the inherent polarity of the material used to form the first elastomeric cleaning roller 24 attracts the debris from the upper surface of the substrate 80 and causes the debris to stick to the surface of the first elastomeric cleaning roller 24.
• the relative attractive force between the surface of the first elastomeric cleaning roller 24 and the debris is greater than that between the debris and the surface of the substrate 80, allowing the debris to be removed.
• the second elastomeric cleaning roller 26 rotates clockwise.
• the second elastomeric cleaning roller 26 contacts the lower surface of the substrate 80, removing debris therefrom.
• the inherent polarity of the material used to form the second elastomeric cleaning roller 26 attracts the debris from the bottom surface of the substrate 80 and causes the debris to stick to the surface of the second elastomeric cleaning roller
• the relative attractive force between the surface of the second elastomeric cleaning roller 26 and the debris is greater than that between the debris and the surface of the substrate 80, allowing the debris to be removed.
• the substrate 80 is then received by the second pair of elastomeric cleaning rollers.
• the substrate 80 passes between the third elastomeric cleaning roller 34 and the fourth elastomeric cleaning roller 36.
• the third elastomeric cleaning roller 34 rotates clockwise while the fourth elastomeric cleaning roller 36 rotates anticlockwise, moving the substrate 80 to the right.
• the third elastomeric cleaning roller 34 contacts the lower surface of the substrate 80, removing debris therefrom.
• the inherent polarity of the material used to form the third elastomeric cleaning roller 34 attracts the debris from the lower surface of the substrate 80 and causes the debris to stick to the surface of the third elastomeric cleaning roller 34.
• the relative attractive force between the surface of the third elastomeric cleaning roller 34 and the debris is greater than that between the debris and the surface of the substrate 80, allowing the debris to be removed.
• the fourth elastomeric cleaning roller 36 rotates anticlockwise.
• the fourth elastomeric cleaning roller 36 contacts the upper surface of the substrate 80, removing debris therefrom.
• the inherent polarity of the material used to form the fourth elastomeric cleaning roller 36 attracts the debris from the upper surface of the substrate 80 and causes the debris to stick to the surface of the fourth elastomeric cleaning roller 36.
• the relative attractive force between the surface of the fourth contact cleaning roller 36 and the debris is greater than that between the debris and the surface of the substrate 80, allowing the debris to be removed.
• the second pair of contact cleaning rollers are implemented to remove any further debris that is not removed by the first pair of contact cleaning rollers.
• a first adhesive roll 20 and a second adhesive roll 22 are also provided.
• the adhesive rolls 20,22 are generally cylindrical in shape comprising a body having a surface on which adhesive having a rotational axis perpendicular to the plane of view and parallel to the axes of the elastomeric cleaning rollers 24,26,34,36, about which the adhesive rolls 20,22 are free to rotate.
• the first adhesive roll 20 comprises a paper base and an adhesive on the base layer.
• the second adhesive roll 22 comprises a paper base and an adhesive on the base layer.
• the first adhesive roll 20 rotates against the first elastomeric cleaning roller 24 and the fourth elastomeric cleaning roller 36. In this way the respective surfaces of the first and the fourth cleaning rollers 24,36 and the first adhesive roll 20 are close enough such that debris removed from the upper surface of the substrate 80 are transferred to the first adhesive roll 20.
• the adhesive force between the debris on the first and on the fourth elastomeric cleaning rollers 24,36 and the first adhesive roll 20 is greater than the adhesion force holding the debris onto the surface of either the first or fourth elastomeric cleaning rollers 24,36, allowing the debris to be transferred.
• the second adhesive roll 22 rotates against the second elastomeric cleaning roller 26 and the third elastomeric cleaning roller 34. In this way, the respective surfaces of the second and third elastomeric cleaning rollers 26,34 and the second adhesive roll 22 are close enough such that debris removed from the lower surface of the substrate 80 are transferred to the second adhesive roll 22.
• the adhesive force between the debris on the second and on the third elastomeric cleaning rollers 26, 34, and the second adhesive roll 22 is greater than the adhesion force holding the debris onto the surface of either the second and third elastomeric cleaning rollers 26,34, allowing the debris to be transferred.
• the contact cleaning apparatus 1 is further provided with an air supply manifold 40 fluidly coupled to an air supply (not shown).
• the air supply manifold 40 shown in schematic cross section, is provided in the form of a cylinder having holes therein.
• One of the holes 42 is shown in the depicted embodiment.
• An air supply (not shown) is configured to supply air into the air manifold, such that air can be expelled through the hole 42.
• the air manifold 40 is mounted at a position located upstream of the first pair of contact cleaning rollers 24,26 so as to direct a stream of air onto the sheet substrate 80. More specifically, the air manifold 40 is designed to eject a stream of air onto the sheet substrate 80 before the sheet substrate 80 engages a contact zone at the surface of the first and second elastomeric cleaning rollers 24, 26.. This operation will be described in more detail with reference to Figures 5 to 7. Alternatively, or in addition, the air supply manifold 40 is configured and arranged to eject a stream of air onto the contact zone at the surface of the elastomeric rollers 24, 26.
