CN117731871A - Breast pump, terminal, work control method, device and storage medium - Google Patents

Abstract

The invention relates to the field of mother and infant products, and provides a breast pump, a terminal, a work control method, a device and a storage medium, wherein the breast pump comprises: a housing; a breast shield; a storage unit for storing milk expressed by the breast pump; a pump unit for applying negative pressure to the breastshield to express milk and discharging the milk to the storage unit; the control unit is electrically connected with the pump unit and is used for acquiring user parameters, determining working parameters of the pump unit when working according to the user parameters and controlling the pump unit to work according to the working parameters; wherein, the user parameter includes pressure bearing capacity, the working parameter includes milk sucking intensity and milk sucking time, the milk sucking intensity and the pressure bearing capacity are positively correlated, and the milk sucking time and the pressure bearing capacity are negatively correlated. According to the intelligent breast pump, the working parameters of the pump unit during working are determined through the user parameters, so that the breast pump works according to different working parameters for different users, the intelligent degree of the breast pump can be improved, and the times of adjusting the working parameters by the users are reduced.

Description

Breast pump, terminal, work control method, device and storage medium

Technical Field

The invention relates to the field of mother and infant products, in particular to a breast pump, a terminal, a work control method, a work control device and a storage medium.

Background

It is well known that the best nutrition for infants is breast milk. World health organization recommends breast feeding infants for at least more than one year. However, after delivery, the mother usually returns to the working position after several weeks of production, in order to provide breast milk for the infant in time and to alleviate discomfort such as swelling and pain caused by the inability to empty the breast in time under the condition of more secretion of breast milk, the mother can use the breast pump to pump the breast milk and store the pumped breast milk properly, and can provide continuous breast milk when the infant needs.

In order to achieve the above purpose, the breast pump is usually used for sucking breast milk, and a mother clings the breast to a funnel-shaped breast shield and applies negative pressure to the breast shield.

However, in the related art, the working parameters of the breast pump are fixed, but the conditions of each user are different, for example, the secretion of human breast milk is high, and the secretion of human breast milk is low, so that the user needs to frequently adjust the working parameters to be suitable for the user, the operation is tedious and time-consuming, and the user cannot be intelligent enough.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the breast pump capable of intelligently adjusting working parameters according to user parameters of users.

In order to solve the problems, the invention provides the following technical scheme:

in a first aspect, embodiments of the present application provide a breast pump comprising:

a housing;

a breast shield;

a storage unit for storing milk expressed by the breast pump;

a pump unit for applying negative pressure to the breastshield to express milk and discharging the expressed milk to the storage unit;

the control unit is electrically connected with the pump unit and is used for acquiring user parameters, determining working parameters of the pump unit when working according to the user parameters and controlling the pump unit to work according to the working parameters; wherein the user parameters comprise pressure bearing capacity, the working parameters comprise milk sucking strength and milk sucking time, the milk sucking strength and the pressure bearing capacity are positively correlated, and the milk sucking time and the pressure bearing capacity are negatively correlated.

In some embodiments, the breast pump further comprises an input unit electrically connected to the control unit, the input unit being configured to generate the user parameter in response to an input instruction by a user.

In some embodiments, the breast pump further comprises a communication unit electrically connected to the control unit, the communication unit being configured for receiving the user parameter from an external terminal.

In some embodiments, the breast pump further comprises a display unit electrically connected to the control unit, the display unit comprising at least one of a first display area for displaying the user parameter and a second display area for displaying the operating parameter.

In some embodiments, the control unit is further configured to obtain a reference operating parameter, determine a deviation operating parameter according to the user parameter, and determine an operating parameter of the breast pump when in operation according to the reference operating parameter and the deviation operating parameter.

In a second aspect, embodiments of the present application provide a method for controlling operation of a breast pump, the method including:

acquiring user parameters; wherein the user parameters include pressure capability;

determining working parameters of the breast pump when in work according to the user parameters; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated;

and controlling the breast pump to work according to the working parameters.

In some embodiments, the milk sucking parameters further include a milk sucking frequency, and the determining the working parameters of the breast pump when working according to the user parameters includes:

determining the sucking frequency of the breast pump when in operation according to the compression capacity; wherein the compression capacity is positively correlated with the milk sucking frequency.

