Class / Patent application number | Description | Number of patent applications / Date published |
427424000 | Moving the base | 48 |
20090061099 | ROBOTIC TIRE SPRAYING SYSTEM - A robotic spray system is provided for accurately spraying mold release onto any size or shaped green tire. The system analyzes individual green tires using an integrated vision system. The system controls the robotic spray position, the fan, fluid, atomizing air, and tire rotation speed for optimal spray coverage on both the inside and outside of green tires. The system includes a conveyor, an overhead mounted camera located over an infeed station, and a second camera located perpendicular to the green tire's tread and several feet away from the center of the tire. Pictures of the green tire in the station are used to estimate the center and radius of the tire and locate the angle of the bar code with respect to the center of the tire. Reference points are provided from the camera images and robot positions are calculated to control the spraying. | 03-05-2009 |
20090258151 | Method and Apparatus for Coating Curved Surfaces - A coating apparatus includes support structure supporting a workpiece support member for rotation about an axis, and a drive structure for rotating the support member. A source is spaced along an imaginary line from the support structure, and emits a plume of coating material that flows away from the source toward the support structure. The axis extends at an angle with respect to an imaginary plane perpendicular to the imaginary line. According to a different aspect, a coating method includes rotating a workpiece support member about an axis, and emitting a plume of coating material from a source that is spaced along an imaginary line from the support structure, the plume flowing away from the source toward the support structure. The axis extends at an angle to an imaginary plane that is perpendicular to the imaginary line. | 10-15-2009 |
20090311434 | COATING METHOD AND COATING UNIT - Formation of banded irregularities in a process liquid film formed on a substrate being carried by a flotation carrying system is reduced or suppressed effectively. | 12-17-2009 |
20100015346 | Coating apparatus and method - The invention is an alternative to a conventional atomizing coating apparatus. The apparatus and associated coating methodology of the invention provides a uniform atomized fluid stream, and, in turn, a uniform coating to an object on an industrial scale. The apparatus and methodology addresses many of the critical parameters associated with the conventional curtain and atomizing coating techniques, including but no limited to, uniform distribution, acoustical transparency, reduction or elimination of clogged nozzles, and elimination of the need for reciprocating nozzles. | 01-21-2010 |
20100092683 | Dispenser device for and a method of dispensing a substance onto a substrate - A dispenser device ( | 04-15-2010 |
20100092684 | METHOD AND APPARATUS FOR COATING RESIN - Method and apparatus for coating a surface of a work with a thin resin or plastic film suitable for use in imprinting a pattern by impressing a master pattern on a transfer surface of a mold on the coated resin film. A curable resin liquid is coated on a work by the use of an inkjet feed means having a plural number of inkjet nozzle holes in a row or rows on a nozzle assembly, in association with actuators to propel droplets of resin liquid from the respective inkjet nozzle holes in controlled timings while moving the inkjet feed means and the work relative to each other. | 04-15-2010 |
20100119722 | DECORATION METHOD AND SYSTEM FOR DECORATING CERAMIC PRODUCTS - A decoration method and system, suitable for decorating, with a decorator unit, multiform ceramic products having multiform surfaces to be decorated, includes moving the multiform products and/or the decorator unit relative to each other with a movement device such that the decorator unit follows the multiform surfaces to be decorated. Decorating substances are dispensed with a dispensing device, which is moveable in space. | 05-13-2010 |
20100129559 | ADJUSTABLE ROLLER APPARATUS FOR SPREADING SUBSTANCES - There is provided a system for spreading a substance. The system comprises a at least two rotating means disposed in a housing. The rotating means are adapted to compress and move said substance. The system permits to control the thickness of the substance to be spread through the outlet. Methods for spreading a substance are also provided. | 05-27-2010 |
20100196613 | METHOD AND APPARATUS FOR COATING A FIBER BUNDLE - A method and an apparatus for coating a fiber bundle, the fiber bundle comprising at least three fibers and the method comprising guiding the fiber bundle to travel through a first and a second chamber formed by means of a first, a second and a third nozzle part of a nozzle means, whereby coating material is fed to the fiber bundle through the chambers. The fibers of the fiber bundle are kept separate from each other in the first nozzle part, so that the coating material gets to penetrate between the fibers in the first chamber; the fibers are guided into a position against each other in the second nozzle part, so that the coating material surrounds the uniform fiber bundle in the second chamber; and the fiber bundle is guided onwards through the third nozzle part to provide the final fiber bundle diameter. | 08-05-2010 |
