Abstract:
A refrigerator includes an ice maker positioned in the refrigerator and configured to make ice. The refrigerator also includes a plate positioned at an open side of the ice making tray and configured to reduce water overflow. The refrigerator further includes a cool air inlet passage configured to allow cool air to be introduced to an area inside of the plate. In addition, the refrigerator includes a cool air outlet passage that is separate from the cool air inlet passage, and configured to allow release of cool air from the area inside of the plate to an exterior of the plate.
Abstract:
A refrigerator, which includes an ice making compartment, an ice making device arranged in the ice making compartment, and an ice making tray provided at the ice making device and configured to receive and retain water to be frozen to make ice. The refrigerator also includes a cold air inlet provided at the ice making compartment and configured to allow cold air to be introduced into the cold air compartment, and a cold air guide configured to guide cold air from the cold air inlet toward the ice making tray.
Abstract:
A refrigerator includes an ice maker positioned in the refrigerator and configured to make ice. The refrigerator also includes a plate positioned at an open side of the ice making tray and configured to reduce water overflow. The refrigerator further includes a cool air inlet passage configured to allow cool air to be introduced to an area inside of the plate. In addition, the refrigerator includes a cool air outlet passage that is separate from the cool air inlet passage, and configured to allow release of cool air from the area inside of the plate to an exterior of the plate.
Abstract:
A refrigerator and a control method thereof, in which an ice making speed is controlled. A selected ice-making operation mode may be determined, and, based on the determination of the selected ice-making operation mode, an internal temperature of the ice making compartment may be controlled to an appropriate temperature. For instance, an operation rate of a cold air fan and/or a rotating speed of the cold air fan may be controlled.
Abstract:
A refrigerator and a control method thereof are disclosed. A refrigerator is able to supply water preserved in a cool state to an ice maker. The refrigerator includes an ice-making chamber, an icemaker provided in the ice-making chamber, a dispenser for dispensing water, and a water tank connected to the dispenser and the icemaker. The water tank stores water in a cool state.
Abstract:
A refrigerator, which includes an ice making compartment, an ice making device arranged in the ice making compartment, and an ice making tray provided at the ice making device and configured to receive and retain water to be frozen to make ice. The refrigerator also includes a cold air inlet provided at the ice making compartment and configured to allow cold air to be introduced into the cold air compartment, and a cold air guide configured to guide cold air from the cold air inlet toward the ice making tray.
Abstract:
An intramedullary nail having an anti-tilt function and an overall length of L comprises one or more bores formed in each of a proximal region located at an upper part of the intramedullary nail and a distal region located at a lower part thereof, wherein: one or more first bores are formed in a first region located at a lower side of the proximal region, and the range of the first region is 0.12 L to 0.45 L from a proximal end portion; and one or more second bores are formed in a second region located at an upper side of the distal region, and the range of the second region is 0.46 L to 0.85 L from the proximal end portion.
Abstract:
The present invention provides a new compound and an organic electronic diode using the same. The compound according to the present invention may be used as hole injection, hole transport, electron injection and transport, and light emitting materials in an organic light emitting diode and an organic electronic diode, and the organic electronic diode according to the present invention exhibits excellent efficiency, driving voltage, and life-span properties.
Abstract:
There is provided a method of manufacturing a light emitting device which includes preparing a light emitting element emitting excitation light and a substrate on which the light emitting element is disposed. A fluoride phosphor is provided to absorb excitation light emitted from the light emitting element to emit visible light, and is represented by Chemical Formula (1). The fluoride phosphor is disposed on at least one of the light emitting element and the substrate, wherein Chemical Formula (1): AxMFy:Mn4+ (wherein 2≦x≦3 and 4≦y≦7, A is at least one element selected from the group consisting of Li, Na, K, Rb, and Cs, and M is at least one element selected from the group consisting Si, Ti, Zr, Hf, Ge, and Sn).
Abstract:
There is provided a method of manufacturing a light emitting device which includes preparing a light emitting element emitting excitation light and a substrate on which the light emitting element is disposed. A fluoride phosphor is provided to absorb excitation light emitted from the light emitting element to emit visible light, and is represented by Chemical Formula (1). The fluoride phosphor is disposed on at least one of the light emitting element and the substrate, wherein Chemical Formula (1): AxMFy:Mn4+ (wherein 2≦x≦3 and 4≦y≦7, A is at least one element selected from the group consisting of Li, Na, K, Rb, and Cs, and M is at least one element selected from the group consisting Si, Ti, Zr, Hf, Ge, and Sn).