In some embodiments, the operating parameters further include a lactation promoting parameter, and the determining the operating parameters of the breast pump when in operation according to the user parameters includes:

and determining working parameters of the breast pump during working according to the lactation promoting parameters.

In some embodiments, the lactation parameters include a lactation time and a lactation frequency, and the determining the operation parameters of the breast pump when in operation according to the lactation parameters includes:

determining the lactation time and frequency of the breast pump when in operation according to the compression capacity; wherein the lactation strength and the compression capacity are positively correlated, and the lactation time and the compression capacity are negatively correlated.

In some embodiments, the breast pump comprises a display unit comprising at least one of a first display area and a second display area, the method further comprising, after said determining an operating parameter of the breast pump when operating in accordance with said user parameter:

controlling the first display area to display the user parameters; and/or the number of the groups of groups,

and controlling the second display area to display the working parameters.

In some embodiments, determining an operational parameter of the breast pump when in operation based on the user parameter comprises:

obtaining a reference working parameter;

determining deviation working parameters according to the user parameters;

and determining the working parameters of the breast pump during working according to the reference working parameters and the deviation working parameters.

In a third aspect, embodiments of the present application provide an operation control device for a breast pump, the device comprising:

the acquisition unit is used for acquiring the user parameters; wherein the user parameters include pressure capability;

a determining unit, configured to determine an operating parameter of the breast pump when the breast pump is operating according to the user parameter; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated;

and the working unit is used for controlling the breast pump to work according to the working parameters.

In a fourth aspect, embodiments of the present application provide a breast pump comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of controlling operation of the breast pump of the second aspect.

In a fifth aspect, embodiments of the present application provide a computer readable storage medium storing an executable program that is executed by a processor to implement a method for controlling operation of a breast pump as in the second aspect.

The beneficial effects of the invention are as follows: by determining the working parameters of the pump unit during working according to the user parameters, the breast pump works according to different working parameters for different users, the intelligent degree of the breast pump can be improved, and the times of adjusting the working parameters by the users are reduced.

Drawings

Fig. 1 is a schematic view of a first embodiment of a breast pump according to an embodiment of the present application.

Fig. 2 is a schematic structural view of a second embodiment of a breast pump according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a third embodiment of a breast pump according to an embodiment of the present application.

Fig. 4 is a schematic structural view of a fourth embodiment of a breast pump according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Fig. 6 is a flow chart of a method for controlling operation of a breast pump according to an embodiment of the present application.

Fig. 7 is a schematic structural view of a working control device of a breast pump according to an embodiment of the present application.

Fig. 8 is a schematic view of a fifth embodiment of a breast pump according to an embodiment of the present application.

Fig. 9 is a block diagram of a computer-readable storage medium according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

For convenience in description of the first direction and the second direction in the embodiments of the present application, the first direction is an up-down direction in the drawing, the second direction is a front-back direction in the drawing, and the third direction is a left-right direction in the drawing. The x-axis arrow direction is taken as an "up" direction, the y-axis arrow direction is taken as a "back" direction, and the z-axis arrow direction is taken as a "right" direction, which is not limited in the practical application of the present application.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a first embodiment of a breast pump provided in the present application. As shown in fig. 1, the breast pump comprises a housing (1), a storage unit (2), a pump unit (3) and a breast shield (4).

The storage unit (2) is used for storing emulsion sucked by the breast pump, the pump unit (3) is used for forming negative pressure to suck the emulsion, and the breast pump (4) is used for covering the breast of a human body and is attached to the breast.

In some embodiments, the breastshield (4) is removably mounted to the housing (1), or the breastshield (4) is removably mounted to the storage unit (2) and then integrally mounted to the housing (1).

In some embodiments, the breast pump further comprises an energy supply module, such as a battery, for providing energy to the pump unit to support operation of the pump unit.

In some embodiments, the power structure in the pump unit for generating negative pressure includes, but is not limited to, a piezoelectric pump, a diaphragm pump, a hydraulic pump, a mechanical pump, etc., and may be directly communicated to cause negative pressure inside the bra, or may be indirectly transmitted to a liquid barrier such as a diaphragm or an air bag to cause negative pressure inside the bra; the breast milk is introduced into the storage unit to be stored by negative pressure.

In some embodiments, the pump unit is at least partially disposed in a housing, and the housing may further include a battery, a negative pressure gas circuit, a control circuit board, a solenoid valve, and the like.