20100247792 | LIQUID APPLICATION APPARATUS AND APPLICATION METHOD - A liquid application apparatus includes a guide roll for guiding a sheet for application, and a slit die for applying a liquid to a surface of the sheet for application from an opening. The slit die has an upper layer flow path and a lower layer flow path spaced in the rotational direction of the guide roll and joining at the opening. In a cross section perpendicular to the axis of the guide roll, an angle α formed by the center line of the upper layer flow path and the center line of the lower layer flow path is 0.5 to 25°, an angle β formed by a line connecting the intersection point of the center line of the upper layer flow path and the center line of the lower layer flow path with the axis of the guide roll and by the center line of the upper layer flow path is 0 to 70° as measured from this connecting line toward the center line of the upper layer flow path in the direction opposite to the rotational direction of the guide roll, and the distance γ between a point where the two flow paths and join and the opening is 0.05 to 2.8 mm. | 09-30-2010 |
20100310778 | Apparatus and Method of Applying a Coating Solution - A method of applying a coating solution onto an upper surface of a glass plate that is transported in a substantially horizontal attitude, according to the first aspect of the present invention, the method including the steps of transporting the glass plate into a coating chamber, and opening the plurality of coating nozzles which are positioned in a row at constant intervals therebetween along a curved shape of the upper surface of the glass plate in a width direction of the glass plate perpendicular to the direction of transporting the glass plate by the nozzle position adjusting means and the nozzle height adjusting means, to thereby inject the coating solution when the coating nozzles are located in a region of the upper surface of the glass plate which extends from the leading edge of the glass plate to the rear edge of the glass plate. | 12-09-2010 |
20100310779 | Process for Production of Water-Absorbing Articles - According to a first aspect of the present invention, a process for production of a water-absorbing article including a substrate and a coating film formed on the substrate and formed of a water-absorbing urethane resin is characterized in that: the process comprises an application step of applying a coating liquid to the substrate; the application step includes a step of supplying the coating liquid from a nozzle disposed above the substrate to a surface of the substrate conveyed horizontally; the coating liquid includes a solid matter and a solvent; the solid matter includes a mixture of a polyisocyanate, a polyol having ethylene oxide and a hydrophobic polyol; a concentration of the solid matter in the coating liquid is adjusted within a range from 5 to 30% in mass; and a viscosity of the coating liquid is adjusted within a range from 1 to 3 mPa·s. | 12-09-2010 |
20110008545 | FILM FORMING METHOD, FILM FORMING APPARATUS, PATTERN FORMING METHOD, AND MANUFACTURING METHOD OF SEMICONDUCTOR APPARATUS - There is disclosed a film forming method comprising continuously discharging a solution adjusted so as to spread over a substrate by a given amount to the substrate through a discharge port disposed in a nozzle, moving the nozzle and substrate with respect to each other, and holding the supplied solution onto the substrate to form a liquid film, wherein a distance h between the discharge port of the nozzle and the substrate is set to be not less than 2 mm and to be in a range less than 5×10 | 01-13-2011 |
20110052826 | APPLICATION DEVICE AND DRIVING METHOD THEREOF - An application device wherein a liquid is applied to an application target region of a substrate disposed on a supporting table by moving a discharge section including a nozzle hole which discharges the liquid in a first direction relative to the supporting table; a displacement amount of the discharge section in a second direction which crosses the first direction is detected while the discharge section moves relative to the supporting table in the first direction; and one of the discharge section and the supporting table is moved in an offset direction which offsets the displacement amount while the discharge section is moved relative to the supporting table in the first direction, so as to control the displacement. | 03-03-2011 |
