A breast pump device (100) is provided with a breast receiving portion (130), a pressure source (120) for generating an over- or under pressure, a controller (110) and a breast detector (140) for detecting a first state when no breast is in the breast receiving portion and a second state when a breast is in the breast receiving portion (130). The controller (110) changes a parameter of the breast pump device and/or outputs a notification if the breast detector (140) has detected the second state. The breast detector (140) detects the first or second state based on operating parameters of the pressure source (120). The controller (110) operates the pressure source (120) in a first operating mode if the breast detector (140) has detected the first state or in a second operating mode if the breast detector (140) has detected the second state.

A method of monitoring an operation of an electric breast pump (100) using an external smart device (200) is provided. The external smart device (200) comprises a vibration detection unit (210) for detecting vibrations emitted from the breast pump (100). The detected vibrations are analyzed to extract information regarding the operation of the electric breast pump (100). The information comprises at least one of mode of operation and settings of the modes of operation of the breast pump (100). The extracted information can be outputted.

A method for facilitating milk extraction from a female breast may involve applying a breast contacting portion of a breast pump system to a breast, activating the breast pump system to administer multiple breast pumping cycles, and applying vibrations to the breast during at least a portion of each of the breast pumping cycles, using a vibration device. A vibration generating device may be a component of a breast pump system, an added attachment on a breast pump system or a separate component that works in conjunction with a breast pump system.

An electric breast pump 1 includes a breast placement part 12 at which a breast part including a breast and a nipple of a subject is placed and suction-pressure generating units 10 and 50 that generate a suction pressure in the breast placement part. The suction-pressure generating unit generates a suction cycle including a plurality of different suction pressures. The suction cycle includes basic suction, increased suction with an increased suction pressure, and reduced suction with a reduced suction pressure. A suction pressure difference between a suction pressure increasing in the increased suction and a suction pressure reducing in the reduced suction is an equal pressure and is a pressure difference at a borderline at which a user perceives a change of a suction pressure. In the suction cycle, the basic suction, the increased suction, and the reduced suction are each repeated multiple times consecutively at an equal suction pressure.

A method for facilitating milk extraction from a female breast may involve applying a breast contacting portion of a breast pump system to a breast, activating the breast pump system to administer multiple breast pumping cycles, and applying vibrations to the breast during at least a portion of each of the breast pumping cycles, using a vibration device. A vibration generating device may be a component of a breast pump system, an added attachment on a breast pump system or a separate component that works in conjunction with a breast pump system.

The present invention relates to a smart breast pump with a massage course generating function including: a close contact unit attached to the user's breast; an expression unit for repeatedly producing expression pressures patterned by the user's input to control an internal pressure of the close contact unit; and a connection unit for connecting the close contact unit to the expression unit to have a relation with the production of the expression pressures in the close contact unit and the discharge of breast milk expressed, wherein through an input part mounted on the expression unit, any one of an expression mode for expressing the breast milk and a massage mode for massaging the breast is selected.

Examples disclosed herein are relevant to breast pumps. Disclosed examples include breast pumps that automatically adjust various pumping parameters based on data obtained from one or more sensors. The one or more sensors can produce data regarding an amount of milk expressed by a user. The adjusting of the pumping parameters can be configured to, for example, help the user efficiently express milk by utilizing a closed-feedback system that monitors the flow rate of the expressed milk.

A method for facilitating milk extraction from a female breast may involve applying a breast contacting portion of a breast pump system to a breast, activating the breast pump system to administer multiple breast pumping cycles, and applying vibrations to the breast during at least a portion of each of the breast pumping cycles, using a vibration device. A vibration generating device may be a component of a breast pump system, an added attachment on a breast pump system or a separate component that works in conjunction with a breast pump system.

Systems and methods for pumping milk from a breast, wherein the milk is expressed from the breast under suction and milk is expulsed from the pumping mechanism to a collection container assembly.

The present invention relates to a smart wearable breast pumping machine including: a suction part attached to a user's breast; a connector connected to the suction part to introduce breast milk pumped by means of a breast pumping pressure and coupled to a breast milk container; and a breast pumping part coupled to the suction part to accommodate the connector and having a breast pump adapted to apply the breast pumping pressure to the suction part and a controller adapted to control operations of the breast pump by means of control commands.