• the substrate 80 is transported along the conveyor 16 towards the first pair of elastomeric cleaning rollers 24,26.
• the curved leading edge 82 of the substrate 80 tends upwards away from the conveyor 16 such that the substrate 80 is not planar.
• the substrate 80 crumples against the first elastomeric cleaning roller 24. In the absence of an air supply, the the curved edge of substrate 80 wraps around the first elastomeric cleaning roller 24. Thus, instead of passing between the first and second elastomeric cleaning rollers 24, 26, for cleaning, the substrate 80 causes the apparatus to be jammed or fail. The apparatus 1 must then be repaired and undergo maintenance.
• the contact cleaning apparatus 101 is substantially the same as contact cleaning apparatus 1 in Figures 1 to 4.
• the sheet substrate 180 is transported along the conveyor 116 driven by the transport rollers 112,114.
• the free leading edge 182 of the substrate 180 is approaches the first pair of contact cleaning rollers 124,126.
• air is expelled from the air outlet 142 of the air supply manifold 140 along a direction generally denoted by arrow 144.
• a stream of air is directed towards a contact zone of the first elastomeric cleaning roller 126.
• the stream of air is directed onto a curved leading edge 182 of the substrate sheet 180 as it approaches the contact zone.
• the air is directed onto the curved leading edge 182 of the substrate 180 to flatten the substrate 180.
• Air may, in addition or alternatively be expelled from the air outlet 142 onto a contact zone between the first pair of elastomeric cleaning rollers 124,126 and the curved leading edge 182 of the substrate 180. It is also envisaged that the stream of air may be directed towards a location upstream of the contact zone. In this way, when the curved leading edge 182 of the sheet substrate 180 is conveyed towards the contact zone, the substrate 180 may be flattened before the sheet substrate 180 is cleaned by the first and second pair of elastomeric cleaning rollers 124,126,134,136.
• the boundary layer of air around the second elastomeric roller 126 is temporarily augmented.
• the augmented boundary layer flattens the leading edge 182 of the sheet substrate 180 in the contact zone. Consequently, as the sheet substrate 180 is correctly oriented to be received and cleaned by the first pair of elastomeric cleaning rollers.
• the substrate 180 may be flattened at any point upstream from the elastomeric cleaning rollers 124,126,134,136.
• air is supplied at an angle of 20 degrees relative to a reference plane extending vertically from the rotational axis of the second elastomeric cleaning roller 126.
• the angle may be a fixed angle.
• the angle of the air supply directed from the air outlet 142 of the air manifold 140 will depend on the speed of transfer of substrate 180 into the cleaning zone.
• the angle may be changed to any number of fixed angles between perpendicular and parallel to the reference plane. It is envisaged that air may be supplied at a different angle, such as an angle between parallel to and perpendicular to the reference plane.
• the angle of the air manifold outlet may be varied relative to a surface of the reference plane.
• the stream of air of the cleaning contact apparatus may be selectively activated. In this way, the stream of air may be operable only when a leading edge is approaching the contact zone. Once the leading edge has engaged with the contact zone, then the air supply is no longer required in order to ensure correct operation of the apparatus. The stream of air is thus deactivate as the remainder of the sheet substrate is conveyed through contact zone.
• the cleaning contact apparatus is provided with a detection sensor (not shown).
• the detection sensor detects the leading edge of the substrate on the conveyor as it approaches the contact zone to activate the stream of air.
• a controller communicates with the air supply to deliver air to the air supply manifold which in turn delivers the air through the outlet.
• the stream of air may be expelled through the outlet of the manifold in pulses.
• the pulsed stream of air may be selectively activated, for example employing a detection sensor to detects the leading edge of the substrate on the conveyor.
• FIG 8 there is shown a further example contact cleaning apparatus 201 for a sheet substrate with a curved leading edge according to an aspect of the invention.
• the reference numbers are the same, other than the initial digit is a “2”.
• FIG. 8 shows a first pair of elastomeric cleaning rollers provided, including first and second elastomeric cleaning rollers 224, 226 mounted to receive a sheet substrate 280 from a first conveyor 216.
• a flattening means is disposed proximate the first conveyor 216, the flattening means configured to operably engage the curved leading edge 282 of the sheet substrate 280 such that the curved leading edge 282 is flattened at a point of contact with the first pair of elastomeric cleaning rollers 224, 226.
• the flattening means is a second conveyor 296.
• the second conveyor 296 is provided proximate said first conveyor 216.
• the second conveyor 296 is configured to operably engage the curved leading edge 282 of the sheet substrate 280 such that the curved leading edge 282 is flattened at a point of contact with the second elastomeric cleaning roller 226.