20110059256 | DELIVERY UNIT, COATING APPARATUS, AND COATING METHOD - It is an object of the present invention to apply a liquid uniformly on a to-be-coated area of an object subjected to liquid coating. A delivery unit which delivers the liquid on the to-be-coated area of the object subjected to liquid coating comprises a main body filled with the liquid and a nozzle plate which is provided at one end side of the main body and which is provided with a delivery path for delivering the liquid. The axial line of the delivery path is inclined relative to a vertical axis toward an opposite side of a travelling direction in which the delivery unit travels relative to the to-be-coated area. | 03-10-2011 |
20110274848 | EJECTION DEVICE AND DROPLET DISPOSITION METHOD - An ejection device in which a multi-nozzle mechanism including failure nozzles ejects droplets such that variation in amounts of droplets (spacers) is prevented and droplets are disposed on spacer regions of a substrate. An ejection device includes a multi-nozzle mechanism including a pair of nozzle row units prepared by equally dividing a nozzle row including a plurality of nozzles ejecting a spacer dispersion liquid, a moving mechanism relatively moving the multi-nozzle mechanism and a substrate in the longitudinal direction and the align direction of spacer regions, and a control mechanism controlling the nozzles and the moving mechanism. When one nozzle row unit includes a failure nozzle, the control mechanism gives a command to the failure nozzle not to eject the liquid and a command to a corresponding nozzle of the other unit to halve cycles of forward and backward paths. | 11-10-2011 |
20120177834 | SYSTEM AND METHOD FOR PROTECTING A COTTON MODULE DURING THE UNLOADING PROCESS - A system and method for applying a protective layer to a cotton module of compacted cotton moving in an unloading direction from a cotton module builder through an open end thereof along an unloading surface, the system including application apparatus having at least one applicator in fluid communication with at least one tank for applying a fluid contained in the at least one tank to at least a top surface of the cotton module, the fluid being applied to an exterior of the cotton module in a fluid state and solidifying into a water resistant layer prior to significantly permeating the exterior of the module, so as to capable of being removed therefrom prior to processing of the module. | 07-12-2012 |
20120219721 | METHOD FOR PRODUCING FILMS HAVING PARTICLE-CONTAINING LAYER - Method of producing a film having a particle-containing layer, comprising the steps of:
| 08-30-2012 |
20120288635 | SUBSTRATE COATING DEVICE AND SUBSTRATE COATING METHOD - A substrate coating device ( | 11-15-2012 |
20130034660 | PAINTING SYSTEM AND OPENING/CLOSING HAND OF DOOR OPENING/CLOSING ROBOT - This painting system includes a body transport device transporting a body, a painting robot fixedly set at a first height, painting at least an inner portion of a door of the body while changing a posture to follow transport of the body by the body transport device, and a door opening/closing robot fixedly set at a second height different from the first height. | 02-07-2013 |
20130136866 | Apparatus And Method For Skinning Articles - A skinning apparatus including: a manifold having:
| 05-30-2013 |
20130266735 | SPRAYING SYSTEM AND METHODS OF USE THEREOF - Embodiments of the present disclosure provide for spraying systems, methods of disposing a layer of matrix onto a sample, and the like. | 10-10-2013 |
20140134346 | SYSTEM AND METHOD FOR APPLICATION OF NANO STAPLE - A system for the application of nanofiber to a substrate includes a tank having an outlet, an agitator disposed in the tank, a pump located at the tank outlet and an applicator disposed proximate to the substrate. One or more fluid conduits extend from the tank to the pump and from the pump to the applicator. The fluid conduits are configured so as to minimize bends and interferences. The system includes a controller. A nanofiber formulation in a fluid carrier in the tank is pumped from the tank to the applicator for application to the substrate at a predetermined flow rate. The pump is controlled by the controller to vary the output of the pump to match the predetermined flow rate, and the nanofiber formulation is applied by the applicator head at a predetermined coat weight on the substrate. A method for the application of nanofiber to a substrate is disclosed. | 05-15-2014 |
20140186537 | METHOD FOR CONTROLLING A FLOW RATE OF A PUMP AND METHOD FOR FORMING A COATED FILM - A method for controlling a flow rate of a pump ( | 07-03-2014 |
20140205760 | COATING SYSTEM AND COATING METHOD - A coating system comprises: a coating apparatus connected to a syringe filled with a coating agent and having a nozzle for discharging the coating agent of the connected syringe; a robot which moves an object to be coated, held by a robot hand, to a coating position; and a control unit, wherein the coating apparatus comprises a plurality of syringes respectively filled with different coating agents, the nozzles connected to the respective syringes, and a rotary table for rotationally moving together the syringes and the connected nozzles, and the control unit controls to select the syringe filled with the coating agent to be applied to the object, move the nozzle connected to the selected syringe to a position facing the coating position by the rotation of the rotary table, move the object held by the robot hand to the coating position, and discharge the coating agent from the nozzle. | 07-24-2014 |
