A housing for an electric apparatus includes a housing body and a silencer. The housing body has a space provided to house a device that is a noise source and at least one opening communicating the space. The silencer is attached to an outer periphery of the housing body in such a manner as to surround the opening.

A heat source unit for a refrigeration apparatus includes: a refrigerant circuit including a shut-off valve, a compressor, a heat exchanger, and a first refrigerant pipe positioned between the shut-off valve and the compressor; a fan that sends air to the heat exchanger; a casing that includes a side panel and that accommodates the refrigerant circuit and the fan; and a partitioning panel that partitions an internal space of the casing into a first space on the side panel side where the compressor is disposed, and a second space where the fan is disposed. The fan blows the air that has passed through the heat exchanger out to a front-surface side of the casing. The compressor, the shut-off valve, and the side panel are disposed in the stated order as the compressor, the shut-off valve, and the side panel as seen in a front view.

A refrigerator appliance may be provided that includes a housing, a first fluid-motivating unit (FMU), a second FMU, and a controller. The housing may define a chilled chamber. The first FMU may be mounted to the housing. The second FMU may be mounted to the housing apart from the first FMU. The controller may be in operable communication with the first FMU and the second FMU. The controller may be configured to initiate a cooling operation. The cooling operation may include activating the first FMU to generate a first fluid flow, increasing a speed setting of the first FMU gradually at a first predetermined ramp rate, activating the second FMU subsequent to activating the first FMU to generate a second fluid flow, and increasing a speed setting of the second FMU gradually.

The present application discloses a vacuum assembly for a refrigerator, comprising: upper and lower sealing bodies, which are buckled to define a sealed cavity; a vacuum pump, provided in the cavity; a plurality of plate-like members, arranged between the vacuum pump and a sealing box; a plurality of abutting parts, provided on the upper sealing body and abutting against tops of the plate-like members, a step being provided at an end of the abutting part coming into contact with the plate-like member, a top surface of the step abutting against the plate-like member, and a side surface of the step abutting against the plate-like member; a plurality of ribs, provided on the lower sealing body and spaced apart from the side walls to define limiting grooves; and a plurality of guide grooves, provided on the lower sealing body and extending in a vertical direction to guide the plate-like members.

A refrigerator has a cabinet, at least one door and a plurality of refrigeration components. The cabinet defines an interior volume including at least one cooling compartment. The at least one door is carried by the cabinet and provides access to the interior volume. The plurality of refrigeration components includes a compressor, a condenser and a fan. The refrigerator additionally includes a component subassembly incorporating the plurality of refrigeration components and an airflow path extending between an inlet for colder air and an outlet for warmer air. The refrigeration components are located along the airflow path. The refrigerator further includes a noise reduction arrangement for reducing an operating noise of the refrigerator. The noise reduction arrangement including a plurality of walls defining the airflow path. The walls include a noise absorbing material. The plurality of walls includes a plurality of external walls and a plurality of internal walls. The plurality of external walls defines an outer perimeter of the component subassembly and are oriented generally orthogonal to one another. The internal walls of the plurality of internal walls may be skewed relative to the external walls of the plurality of external walls. At least some of the walls of the plurality walls may be load-bearing walls.

A sound-insulating refrigerator vacuum assembly, comprising a sealed box receiving a vacuum pump, the sealed box body comprises an upper sealing body and a lower sealing body, the upper sealing body and the lower sealing body can be snap-fitted to define a receiving cavity, and the vacuum pump is placed in the receiving cavity; the vacuum assembly further comprises an air pipe member, the air pipe member comprises an air inlet pipe, an air outlet pipe and a base plate that are integrally formed, and the air inlet pipe and the air outlet pipe are disposed through the base plate; a notch portion is provided in the sealed box, and an outer edge of the base plate matches the notch portion in shape; the vacuum pump is connected with a muffler.

A refrigerator appliance may be provided that includes a housing, a first fluid-motivating unit (FMU), a second FMU, and a controller. The housing may define a chilled chamber. The first FMU may be mounted to the housing. The second FMU may be mounted to the housing apart from the first FMU. The controller may be in operable communication with the first FMU and the second FMU. The controller may be configured to initiate a cooling operation. The cooling operation may include activating the first FMU to generate a first fluid flow, increasing a speed setting of the first FMU gradually at a first predetermined ramp rate, activating the second FMU subsequent to activating the first FMU to generate a second fluid flow, and increasing a speed setting of the second FMU gradually.

Disclosed is an oxygen-control freshness preservation refrigerator, comprising a cabinet with a refrigerating compartment and a freezing compartment. A partition plate for separating the refrigerating compartment from the freezing compartment is arranged in the cabinet. The refrigerator further has a freshness preservation compartment arranged inside the refrigerating compartment and an oxygen control device for reducing the oxygen content inside the freshness preservation compartment, the oxygen control device comprises a gas-regulating membrane assembly and a gas extraction assembly. The gas-regulating membrane assembly has at least one gas-regulating membrane for selective gas permeation. The gas extraction assembly has a gas extraction pump arranged in the partition plate; and the gas extraction pump is provided with a gas intake pipe in communication with a gas discharge side of the gas-regulating membrane, and a gas discharge pipe for discharging gas from the gas discharge side of the gas-regulating membrane.

Disclosed are a silencing device and a refrigerator; the silencing device includes a silencing body, the silencing body includes a hole wall enclosing a through hole and a silencing cavity formed inside the silencing body, and an opening communicated with the silencing cavity is provided on a surface of the hole wall. When the noise in the compressor compartment of the refrigerator passes through the through hole of the silencing device, the sound is transmitted into the silencing cavity through the opening. This achieves a good noise reduction effect while guaranteeing the normal operation of the refrigerator.

The present disclosure relates to a structure and method of reducing refrigerator noise incident to a compressor failure. More particularly, the present disclosure relates to a structure and method of reducing refrigerator noise which is likely to occur due to collision of pipes or the like with surrounding structures when a compressor installed inside a refrigerator machine room stops operating. The noise preventing/reducing structure includes a support member protruding from a wall surface or a bottom surface of the refrigerator machine room and a protective member configured to surround at least a part of a pipe installed in the refrigerator machine room. The support member comprises: a cavity having one side open; a seating surface disposed in the cavity and configured to support the protective member seated thereon; and a raised portion protruding from the seating surface.