Abstract: A compression pipe is configured with a wave drawing section and an air compressing section, a gas-liquid introduction on-off valve is disposed in wave drawing section, a gas-liquid introduction on-off valve is opened at an initial stage of a pushing wave, the gas-liquid introduction on-off valve is closed at the same time when a wave that maintains a speed flows into a wave receiving box. Accordingly, the wave is drawn into the air compressing section, is stored in a compressed air storage tank by converting kinetic energy of the wave into compressed air, and can be utilized for power generation and the like.

Abstract: By receiving a leading wave in a state where a wave receiving box is sunk on the coast, a pressure return pipe and a pressure return on-off valve are controlled, and a water surface in an air compression pipe is set to a reference water surface lower than an air throttle, even when there are tide level fluctuations and wave size variations in one wave receiving box, energy of the wave is converted into compressed air without loss, is stored in a compressed air storage tank, and can be used for power generation or the like.

Abstract: A compression pipe is configured with a wave drawing section and an air compressing section, a gas-liquid introduction on-off valve is disposed in wave drawing section, a gas-liquid introduction on-off valve is opened at an initial stage of a pushing wave, the gas-liquid introduction on-off valve is closed at the same time when a wave that maintains a speed flows into a wave receiving box. Accordingly, the wave is drawn into the air compressing section, is stored in a compressed air storage tank by converting kinetic energy of the wave into compressed air, and can be utilized for power generation and the like.

Abstract: A method for producing a magnetic core includes a processing step of giving a desired shape to a strip made of an alloy composition, a heat-treating step of forming bcc-Fe crystals, and then a stacking step of obtaining a magnetic core having a shape. Here, the alloy composition is Fe—B—Si—P—Cu—C and has an amorphous phase as a primary phase. In the heat-treating step, the strip is heated up to a temperature higher than a crystallization temperature of the alloy composition at a high heating rate.

Abstract: By receiving a leading wave in a state where a wave receiving box is sunk on the coast, a pressure return pipe and a pressure return on-off valve are controlled, and a water surface in an air compression pipe is set to a reference water surface lower than an air throttle, even when there are tide level fluctuations and wave size variations in one wave receiving box, energy of the wave is converted into compressed air without loss, is stored in a compressed air storage tank, and can be used for power generation or the like.

Abstract: The cooling apparatus includes: a thermal insulation box; a door; and a magnetic gasket, the magnetic gasket having: a magnet; a magnet retaining part; and a heat insulation sheet being provided between the magnet and the magnet retaining part and being provided, in a closed state in which the opening is closed by the door, on a side portion on a side of the door on a peripheral surface of the magnet and on a side portion facing an inner side in a width direction in the closed state on the peripheral surface of the magnet.

Abstract: A freezing refrigerator heats an entrance side pipe of evaporator, which is difficult to heat in the related art, with the condensation latent heat of refrigerant that builds up in a lower portion of evaporator in a liquid state while being vaporized with the heat of defrosting heater so as to warm the outlet pipe by a second thermal coupling part thermally coupling an inlet pipe and an outlet pipe of evaporator, whereby temperature variation of the entire evaporator in a defrosting operation can be suppressed, and the power consumption of defrosting heater can be reduced.

Abstract: A heat-insulation box, includes: a heat-insulation-box main body that has a space; a door that seals the space; and a partition plate that partitions the space, wherein the partition plate includes (i) a design plate that is placed at a side of the door, (ii) a first plate part and a second plate part that are each provided at both edges of the design plate, (iii) a heat-insulation material that is located in a region surrounded by the design plate, the first plate part, and the second plate part, and (iv) a heat-insulation member that is placed in at least one of a gap between the design plate and the first plate part, and a gap between the design plate and the second plate part.

Abstract: A refrigerator configured to have enhanced energy efficiencies during the defrosting process, thus delivering excellent energy-saving performance. The refrigerator, includes: a cooler that produce a cold air; a defrosting heater that is placed under the cooler; a cooler cover that covers the cooler, an inlet-side space leading to the cooler, an outlet-side space extending from the cooler, and a connection space connecting the inlet-side space and the outlet-side space to one another; an inlet damper that opens and closes the inlet-side space; and a connection damper that opens and closes the connection space.

Abstract: An offset fin for use in a heat exchanger includes a first corrugation structure and a second corrugation structure. The first corrugation structure includes a plurality of first fins aligned in a first direction. The second corrugation structure includes a plurality of second fins aligned in the first direction. The second corrugation structure is disposed in a second direction orthogonal to the first direction, with respect to the first corrugation structure. The first fins and the second fins protrude alternately in a third direction orthogonal to both the first direction and the second direction, and each have a protruding shape cross-section. In the first direction, the second fins are disposed offset from the first fins. Each of the first fins includes a first side wall inclined with respect to the second direction, and each of the second fins includes a second side wall inclined with respect to the second direction, at a side opposite to a side at which the first side wall is inclined.

Abstract: A refrigerator is provided with first gasket and second gasket. First gasket is provided on door, and when door is closed, first gasket makes contact with refrigerator main body and closes the storage compartment. Second gasket is provided with heat insulator, and is provided on refrigerator main body on the storage compartment side relative to the location where first gasket adheres. Accordingly, it is possible to achieve refrigerator that can suppress reduction in cooling efficiency due to second gasket heated by heat dissipation pipe.