20140242283 | SYSTEMS AND METHODS FOR DISPENSING A FLUID - A fluid dispensing system may include a first die portion having a first face defining a first edge and a second die portion spaced from the first die portion and having a second face facing the first face and defining a second edge, wherein the first edge and the second edge define a fluid outlet opening. The fluid dispensing system may also include a fluid inlet for introducing fluid to a region between the first face and the second face, and a cavity in flow communication with the fluid inlet, wherein the cavity opens to the region between the first face and the second face. The fluid dispensing system may further include a shim disposed between the first die portion and the second die portion to maintain the spaced positioning of the first and second die portions, wherein the shim defines a plurality of channels bounded by the first and second faces and extending from the cavity in a direction toward the fluid outlet. | 08-28-2014 |
20140272161 | SMALL SCALE MICROENCAPSULATED PIGMENTS AND USES THEREOF - A method is provided for making thermochromic pigments in microcapsules having unusually small particle sizes. | 09-18-2014 |
20140329019 | CONTACT COATING BY USE OF A MANIFOLD PROVIDED WITH CAPILLARY TUBES - A coating apparatus and method of use wherein at least one capillary tube is in contact with a moving substrate during coating. | 11-06-2014 |
20140370199 | LIQUID PROCESSING APPARATUS, LIQUID PROCESSING METHOD, AND STORAGE MEDIUM - A liquid processing apparatus includes multiple substrate holding units each configured to horizontally hold a substrate and arranged in a left/right direction; a moving unit that is spaced from an arrangement of the substrate holding units in a forward/backward direction and is moved in the left/right direction; a nozzle standby unit, provided between a movement path of the moving unit and the arrangement of the substrate holding units, at which a nozzle that supplies a processing liquid to the substrate held by the substrate holding unit is on standby; and a rotatable arm having one end at which a nozzle holding unit that detachably holds the nozzle and the other end rotatably provided at the moving unit. The nozzle is transferred between the nozzle standby unit and a supply position where the processing liquid is supplied to the substrate together by the moving unit and the rotatable arm. | 12-18-2014 |
20150140223 | BULK-PRODUCT CONVEYOR WITH FLUID INJECTORS - A belt conveyor including a conveyor belt that has hollow injectors for injecting a process fluid into a conveyed layer of bulk products and a method for injecting a process fluid into a layer of bulk products conveyed on a conveyor belt. | 05-21-2015 |
20150336113 | METHOD AND DEVICE FOR COATING ALIGNMENT FILM - The present invention relates to a method and a device for coating an alignment film. The method includes: (1) providing a substrate to which an alignment film is to be coated and placing the substrate to which an alignment film is to be coated on a working table that is reciprocally movable frontward and rearward and leftward and rightward; (2) providing a pressurization tank and depositing a predetermined amount of an alignment liquid in the pressurization tank; (3) providing a supply tank and using a liquid pump to convey the alignment liquid contained in the pressurization tank to the supply tank; (4) using a supply conduit to connect the supply tank to an alignment liquid jet nozzle and subjecting the supply conduit heating to reduce viscosity of the alignment liquid so as to allow the alignment liquid to smoothly move into the alignment liquid jet nozzle; and (5) operating the alignment liquid jet nozzle to apply the viscosity reduced alignment liquid to the substrate to which an alignment film is to be coated and, when necessary, reciprocally moving the working table during the process of application so as to have the alignment liquid uniformly coated on the substrate and complete the coating of the alignment film. The present invention improves surface uniformity of an alignment film so as to ensure product quality and enhance product yield rate. | 11-26-2015 |
20160375463 | METHOD AND APPARATUS FOR COATING A MOVING SUBSTRATE - A method for applying coating material to a moving substrate such as a glass mat web in shingle manufacturing includes conveying the web through a narrow channel and ejecting at least one coating material onto at least one surface of the web as it is conveyed through the channel. In a preferred embodiment, multiple coating materials may be applied to one surface of the web and multiple coating materials may be applied to the other surface of the web. The coating materials may be molten asphalt or other coating materials. The pressure of the coating material is controlled as a function of the line speed of the moving substrate to ensure consistently thick coatings at various speeds, including relatively high speeds, of the web. An apparatus in the form of a slot die is disclosed for carrying out the method of the invention. | 12-29-2016 |
