Abstract: A display manufacturing device sticks a transparent panel to a display panel, the display panel including a front surface having a periphery covered by a bezel. The display manufacturing device includes: a dispenser that makes a dam by dispensing a light curable resin to straddle the front surface of the display panel and the bezel, and be along an inner peripheral edge of the bezel to stick the transparent panel to the front surface of the display panel; and at least one light irradiation device that emits light that cures the dam. The at least one light irradiation device emits the light in a direction that forms an acute angle between the direction and the front surface of the display panel, the direction being a direction that allows the light to reach the light curable resin that has entered a gap between the front surface and the bezel.

Abstract: A refrigeration cycle apparatus includes a first refrigerant circuit including a first compressor, a first heat exchanger, a first refrigerant flow path of a second heat exchanger, a first expansion device, a third heat exchanger, and a second refrigerant flow path of a fourth heat exchanger, and a second refrigerant circuit including a second compressor, a fifth heat exchanger, a second expansion device, a third refrigerant flow path of the second heat exchanger, and a fourth refrigerant flow path of the fourth heat exchanger, a first refrigerant flows through, in order, the first compressor, the first heat exchanger, the first refrigerant flow path, the first expansion device, the third heat exchanger, and the second refrigerant flow path, the second refrigerant flows through, in order, the second compressor, the fifth heat exchanger, the second expansion device, the third refrigerant flow path, and the fourth refrigerant flow path.

Abstract: A display manufacturing device sticks a transparent panel to a display panel, the display panel including a front surface having a periphery covered by a bezel. The display manufacturing device includes: a dispenser that makes a dam by dispensing a light curable resin to straddle the front surface of the display panel and the bezel, and be along an inner peripheral edge of the bezel to stick the transparent panel to the front surface of the display panel; and at least one light irradiation device that emits light that cures the dam. The at least one light irradiation device emits the light in a direction that forms an acute angle between the direction and the front surface of the display panel, the direction being a direction that allows the light to reach the light curable resin that has entered a gap between the front surface and the bezel.

Abstract: A refrigeration cycle apparatus includes a first refrigerant circuit including a first compressor, a first heat exchanger, a first refrigerant flow path of a second heat exchanger, a first expansion device, a third heat exchanger, and a second refrigerant flow path of a fourth heat exchanger, and a second refrigerant circuit including a second compressor, a fifth heat exchanger, a second expansion device, a third refrigerant flow path of the second heat exchanger, and a fourth refrigerant flow path of the fourth heat exchanger. A first refrigerant flows through, in order, the first compressor, the first heat exchanger, the first refrigerant flow path, the first expansion device, the third heat exchanger, and the second refrigerant flow path. The second refrigerant flows through, in order, of the second compressor, the fifth heat exchanger, the second expansion device, the third refrigerant flow path, and the fourth refrigerant flow path.

Abstract: A process for the (co)polymerization of a monomer material, which includes at least an acrylonitrile monomer as an essential component, at a temperature of 80.degree. C. or higher by bulk or solution polymerization while allowing said monomer material to evaporate. The (co)polymerization is conducted while providing a vapor phase over a polymerization mixture in a reaction tank. During the (co)polymerization, the temperature of the vapor phase is maintained in a range of from 30.degree. C. to 65.degree. C. so that the polymerization is conducted without substantially releasing vapor, which is evaporated from the polymerization mixture, to outside of the reaction tank. By cooling the vapor phase of the reaction tank and maintaining its temperature in the above specific range in accordance with the present invention, it is possible to avoid mixing of a gelled polymer in a product and also to effectively remove reaction heat at the time of the (co)polymerization.

Abstract: After outer panels have been assembled on a vehicle frame, they are coated with an aqueous lustering agent P, and then irradiated with a light beam L. Light reflected by the outer panels is processed to produce a degree and range of distortion thereof. Based on the produced degree and range of distortion, it is determined whether the outer panels suffer a surface distortion or not. The determined result is displayed on a display monitor. According to the displayed image, the outer panels are repaired and thereafter coated with a paint.