Abstract: A heat treatment apparatus for a laminated body of amorphous alloy ribbon includes: a lamination jig that holds the laminated body of amorphous alloy ribbon; two heating plates that sandwich the laminated body from upper and lower surfaces in a lamination direction without coming into contact with the lamination jig; and a heating control apparatus that controls a heating temperature of the two heating plates.

Abstract: Provided are a magnet gasket and a cooling apparatus which enhance thermal insulation performance. The cooling apparatus includes: a thermal insulation box that has an opening end surface enclosing the opening and facing frontward; a door capable of opening and closing the opening; and a magnetic gasket attached to an inside peripheral portion of the door facing the opening end surface while the opening is closed, the magnetic gasket having: a magnet; a magnet retaining part; and a heat insulation sheet being provided between the magnet and the magnet retaining part and being provided, in a closed state in which the opening is closed by the door, on a side portion on a side of the door on a peripheral surface of the magnet and on a side portion facing an inner side in a width direction in the closed state on the peripheral surface of the magnet.

Abstract: A refrigerator includes: (i) a compressor; (ii) a condenser; (iii) a decompressor; (iv) an evaporator; (v) a first pipe that connects the compressor, the condenser, the decompressor, and the evaporator, and that circulates a refrigerant therein; (vi) a second pipe that causes the refrigerant to circulate from the condenser to the evaporator; and (vii) a switching valve that switches flow of the refrigerant in the first pipe to the second pipe. A method for controlling the refrigerator includes: conducting a normal cooling operation in which a refrigerant is caused to circulate through a compressor, a condenser, decompressor, and an evaporator; and conducting a defrosting operation in which the refrigerant is caused to circulate through the compressor, the condenser, and the evaporator, excluding the decompressor.

Abstract: It is an object to provide a refrigerator that suppresses heat intrusion from a heat radiation pipe for suppressing dew condensation with respect to a partition plate of a refrigerator. The refrigerator includes a partition plate that partitions a room into a plurality of rooms and a door that seals the plurality of rooms. The partition plate includes an upper plate that positions on upper side, a lower plate that positions on lower side, a design plate that positions between the upper plate and the lower plate, and a heat insulating material fixed between the design plate and the upper plate or the lower plate in a compressed state in which a compressed portion has a thickness smaller than a thickness of other portions.

Abstract: A vacuum heat-insulation material includes: at least one first fiber member; at least one second member that is placed around an outer peripheral part of the at least one first fiber member and that is thinner than an inner part; and at least one shell material that surrounds the at least one first fiber member and the at least one second fiber member.

Abstract: In a refrigerator capable of suppressing dew condensation in hinged double doors without increasing a caloric value of a heater, a clearance between rotary partition body 109 and a front opening of a refrigerating compartment is thermally insulated by first fin members 206 that are disposed in door gaskets 110, that come into contact with a front surface part of a thermal-insulated box body, or a front surface of division board 303, and rotary partition body, and that includes heat insulating sheets 601 disposed in an inner part for closing a clearance, second fin members 207 that do not come into contact with rotary partition body on a front surface separated from rotary partition body between right and left hinged double doors 102, 103, and heat insulating sheets 601 disposed in first fin members 206, and a high temperature atmosphere is surrounded by second fin members 207.

Abstract: A method for defrosting an evaporator, includes: (i) closing an outlet part that serves as a refrigerant outlet of the evaporator; (ii) closing an inlet part that serves as a refrigerant inlet of the evaporator; (iii) connecting the outlet part and the inlet part to one another; (iv) heating the evaporator. An evaporator, includes: an inlet part that serves as a refrigerant inlet; a first switching valve that is placed in the inlet part; an outlet part that serves as a refrigerant outlet; a second switching valve that is placed in the outlet part; a bypass pathway that connected the inlet part and the outlet part to one another; a horizontal pipe that is communicated with the inlet part; and a vertical pipe that connects the horizontal pipe and the outlet part to one another. A cooling apparatus can include the evaporator.

Abstract: A freezing refrigerator heats an entrance side pipe of evaporator, which is difficult to heat in the related art, with the condensation latent heat of refrigerant that builds up in a lower portion of evaporator in a liquid state while being vaporized with the heat of defrosting heater so as to warm the outlet pipe by a second thermal coupling part thermally coupling an inlet pipe and an outlet pipe of evaporator, whereby temperature variation of the entire evaporator in a defrosting operation can be suppressed, and the power consumption of defrosting heater can be reduced.

Abstract: It is an object to provide a refrigerator that suppresses heat intrusion from a heat radiation pipe for suppressing dew condensation with respect to a partition plate of a refrigerator. The refrigerator includes a partition plate that partitions a room into a plurality of rooms and a door that seals the plurality of rooms. The partition plate includes an upper plate that positions on upper side, a lower plate that positions on lower side, a design plate that positions between the upper plate and the lower plate, and a heat insulating material fixed between the design plate and the upper plate or the lower plate in a compressed state in which a compressed portion has a thickness smaller than a thickness of other portions.