427425000 | Rotating or inverting | 16 |
20080280054 | COATING FILM FORMING APPARATUS, USE OF COATING FILM FORMING APPARATUS, AND RECORDING MEDIUM - A coating film forming apparatus that holds a substrate upon a spin chuck and forms a coating film by supplying a chemical liquid upon a top surface of said substrate comprises: an outer cup provided detachably to surround the spin chuck; an inner cup provided detachably to surround a region underneath the substrate held upon the chuck; a cleaning nozzle configured to supply a cleaning liquid for cleaning a peripheral edge part of the substrate, such that the cleaning liquid is supplied to a peripheral part of a bottom surface of the substrate; a cutout part for nozzle mounting, the cutout part being provided to the inner cup to engage with the cleaning nozzle; and a cleaning liquid supply tube connected to the cleaning nozzle, the cleaning nozzle being detachable to the cutout part in a state in which the cleaning liquid supply tube is connected. | 11-13-2008 |
20100221444 | PROCESS FOR COATING FLUOROELASTOMER FUSER MEMBER USING FLUORINATED SURFACTANT - A process for producing a fuser member coating including a) adding and reacting a fluoroelastomer, a crosslinking agent, a polar solvent, and a fluorinated copolymer surfactant to form a coating solution, and b) providing said coating solution on said fuser member to form a fuser member coating, wherein said fluorinated copolymer surfactant comprises a fluorinated polyether copolymer comprising pendant trifluoroethoxy groups. | 09-02-2010 |
20100304033 | Method And Apparatus For Aligning A Support With Respect To A Honeycomb Body - Method is provided for applying a cement mixture to a honeycomb body including the step of aligning a first end of the honeycomb body with respect to a first longitudinal axis of a first support member. The method further includes the step of aligning a second support member with respect to the second end of the honey-comb body. The second support member is allowed to move relative to the first support member such that a second longitudinal axis of second support member is not coincident with the first longitudinal axis. The method further includes the step of fixing the position of the honeycomb body with respect to the first support member and the second support member. The method still further includes the step of applying a cement mixture to the honeycomb body. An apparatus is provided that is configured to apply a cement mixture to a honey-comb body | 12-02-2010 |
20110052827 | Articulated Nozzle and Method of Applying a Strip of Viscoelastic Material Using Said Nozzle - Device for applying a strip (B) of a viscoelastic material to a receiving surface (S) in relative motion (R) relative to said device, comprising a feed means and an application nozzle ( | 03-03-2011 |
20110059257 | COATING NOZZLE, COATING METHOD, AND INNER VOLUME CONTROL VALVE - A coating nozzle includes a nozzle body including an inlet opening for receiving a liquid supplied from a liquid supply valve and an outlet opening, a distribution plate disposed adjacent to the nozzle body and including an elongated bore in fluid communication with the outlet opening, a shim plate disposed adjacent to the distribution plate and including a shim plate cutout communicating with the elongated bore of the distribution plate, and a baffle plate disposed adjacent to the shim plate. At least a portion of the shim plate cutout is located between the first elongated bore and the baffle plate so as to define a multi-face dispensing slot for dispensing the liquid onto at least two faces of the substrate. | 03-10-2011 |
20110117283 | SPRAY COATING SYSTEM - A spray coating system is provided. The spray coating system includes a spin support for supporting and spinning the substrate; a sprayer for applying a material to an upper surface of the substrate; a cup surrounding a lateral and lower region of the spin support, wherein an opening is located in an upper central region of the cup; an air supply mechanism for supplying air flows to a back surface of the substrate to prevent the material from adhering thereto, and an exhaust zone disposed below a slanted surface of the cup for exhausting the air flow and material. | 05-19-2011 |
20110171390 | FIXTURE FOR COATING APPLICATION - A fixture assembly for use with air plasma spraying coating application processes includes a support member configured to be rotationally indexed, a first buttress, and a second buttress. The support member includes a first portion and a second portion fixedly supported by the first portion in a T-shaped configuration. The second portion has a first end and an opposite second end. The first buttress is secured to the second portion of the support member at or near the first end, with the first buttress configured to secure a first work piece. The second buttress is secured to the second portion of the support member at or near the second end, with the second buttress configured to secure a second work piece. The second buttress is arranged symmetrically with respect to the first buttress. | 07-14-2011 |