Referring to fig. 2, fig. 2 is a schematic structural diagram of a second embodiment of a breast pump according to an embodiment of the present application. The breast pump in fig. 2 comprises, in addition to the housing (1), the storage unit (2), the pump unit (3), a breast shield (4) and a control unit (5).

The control unit (5) is electrically connected with the pump unit (3) and is used for acquiring user parameters, determining working parameters of the pump unit (3) when working according to the user parameters and controlling the pump unit (3) to work according to the working parameters; wherein the user parameters comprise pressure bearing capacity, the working parameters comprise milk sucking strength and milk sucking time, the milk sucking strength and the pressure bearing capacity are positively correlated, and the milk sucking time and the pressure bearing capacity are negatively correlated.

In some embodiments, the control unit is a central processing unit (Central Processing Unit, CPU) or a micro control unit (Microcontroller Unit, MCU).

Further, the control unit is provided in the attached pump unit in fig. 2, but the present application is not limited thereto, and the position of the control unit in fig. 2 is merely an example.

In some embodiments, the housing (1) and the pump unit (3) form a host to which the storage unit (2) is detachably mounted.

In some embodiments, the control unit is disposed within the host.

Referring to fig. 3, fig. 3 is a schematic structural view of a third embodiment of a breast pump according to the present application. The housing (1) of the breast pump in fig. 3 comprises an input unit (6), said input unit (6) being configured to input user parameters.

Further, the control unit (5) is electrically connected to the input unit (6), the input unit (6) being configured to generate the user parameter in response to an input instruction by a user.

Through the input unit, a user can directly input user parameters through the breast pump, and the working parameters of the breast pump are adjusted, so that the working parameters of the breast pump are more fit with the self requirements.

In some embodiments, the housing further comprises a display unit (7) electrically connected to the control unit (5), the display unit (7) comprising at least one of a first display area (71) and a second display area (72), the first display area (71) being for displaying the user parameter and the second display area (72) being for displaying the operating parameter.

In some embodiments, the display unit (7) exists independently of the input unit, and reference may be made to fig. 4, where fig. 4 is a schematic structural diagram of a fourth embodiment of a breast pump provided in the present application. As shown in fig. 4, the breast pump of fig. 4 is provided with both an input unit (6) and a display unit (7).

In some embodiments, the display unit (7) and the input unit (6) are the same panel, and the display unit (7) and the input unit (6) together form an operation panel, and at this time, a user can input user parameters through the operation panel, and can also view the first display area and/or the second display area through the operation panel.

In some embodiments, the breast pump further comprises a communication unit electrically connected to the control unit, the communication unit being configured to establish communication with an external terminal, the control unit being connected to the communication unit.

In some embodiments, the breast pump comprises both a communication unit and an input unit.

Through setting up communication unit and external terminal communication on the breast pump, can let the user set up user's parameter of self through cell-phone APP etc. improve the convenience that the breast pump used.

In some embodiments, the user parameters include at least one of age, breast size, and compression capacity.

In some embodiments, the operating parameter comprises at least one of a lactation parameter and a milk elicitation parameter.

In some embodiments, the lactation parameters include at least one of frequency of lactation, intensity of lactation, and time of lactation.

Wherein, any one of the frequency, intensity and time of lactation can be increased to help the mother to secrete more breast milk so as to increase the amount of breast milk sucked in the subsequent milk sucking work.

In some embodiments, the milk elicitation parameters include at least one of a frequency of milk elicitation, a strength of milk elicitation, and a time of milk elicitation.

Wherein, any one of increasing the frequency of sucking milk, the intensity of sucking milk and the time of sucking milk can make the breast pump suck more breast milk when finishing working.

In some embodiments, the breast pump is provided with reference operating parameters, and if the breast pump does not acquire the user parameters, i.e. the user does not input the user parameters, the breast pump is operated according to the reference operating parameters.

Further, the baseline operating parameters include at least one of default lactation parameters and default milking parameters.

For example, when the operation parameter is a lactation parameter, the age is large, and the secretion of breast milk is small, so that a sufficient amount of breast milk is sucked, and therefore, when the age is large after comparing with the default lactation parameter, at least one of the frequency, the intensity and the time of lactation is increased to increase the amount of breast milk sucked by the subsequent sucking operation.

Further, after comparing the default lactation parameters, if the age is smaller, at least one of the lactation frequency, the lactation intensity and the lactation time is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk sucking work, which is unfavorable for the subsequent weaning of the mother.

