Patent application number | Description | Published |
20100132392 | INDOOR UNIT OF AIR CONDITIONER - Grooves are formed on a back surface | 06-03-2010 |
20140124965 | TRANSFER MOLDING METHOD AND TRANSFER MOLDING APPARATUS - A transfer molding method has a transfer molding step of performing transfer molding to a resin sheet between a first die and a second die, which are disposed while facing each other, by heating at least one of the first and second dies, and a cooling step of cooling the resin sheet. The cooling step includes a first cooling step of cooling the resin sheet while an applied pressure is maintained at a first setting value smaller than a value of an applied pressure in the transfer molding step, and a second cooling step of cooling the resin sheet while the applied pressure is reduced to a second setting value smaller than the first setting value. | 05-08-2014 |
20140125917 | LIGHT GUIDE PLATE PRODUCING METHOD, DIE STRUCTURE, TRANSFER MOLDING APPARATUS, LIGHT GUIDE PLATE, AREA LIGHT SOURCE DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, AND MOBILE DEVICE - A method for producing a light guide plate includes forming a light introduction part that introduces light incident through an end face, and forming a light guide plate body that has a thickness less than a maximum thickness of the light introduction part, forming the light guide plate body to be continuously joined to the light introduction part, and forming the light guide plate body so as to cause a light controller to output the incident light to an outside. The light guide plate producing method further includes a conveying step of conveying a resin sheet between a first die and a second die, which are disposed while facing each other, wherein a transfer surface is provided in at least one of surfaces facing each other in the first and second dies. | 05-08-2014 |
20140125918 | DIE STRUCTURE, TRANSFER MOLDING APPARATUS, TRANSFER MOLDING METHOD, OPTICAL MEMBER, AREA LIGHT SOURCE DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, AND MOBILE DEVICE - A transfer molding method includes an insertion step of inserting a resin sheet between a first die and a second die, which are disposed opposite each other, a sandwiching step of sandwiching the resin sheet between the first and second dies while a transfer surface of a transfer member is brought into contact with at least one of surfaces of the resin sheet, and a transfer molding step of heating at least one of the first and second dies to melt at least a surface portion of the resin sheet with which the transfer surface of the transfer member is brought into contact, and exhausting residual air remaining in a recess through a groove portion connected to the recess when a thick portion is formed by the recess formed in the transfer surface. | 05-08-2014 |
20140125921 | RESIN SHEET PRODUCING METHOD, OPTICAL MEMBER PRODUCED BY RESIN SHEET PRODUCING METHOD, AREA LIGHT SOURCE DEVICE IN WHICH OPTICAL MEMBER IS USED, LIQUID CRYSTAL DISPLAY DEVICE, AND MOBILE DEVICE - An area light source device has a transfer-molded optical member, and a light source disposed in a position facing at least one of end faces of the optical member. Light incident to the optical member from the light source is output through a light exit surface of the optical member. A cutting back clearance portion is provided in at least one of corner portions of the end face of the optical member. | 05-08-2014 |
Patent application number | Description | Published |
20120064789 | BIODEGRADABLE NONWOVEN FABRIC AND FIBER PRODUCT USING THE SAME - A nonwoven fabric is provided that has biodegradability and has excellent mechanical strength and excellent texture in combination, and a fiber product containing the nonwoven fabric is provided. The biodegradable nonwoven fabric contains at least two kinds of fibers including a fiber A and a fiber B, in which the fiber A contains a first component having biodegradability, and the fiber B contains a second component having biodegradability. The nonwoven fabric contains a mixed fiber web having a mixing ratio (weight ratio) of the fiber A and the fiber B in a range of from 5/95 to 95/5. The first component contains at least one member selected from the group consisting of an aliphatic polyester and an aliphatic polyester copolymer each having a melting point that is higher than a melting point of the second component. A half crystallization time at 85 degree Celsius of the second component is longer than a half crystallization time at 85 degree Celsius of the first component. | 03-15-2012 |
20120097037 | AIR FILTER MATERIAL USING LAMINATED ELECTRET NONWOVEN FABRIC - Present invention provides an air filter material using a laminated electret nonwoven fabric subjected to electret processing in which one layer or a plurality of layers of nonwoven fabrics (referred to as nonwoven fabric B) including fibers having a mean fiber diameter in the range of 10 micrometers to 100 micrometers and being larger than a mean fiber diameter of fibers constituting nonwoven fabric A are laminated on at least one side of a nonwoven fabric (referred to as nonwoven fabric A) obtained by mixing two kinds of fibers having a mean fiber diameter in the range of 0.1 micrometer to 15 micrometers and having a different melting point (fibers having a lower melting point are defined as fibers D and fibers having a higher melting point are defined as fibers E), and a laminated electret filter material having a low pressure loss and a high collection efficiency. The filter material is suitably used for a medical mask, an industrial mask, a general purpose mask or the like. | 04-26-2012 |
20130209763 | LAMINATED NON-WOVEN FABRIC, AND MANUFACTURED ARTICLE USING THE SAME - A laminated non-woven fabric and a manufactured article using the laminated non-woven fabric are provided. The laminated non-woven fabric is formed by clamping a fibrous layer B between two of fibrous layer A, wherein the fibrous layer B is obtained by using a fiber melting or softening at 120° C. or less, and fibrous layer A includes a fiber neither melting nor softening at 120° C. or less, in which the fibrous layer A and the fibrous layer B are integrated through point thermal compression bonding, and interlayer peeling strength between the fibrous layer A and the fibrous layer B ranges from 0.3 Newton (N)/25 millimeters (mm) to 4.0 N/25 mm. | 08-15-2013 |
20140165515 | BLENDED FILAMENT NONWOVEN FABRIC - The nonwoven fabric is a blended filament nonwoven fabric including a blend of two types of filaments, wherein the two types of filaments are constituted of thermoplastic resins different from each other, an average fiber diameter obtained by dividing the total value of fiber diameters of the filaments present in the nonwoven fabric by the number of the constituent filaments is 0.1 to 10 μm, and the nonwoven fabric has a specific volume of 12 cm | 06-19-2014 |
20140318565 | COSMETIC FACIAL MASK - A cosmetic facial mask is described, having high fitting properties onto skin, an excellent skin tightening effect, and an excellent lift-up effect on a flaccid cheek or face line. The cosmetic facial mask includes a laminate in which a non-elastomeric fiber layer and an elastomer layer are integrated through lamination, and has stretchability in a vertical direction of a face. | 10-30-2014 |