20120237689 | Golf Ball Coating System Using Magnetic Levitation - A coating system for golf balls using magnetic levitation is described. Golf balls including magnetic material interact with a magnetic field generated by a magnetic field source with a platform. The interaction between the magnetic field and the golf ball causes the golf ball to levitate above the platform. A conveyor apparatus is used to move the golf balls and platforms through the coating system. The levitating golf balls are sprayed with coating material. Spraying the levitating golf balls allows for even and uniform coating of the golf ball. Additionally, imparting a spin or rotation to the golf balls assists with the even and uniform application of the sprayed coating material. | 09-20-2012 |
20130078385 | MODULAR TIRE SPRAYING SYSTEM - A modular tire spraying system includes a downdraft spray booth for receiving a tire, a fluid delivery system disposed in the spray booth, a robot for transporting the tire to the spray booth, and a platform on which each of the spray booth, the fluid delivery system, and the robot is disposed. The fluid delivery system includes at least one spray gun for delivering a coating to the tire. | 03-28-2013 |
20130189439 | SUBSTRATE PLATE - A device for lacquering or coating a substrate is disclosed. The device includes a substrate plate configured to accommodate said substrate, and one or more suction points connected to, and extending upwardly from, the substrate plate. The one or more suction points may be configured to provide a vacuum to said substrate. | 07-25-2013 |
20150010713 | COATING-FORMING APPARATUS AND COATING-FORMING METHOD - Provided is a coating-forming apparatus. The coating-forming apparatus according to one embodiment of the present invention includes a support member rotatably supporting a tube body about the central axis thereof; a robot moving in the longitudinal direction of the tube body and spraying paint or an abrasive material on the outer circumferential surface of the tube body, a rotation-detecting device attached to the tube body and measuring the angle of rotation of the tube body, and a controller for controlling the supporting member or the robot. | 01-08-2015 |
20150104581 | FILTER UNIT, COATING APPARATUS, AND METHOD FOR PRODUCING COATING FILM - A filter unit including a filter and a housing, in which the filter has an opening on one end side and filters a coating liquid from the outside to the inside of the filter, the housing has, on one end side, an inlet port of the coating liquid, and has, on the other end side, an outlet port of the coating liquid filtered by the filter, the filter is attached to the other end side of the housing so that the opening and the outlet port communicate with each other, and the housing has a release hole through which air is released, the release hole being formed at the other end outside the filter. | 04-16-2015 |
20150352591 | SUBSTRATE TREATING METHOD - A nozzle starts discharging a processing liquid while a spin chuck holds and rotates a substrate having a water-repellent film being formed on a surface thereof. The processing liquid is discharged to a position spaced away from the center of the substrate by a preset distance, and flows so as to converge into one stream on the substrate immediately after discharge of the processing liquid starts. This achieves suppression of the minute water droplets. Moreover, the nozzle is moved toward outside of the substrate while discharging the processing liquid successively. This allows entire flow of the processing liquid to move toward outside of the substrate while the processing liquid converging into one stream on the substrate is maintained. Here, inside the flow of the processing liquid is a dried region. | 12-10-2015 |
20160008845 | METHOD FOR SPRAYING CHEMICAL SOLUTION | 01-14-2016 |
20160184862 | METHOD AND DEVICE FOR MONITORING PRODUCTION OF FLUID FILM - A method for monitoring production of a fluid film, including: activating a dispenser to deliver appropriate material from a storage duct to a metering system for even distribution of a fluid film; allowing the fluid film to pass a sample retrieving roller; measuring the fluid film on the sample retrieving roller using a data reading device to obtain film thickness data; transmitting the data to an analyzer to examine the data against a predetermined reference value; transmitting a comparison result in real time by the analyzer to a production equipment controlling console; controlling the storage duct to dispense material through the material metering system and adjusting the film thickness; repeating the above steps to make a film thickness within the reference range; and maintaining the thickness at the narrowest tolerance deviation, and continuously delivering the film onto a substrate for production. | 06-30-2016 |
20180021804 | COATING TREATMENT METHOD, COMPUTER STORAGE MEDIUM, AND COATING TREATMENT APPARATUS | 01-25-2018 |