For example, when the operation parameter is breast size, the breast size is small and the secretion of breast milk is small, so that the sufficient amount of breast milk is sucked, and therefore, when the breast size is small after comparing with the default lactation parameter, at least one of the frequency, the intensity and the time of lactation is increased to increase the amount of breast milk sucked by the subsequent sucking operation.

Further, after comparing the default lactation parameters, if the breast size is larger, at least one of the lactation frequency, the lactation intensity and the lactation time is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk sucking work, which is unfavorable for the subsequent weaning of the mother.

Illustratively, the user can bear larger lactation pressure when the pressure capacity is strong, at least one of lactation frequency and lactation strength is increased when the pressure capacity is increased compared with the default lactation parameters, and meanwhile, the lactation time is reduced, so that the lactation work is completed faster, and the time for using the breast pump by the user with strong pressure capacity is saved.

Further, after comparing default lactation parameters, if the pressure bearing capacity is smaller, at least one of lactation frequency and lactation intensity is reduced, and meanwhile, lactation time is increased, so that lactation work is completed by using more relaxed pressure, and the situation that a user feels pain in the using process of the breast pump is prevented.

For example, when the operation parameter is a milk sucking parameter, the age is large, and the secretion of breast milk is small, so that the sufficient amount of breast milk is sucked, and therefore, when the age is large after comparing with the default user parameter, at least one of the frequency of sucking, the intensity of sucking and the time of sucking is increased to increase the amount of breast milk sucked by the subsequent milk sucking operation.

Further, after comparing the default user parameters, if the age is smaller, at least one of the frequency of sucking, the intensity of sucking and the time of sucking is reduced so as to prevent the excessive amount of breast milk sucked by the work in sucking, which is unfavorable for the subsequent weaning of the mother.

For example, when the operation parameter is breast size, the breast size is small and generally small in secretion of breast milk, in order to ensure that a sufficient amount of breast milk is sucked, so that after comparing with the default user parameter, if the breast size is small, at least one of the frequency of sucking, the intensity of sucking, and the time of sucking is increased to increase the amount of breast milk sucked by the sucking operation.

Further, after comparing the default user parameters, if the breast size is larger, at least one of the frequency of milk suction, the intensity of milk suction and the time of milk suction is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk suction work, which is unfavorable for the subsequent weaning of the mother.

Illustratively, the pressure-bearing capacity is high, and the pressure-bearing capacity can bear larger milk sucking pressure, at the moment, compared with default milk sucking parameters, if the pressure-bearing capacity is high, at least one of the frequency and the strength of sucking milk is increased, and meanwhile, the time for sucking milk is reduced, so that the milk sucking work is completed faster, and the time for using the breast pump by a user with high pressure-bearing capacity is saved.

Further, after comparing default user parameters, if the pressure bearing capacity is smaller, at least one of the frequency and the intensity of sucking milk is reduced, and meanwhile, the sucking time is increased, so that the sucking work is completed by using the more relaxed pressure, and the situation that the user feels pain in the using process of the breast pump is prevented.

Referring to fig. 5 again, fig. 5 is a schematic structural diagram of a terminal according to an embodiment of the present application. As shown in fig. 5, the terminal 20 includes a control interface 21.

In some implementations, the control interface 21 includes input controls 211 for inputting the user parameters.

In some implementations, where the user parameter includes multiple sub-parameters, the control interface includes multiple input controls 211.

Illustratively, where the user parameters include both age, breast size, and compression capability, the control interface includes three input controls 211, the three input controls 211 being used to input age, breast size, and compression capability, respectively.

In some embodiments, the control interface 21 further comprises a third display area for displaying current operating parameters of the breast pump.

In some embodiments, the control interface 21 further includes a fourth display area, where the fourth display area is configured to display the working parameter corresponding to the user parameter after the user inputs the user parameter.

Referring to fig. 6, fig. 6 is a flow chart of a method for controlling operation of a breast pump according to an embodiment of the present application. As shown in FIG. 6, the method 100 of controlling the operation of a breast pump includes steps 110 through 130.

Step 110: acquiring user parameters; wherein the user parameter comprises a pressure capability.

In some embodiments, step 110 includes the following steps.

(1) The user parameters generated by an input unit of the breast pump in response to input instructions of a user are acquired.