• the first pair of elastomeric cleaning rollers 224, 226 are substantially the same as the first pair of elastomeric cleaning rollers 24, 26 of the other examples described herein.
• Each of the first pair of elastomeric cleaning rollers 224,226 is rotatably mounted on a holder (not shown) so as to receive the substrate from the conveyor.
• a second pair of elastomeric cleaning rollers 234, 236 is provided downstream from the first pair of rollers.
• the second pair of rollers 234, 236 of the example shown in Fig. 8 are substantially the same as the first pair of elastomeric cleaning rollers 34, 36 of the other examples described herein.
• Each roller of the second pair is rotationally mounted on a holder (not shown).
• the second pair of elastomeric cleaning rollers, 234, 236 are arranged to receive the sheet substrate 280 from the first pair of elastomeric cleaning rollers 224, 226.
• the first conveyor 216 is driven by first and second transport rollers 212, 214. In this way, the first conveyor 216 is adapted to transport a sheet substrate 280 thereon.
• the first and second transport rollers 212, 214 of the first conveyor 216 are arranged within opposing end regions of the first conveyor 216.
• the second conveyor 296 is driven by first and second transport rollers 292, 294 arranged within opposing end regions of the second conveyor 296.
• the first transport roller 294 is position proximate both the first conveyor 216 and the first pair of elastomeric cleaning rollers 224, 226.
• the second transport roller 292 is positioned distal to the first pair of elastomeric cleaning rollers 224, 226.
• the first pair of elastomeric cleaning rollers 224, 226 and the second pair of rollers 234, 236 are each be provided with a nip gap through which the substrate 280 is to be conveyed.
• the contact cleaning apparatus 201 includes a first adhesive roll 220 and a second adhesive roll 222.
• the first and second adhesive rolls 220, 222 are mounted and arranged to transfer debris from the first and second pairs of elastomeric cleaning rollers 224, 226, 234, 236 in a similar manner to those other examples described herein.
• the first conveyor 216 is driven by its first and second transport rollers 212, 214.
• the first conveyor 216 is driven in a direction, D2, so the surface region supporting the sheet substrate 280 is moved towards the first pair of elastomeric cleaning rollers 224, 226.
• a sheet substrate 280 is carried on the first conveyor 216, it moves in a direction, D1 , towards the first pair of elastomeric cleaning rollers 224, 226.
• the second conveyor 296 is driven by its first and second transport rollers 292, 294.
• the second conveyor 296 is driven in a direction, D3, such that the surface of the second conveyor 296 which engages the curved leading edge 282 moves towards the first transport roller. In this way, surface engaging the curved leading edge 282 moves towards the first pair of elastomeric cleaning rollers.
• the second conveyor 296 is arranged at an angle relative to the first conveyor 216. Due to their relative positioning, the second conveyor 296 is provided in contacting engagement with the first conveyor 216 proximate the first pair of elastomeric cleaning rollers 224, 226. That is, the first and second conveyors 216, 296 provide a nip gap through which the substrate 280 is to be conveyed.
• the relative angular orientation of the first and second conveyors, 216, 296 enables the first and second conveyors 216, 296 to channel the curved leading edge 282 as the curved leading edge 282 moves towards the first pair of cleaning rollers 224, 226. That is, due to the decreasing gap between the first and second conveyors, 216, 296, the curved leading edge is made flat as it approaches the nip gap of the first and second conveyors 216, 296. Consequently, the curved leading edge may be conveniently and easily flattened prior to being received by the elastomeric cleaning rollers.
• the flattening means is any guide operable to engage and flatten a curved leading edge as it moves on a first conveyor.
• Suitable guides may include a surface which is suitably angled, curved or profiled so that it provides a flattening of the curved leading edge as it moves on the first conveyor.
• a guide may include ridges, projections or ribs, optionally oriented in the direction of movement of the curved leading edge.
• a guide may be provided with a surface treatment or coating. In this way, the guide may provide a channelling effect with low friction between the guide and the curved leading edge.
• the flattening means such as a guide or second conveyor may be selectively adjustable. In this way, the flattening means may positioned at varying positions and angles relative to the first conveyor.

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• 2020
  • 2020-03-01 GB GBGB2002942.7A patent/GB202002942D0/en not_active Ceased
• 2021
  • 2021-02-12 GB GB2101993.0A patent/GB2593289B/en active Active
  • 2021-02-26 JP JP2022552665A patent/JP7519456B2/ja active Active
  • 2021-02-26 WO PCT/US2021/019863 patent/WO2021178236A1/en unknown
  • 2021-02-26 KR KR1020227034031A patent/KR20220146629A/ko unknown
  • 2021-02-26 CN CN202180028089.0A patent/CN115397571A/zh active Pending
  • 2021-02-26 EP EP21713297.6A patent/EP4114586B1/en active Active

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