Abstract: According to an aspect of the present technology, an electronic apparatus includes: an apparatus main body; a cover main body; and a terminal cover. The apparatus main body includes a connection cable that includes a terminal part on its tip. The cover main body includes an opening part that is capable of storing the terminal part, and the cover main body is affixed to the apparatus main body. The terminal cover includes a fixing part that is fixed to the apparatus main body, and the terminal cover is mounted on the cover main body in a manner that the opening part is openable and closable. When using the electronic apparatus, it is possible to enhance not only impact resistance but also storage property and waterproof property of the connection cable.

Abstract: According to an aspect of the present technology, an electronic apparatus includes: an apparatus main body; a cover main body; and a terminal cover. The apparatus main body includes a connection cable that includes a terminal part on its tip. The cover main body includes an opening part that is capable of storing the terminal part, and the cover main body is affixed to the apparatus main body. The terminal cover includes a fixing part that is fixed to the apparatus main body, and the terminal cover is mounted on the cover main body in a manner that the opening part is openable and closable. When using the electronic apparatus, it is possible to enhance not only impact resistance but also storage property and waterproof property of the connection cable.

Abstract: There is provided an electronic device that includes a plurality of disk drive units, a housing, a connection member, and a damping member. The housing houses the plurality of disk drive units. The connection member keeps a non-contact state between the plurality of disk drive units and connects the plurality of disk drive units. The damping member is arranged between the housing and the connection member and elastically supports the connection member to the housing in three-axis directions orthogonal to each other.

Abstract: To provide an electronic device capable of protecting a plurality of HDD units from a shock without increasing a size of the device. An electronic device according to an embodiment of the present technology includes a plurality of disk drive units, a housing, a connection member, and a damping member. The housing houses the plurality of disk drive units. The connection member keeps a non-contact state between the plurality of disk drive units and connects the plurality of disk drive units. The damping member is arranged between the housing and the connection member and elastically supports the connection member to the housing in three-axis directions orthogonal to each other.

Abstract: A refrigeration device executes a chilling operation for cooling an interior so that the temperature of the interior reaches a set temperature that is set within a predetermined temperature range. The refrigeration device has an operation control unit that, in the chilling operation, switches between pull-down control and capacity control for cooling the interior with a cooling capacity lower than that of the pull-down control. The operation control unit performs the pull-down control until the temperature of air blown toward the interior reaches at least the set temperature.

Abstract: A container refrigeration device aims to prevent low temperature damage to freight in a container. The container refrigeration device includes: a temperature controlling section (101) configured to perform, in a switchable manner, first temperature control under which a temperature inside the container (C) is controlled based on a blown air temperature (Tss) and second temperature control under which the temperature inside the container (C) is controlled based on a suction air temperature (Trs) during dehumidification operation; and a control switching section (103) configured to switch the first temperature control to the second temperature control when the blown air temperature (Tss) is higher than the suction air temperature (Trs) during the dehumidification operation in which part of a refrigerant discharged from a compressor (30) is allowed to flow into a reheat heat exchanger (83).

Abstract: A container refrigeration device aims to improve dehumidification performance of the container refrigeration device. The container refrigeration device is configured to perform, in accordance with a dehumidification load, first dehumidification control under which air having passed through an evaporator is heated by exchanging heat with a refrigerant in a reheat heat exchanger, and blown into an inside of a container, and second dehumidification control under which a pressure of the refrigerant discharged from a compressor and flowing into the reheat heat exchanger is caused to be higher than a pressure of the refrigerant discharged from the compressor under the first dehumidification control, and a flow rate of the refrigerant discharged from the compressor is regulated such that a temperature inside the container is within a predetermined temperature range.

Abstract: A refrigeration device executes a chilling operation for cooling an interior so that the temperature of the interior reaches a set temperature that is set within a predetermined temperature range. The refrigeration device has an operation control unit that, in the chilling operation, switches between pull-down control and capacity control for cooling the interior with a cooling capacity lower than that of the pull-down control. The operation control unit performs the pull-down control until the temperature of air blown toward the interior reaches at least the set temperature.

Abstract: A container refrigeration device aims to improve dehumidification performance of the container refrigeration device. The container refrigeration device is configured to perform, in accordance with a dehumidification load, first dehumidification control under which air having passed through an evaporator is heated by exchanging heat with a refrigerant in a reheat heat exchanger, and blown into an inside of a container, and second dehumidification control under which a pressure of the refrigerant discharged from a compressor and flowing into the reheat heat exchanger is caused to be higher than a pressure of the refrigerant discharged from the compressor under the first dehumidification control, and a flow rate of the refrigerant discharged from the compressor is regulated such that a temperature inside the container is within a predetermined temperature range.

Abstract: A container refrigeration device aims to prevent low temperature damage to freight in a container. The container refrigeration device includes: a temperature controlling section (101) configured to perform, in a switchable manner, first temperature control under which a temperature inside the container (C) is controlled based on a blown air temperature (Tss) and second temperature control under which the temperature inside the container (C) is controlled based on a suction air temperature (Trs) during dehumidification operation; and a control switching section (103) configured to switch the first temperature control to the second temperature control when the blown air temperature (Tss) is higher than the suction air temperature (Trs) during the dehumidification operation in which part of a refrigerant discharged from a compressor (30) is allowed to flow into a reheat heat exchanger (83).

Abstract: Disclosed is a structure in which part of an internal casing of a container refrigeration unit for cooling the container interior is reinforced, and which enables the internal casings to be produced more efficiently. A casing includes an external casing whose periphery is fixed to a container body to close an open end of the container body, and an internal casing which covers a container interior side of the external casing. The internal casing is formed by hot-pressing a material sheet as a resin material by a pair of mold halves, with the material sheet covering an entire press surface of one of the pair of mold halves and with a reinforcement sheet which is made of a glass fiber being layered at part of the material sheet.

Abstract: A refrigeration apparatus (10) includes: a refrigerant circuit (20) provided with a variable-opening expansion valve (13); and a valve control means (33) for controlling the opening of the expansion valve (13) by outputting to the expansion valve (13) an opening command value equal to or larger than a lower limit command value. During operation of a refrigeration cycle and in a lower-limit-controlled state in which the opening command value is equal to the lower limit command value, the valve control means (33) performs a first determination operation of determining whether the refrigerant flow through the expansion valve (13) is in an excessively large amount state or not based on a condition of refrigerant between the expansion valve (13) and the suction side of a compressor (11), and corrects the lower limit command value to a smaller value if the determination result in the first determination operation is that the refrigerant flow through the expansion valve (13) is in an excessively large amount state.

Abstract: A refrigeration apparatus (10) includes: a valve control means (33) configured to control the opening of an expansion valve (13); and opening degree detection means (32, 34) configured to perform, after a pump-down operation in which a compressor (11) is driven with the expansion valve (13) closed, an opening degree detection operation of detecting an opening degree that is an opening command value for use in changing the expansion valve (13) from a closed state to an open state, by determining whether the expansion valve (13) is open based on a change in state of low-pressure refrigerant between the expansion valve (13) and the suction side of the compressor (11), while gradually increasing the opening command value output to the expansion valve (13) with the compressor (11) deactivated. The valve control means (33) controls the expansion valve (13) using the opening degree detected in the opening degree detection operation.