(2) Or acquiring the user parameters sent by the external terminal.

Step 120: determining working parameters of the breast pump when in work according to the user parameters; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated.

In some embodiments, the user parameters include at least one of age, breast size, and compression capacity.

In some embodiments, the operating parameter comprises at least one of a lactation parameter and a milk elicitation parameter.

In some embodiments, the lactation parameters include at least one of frequency of lactation, intensity of lactation, and time of lactation.

Wherein, any one of the frequency, intensity and time of lactation can be increased to help the mother to secrete more breast milk so as to increase the amount of breast milk sucked in the subsequent milk sucking work.

In some embodiments, the milk elicitation parameters include at least one of a frequency of milk elicitation, a strength of milk elicitation, and a time of milk elicitation.

Wherein, any one of increasing the frequency of sucking milk, the intensity of sucking milk and the time of sucking milk can make the breast pump suck more breast milk when finishing the sucking work.

In some embodiments, the breast pump is provided with reference operating parameters, and if the breast pump does not acquire the user parameters, i.e. the user does not input the user parameters, the breast pump is operated according to the reference operating parameters.

Further, the baseline operating parameters include at least one of default lactation parameters and default milking parameters.

For example, when the operation parameter is a lactation parameter, the age is large, and the secretion of breast milk is small, so that a sufficient amount of breast milk is sucked, and therefore, when the age is large after comparing with the default lactation parameter, at least one of the frequency, the intensity and the time of lactation is increased to increase the amount of breast milk sucked by the subsequent sucking operation.

Further, after comparing the default lactation parameters, if the age is smaller, at least one of the lactation frequency, the lactation intensity and the lactation time is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk sucking work, which is unfavorable for the subsequent weaning of the mother.

For example, when the operation parameter is breast size, the breast size is small and the secretion of breast milk is small, so that the sufficient amount of breast milk is sucked, and therefore, when the breast size is small after comparing with the default lactation parameter, at least one of the frequency, the intensity and the time of lactation is increased to increase the amount of breast milk sucked by the subsequent sucking operation.

Further, after comparing the default lactation parameters, if the breast size is larger, at least one of the lactation frequency, the lactation intensity and the lactation time is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk sucking work, which is unfavorable for the subsequent weaning of the mother.

Illustratively, the user can bear larger lactation pressure when the pressure capacity is strong, at least one of lactation frequency and lactation strength is increased when the pressure capacity is increased compared with the default lactation parameters, and meanwhile, the lactation time is reduced, so that the lactation work is completed faster, and the time for using the breast pump by the user with strong pressure capacity is saved.

Further, after comparing default lactation parameters, if the pressure bearing capacity is smaller, at least one of lactation frequency and lactation intensity is reduced, and meanwhile, lactation time is increased, so that lactation work is completed by using more relaxed pressure, and the situation that a user feels pain in the using process of the breast pump is prevented.

For example, when the operation parameter is a milk sucking parameter, the age is large, and the secretion of breast milk is small, so that the sufficient amount of breast milk is sucked, and therefore, when the age is large after comparing with the default user parameter, at least one of the frequency of sucking, the intensity of sucking and the time of sucking is increased to increase the amount of breast milk sucked by the subsequent milk sucking operation.

Further, after comparing the default user parameters, if the age is smaller, at least one of the frequency of sucking, the intensity of sucking and the time of sucking is reduced so as to prevent the excessive amount of breast milk sucked by the work in sucking, which is unfavorable for the subsequent weaning of the mother.

For example, when the operation parameter is breast size, the breast size is small and generally small in secretion of breast milk, in order to ensure that a sufficient amount of breast milk is sucked, so that after comparing with the default user parameter, if the breast size is small, at least one of the frequency of sucking, the intensity of sucking, and the time of sucking is increased to increase the amount of breast milk sucked by the sucking operation.

Further, after comparing the default user parameters, if the breast size is larger, at least one of the frequency of milk suction, the intensity of milk suction and the time of milk suction is reduced so as to prevent the excessive amount of breast milk sucked by the subsequent milk suction work, which is unfavorable for the subsequent weaning of the mother.

Illustratively, the pressure-bearing capacity is high, and the pressure-bearing capacity can bear larger milk sucking pressure, at the moment, compared with default milk sucking parameters, if the pressure-bearing capacity is high, at least one of the frequency and the strength of sucking milk is increased, and meanwhile, the time for sucking milk is reduced, so that the milk sucking work is completed faster, and the time for using the breast pump by a user with high pressure-bearing capacity is saved.

Further, after comparing default user parameters, if the pressure bearing capacity is smaller, at least one of the frequency and the intensity of sucking milk is reduced, and meanwhile, the sucking time is increased, so that the sucking work is completed by using the more relaxed pressure, and the situation that the user feels pain in the using process of the breast pump is prevented.

In some embodiments, the user parameter does not need to be compared with the default user parameter, and after the user parameter is acquired, the corresponding working parameter is searched in a pre-stored correspondence table of the user parameter and the working parameter according to the user parameter.

Illustratively, after the pressure bearing capacity is obtained, the corresponding milk sucking strength and the corresponding milk sucking time are obtained according to a table look-up of the pressure bearing capacity in a corresponding relation table of the pressure bearing capacity, the milk sucking strength and the milk sucking time.

In some embodiments, the pre-stored table of correspondence between the user parameters and the working parameters is obtained according to the correlation and test of the user parameters and the working parameters in the table.

In some embodiments, the milk sucking parameters further include a milk sucking frequency, and the determining the working parameters of the breast pump when working according to the user parameters includes:

determining the sucking frequency of the breast pump when in operation according to the compression capacity; wherein the compression capacity is positively correlated with the milk sucking frequency.

In some embodiments, the frequency of milk elicitation is determined from a pressure capability lookup table directly in a correspondence table of pressure capability and frequency of milk elicitation.

In some embodiments, the compression capacity is compared with a default compression capacity in default user parameters, and the final frequency of milk expression is adjusted based on the default frequency of milk expression according to the comparison result.

In some embodiments, the operating parameters further include a lactation promoting parameter, and the determining the operating parameters of the breast pump when in operation according to the user parameters includes:

and determining working parameters of the breast pump during working according to the lactation promoting parameters.

In some embodiments, the lactation parameters include a lactation time and a lactation frequency, and the determining the operation parameters of the breast pump when in operation according to the lactation parameters includes:

determining the lactation time and frequency of the breast pump when in operation according to the compression capacity; wherein the lactation strength and the compression capacity are positively correlated, and the lactation time and the compression capacity are negatively correlated.

In some embodiments, step 120 comprises the following steps.

(1) And obtaining a reference working parameter.

(2) And determining deviation working parameters according to the user parameters.

(3) And determining the working parameters of the breast pump during working according to the reference working parameters and the deviation working parameters.

In some embodiments, the deviation operating parameter is a coefficient, and the reference operating parameter is the deviation operating parameter = operating parameter of the breast pump when in operation.

In some embodiments, age-corresponding user parameters are divided into ranges, with different age ranges corresponding to different operating parameters, i.e., coefficients.

As an example, defining that the user parameters include ages, the working parameters include lactation intensity, the age interval is divided into 18-25 years old, 25-35 years old and more than 35 years old, the age interval corresponding to the reference working parameters of the breast pump is 25-35 years old, if the age interval of the user parameters is 18-25 years old, the deviation working parameters are determined to be 0.9, and at the moment, the lactation intensity of the breast pump in working is 0.9 which is the reference lactation intensity corresponding to the reference working parameters; if the age range of the user parameter is over 35 years old, the deviation working parameter is determined to be 1.1, and at the moment, the lactation intensity of the breast pump in working is 1.1 as the reference lactation intensity corresponding to the reference working parameter.

In some embodiments, the deviation operating parameter is a deviation value, the reference operating parameter + the deviation value = operating parameter of the breast pump when in operation.

As an example, defining that the user parameters include ages, the working parameters include lactation intensity, the age interval is divided into 18-25 years old, 25-35 years old and more than 35 years old, the age interval corresponding to the reference working parameters of the breast pump is 25-35 years old, if the age interval of the user parameters is 18-25 years old, the deviation working parameters are determined to be-0.005 MPa, and at the moment, the lactation intensity of the breast pump in operation is the reference lactation intensity+ (-0.005 MPa) corresponding to the reference working parameters; if the age range of the user parameter is over 35 years old, the deviation working parameter is determined to be +0.005MPa, and at the moment, the lactation intensity of the breast pump in working is the reference lactation intensity+ (+0.005 MPa) corresponding to the reference working parameter.

In some embodiments, the operating parameters corresponding to the compression capacity are graded, with different grades corresponding to different coefficients or bias values.

In some embodiments, the operating parameters corresponding to breast size are divided by ranges, with different size ranges corresponding to different coefficients or bias values.

Further, specific embodiments of breast size and compressive capacity may refer to age-related embodiments, which are not described herein.

Step 130: and controlling the breast pump to work according to the working parameters.

In some embodiments, the pump unit is a power mechanism of the breast pump, and the control unit controls the pump unit to operate according to the operating parameters so that the breast pump operates according to the operating parameters.

In some embodiments, the breast pump comprises a display unit comprising at least one of a first display area and a second display area, the method further comprising, after said determining an operating parameter of the breast pump when operating in accordance with said user parameter:

controlling the first display area to display the user parameters; and/or the number of the groups of groups,

and controlling the second display area to display the working parameters.

Displaying user parameters by controlling the first display area; and/or control the second display area to display the working parameters, so that the user can intuitively know the current state of the breast pump.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a working control device of a breast pump according to an embodiment of the present application. As shown in fig. 7, the operation control device 20 includes: an acquisition unit 210, a determination unit 220, and a working unit 230.

An obtaining unit 210, configured to obtain a user parameter; wherein the user parameter comprises a pressure capability.

A determining unit 220, configured to determine an operating parameter of the breast pump when the breast pump is operating according to the user parameter; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated.

And a working unit 230 for controlling the operation of the breast pump according to the working parameters.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a fifth embodiment of a breast pump according to an embodiment of the present application. As shown in fig. 8, the breast pump 300 includes: one or more processors 310 and a memory 320, one processor 310 being illustrated in fig. 8.

In some implementations, the processor 310 and the memory 320 may be connected by a bus or otherwise, for example in fig. 8.

In some embodiments, processor 310 is configured to obtain a baseline operating parameter; determining deviation working parameters according to the user parameters; and determining the working parameters of the breast pump during working according to the reference working parameters and the deviation working parameters.

In some embodiments, the memory 320 is used as a non-volatile computer readable storage medium, and may be used to store non-volatile software programs, non-volatile computer executable programs, and modules, such as program instructions/modules of the operation control method of the breast pump in the embodiments of the present application. The processor 310 performs various functional applications and data processing of the breast pump by running non-volatile software programs, instructions and modules stored in the memory 320, i.e. implementing the method of controlling the operation of the breast pump of the above method embodiments.

In some implementations, the memory 320 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the stored data area may store data created from the use of the breast pump, etc. In addition, memory 320 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some embodiments, memory 320 may optionally include memory located remotely from processor 310, which may be connected to the controller via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

In some embodiments, one or more modules are stored in memory 320 that, when executed by one or more processors 310, perform the method of controlling the operation of the breast pump in any of the method embodiments described above, e.g., performing method steps 110-130 of fig. 6 described above.

Referring to fig. 9, fig. 9 is a block diagram of a computer readable storage medium according to an embodiment of the present application. The computer readable storage medium 400 has stored therein a program code 410, the program code 410 being executable by a processor to perform the method of controlling the operation of the breast pump described in the above method embodiments.

The computer readable storage medium 400 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer readable storage medium comprises a non-volatile computer readable medium (non transitory computer readable storage medium). The computer readable storage medium 400 has storage space for program code to perform any of the method steps in the control method described above. The program code can be read from or written to one or more computer program products. The program code may be compressed, for example, in a suitable form.

In summary, the present application provides a breast pump, a terminal, a method and an apparatus for controlling operation, and a storage medium, including: a housing; a breast shield; a storage unit for storing milk expressed by the breast pump; a pump unit for applying negative pressure to the breastshield to express milk and discharging the expressed milk to the storage unit; the control unit is electrically connected with the pump unit and is used for acquiring user parameters, determining working parameters of the pump unit when working according to the user parameters and controlling the pump unit to work according to the working parameters; wherein the user parameters comprise pressure bearing capacity, the working parameters comprise milk sucking strength and milk sucking time, the milk sucking strength and the pressure bearing capacity are positively correlated, and the milk sucking time and the pressure bearing capacity are negatively correlated. According to the intelligent breast pump, the working parameters of the pump unit during working are determined through the user parameters, so that the breast pump works according to different working parameters for different users, the intelligent degree of the breast pump can be improved, and the times of adjusting the working parameters by the users are reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting thereof; although the present application has been described in detail with reference to the foregoing embodiments, one of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (15)

1. A breast pump, the breast pump comprising:

a housing;

a breast shield;

a storage unit for storing milk expressed by the breast pump;

a pump unit for applying negative pressure to the breastshield to express milk and discharging the expressed milk to the storage unit;

the control unit is electrically connected with the pump unit and is used for acquiring user parameters, determining working parameters of the pump unit when working according to the user parameters and controlling the pump unit to work according to the working parameters; wherein the user parameters comprise pressure bearing capacity, the working parameters comprise milk sucking strength and milk sucking time, the milk sucking strength and the pressure bearing capacity are positively correlated, and the milk sucking time and the pressure bearing capacity are negatively correlated.

2. The breast pump of claim 1, further comprising an input unit electrically connected to the control unit, the input unit configured to generate the user parameter in response to a user input instruction.

3. The breast pump of claim 1, further comprising a communication unit electrically connected to the control unit, the communication unit configured to receive the user parameter from an external terminal.

4. A breast pump according to any of claims 1-3, further comprising a display unit electrically connected to said control unit, said display unit comprising at least one of a first display area for displaying said user parameter and a second display area for displaying said operating parameter.

5. A breast pump according to any of claims 1-3, wherein said control unit is further adapted to obtain a reference operating parameter, to determine a deviation operating parameter based on said user parameter, and to determine an operating parameter of said breast pump when in operation based on said reference operating parameter and said deviation operating parameter.

6. A method of controlling operation of a breast pump, the method comprising:

acquiring user parameters; wherein the user parameters include pressure capability;

determining working parameters of the breast pump when in work according to the user parameters; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated;

and controlling the breast pump to work according to the working parameters.

7. The method of claim 6, wherein the milk elicitation parameters further comprise a milk elicitation frequency, and wherein the determining the operational parameters of the breast pump during operation based on the user parameters comprises:

determining the sucking frequency of the breast pump when in operation according to the compression capacity; wherein the compression capacity is positively correlated with the milk sucking frequency.

8. The method of claim 6, wherein the operating parameters further comprise a lactation parameter, and wherein the determining the operating parameters of the breast pump when in operation based on the user parameters comprises:

and determining working parameters of the breast pump during working according to the lactation promoting parameters.

9. The method of claim 8, wherein the lactation parameters include a time for lactation and a frequency of lactation, and wherein determining the operational parameters of the breast pump when in operation based on the lactation parameters comprises:

determining the lactation time and frequency of the breast pump when in operation according to the compression capacity; wherein the lactation strength and the compression capacity are positively correlated, and the lactation time and the compression capacity are negatively correlated.

10. The method of claim 6, wherein the breast pump comprises a display unit comprising at least one of a first display area and a second display area, the method further comprising, after the determining of the operational parameters of the breast pump in operation based on the user parameters:

controlling the first display area to display the user parameters; and/or the number of the groups of groups,

and controlling the second display area to display the working parameters.

11. The method of claim 6, wherein the obtaining the user parameter comprises:

acquiring the user parameters generated by an input unit of the breast pump in response to input instructions of a user;

or acquiring the user parameters sent by the external terminal.

12. The method according to any one of claims 6-11, wherein said determining an operational parameter of the operation of the breast pump based on said user parameter comprises:

obtaining a reference working parameter;

determining deviation working parameters according to the user parameters;

and determining the working parameters of the breast pump during working according to the reference working parameters and the deviation working parameters.

13. An operation control device for a breast pump, the device comprising:

the acquisition unit is used for acquiring the user parameters; wherein the user parameters include pressure capability;

a determining unit, configured to determine an operating parameter of the breast pump when the breast pump is operating according to the user parameter; wherein the operating parameters include a milk elicitation parameter including a milk elicitation intensity and a milk elicitation time, the milk elicitation intensity and the compression capacity being positively correlated, the milk elicitation time and the compression capacity being negatively correlated;

and the working unit is used for controlling the breast pump to work according to the working parameters.

14. A breast pump, the breast pump comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of controlling operation of the breast pump of any one of claims 6-12.

15. A computer readable storage medium, characterized in that the computer readable storage medium stores an executable program that is executed by a processor to implement the operation control method of the breast pump according to any one of claims 6 to 12.