CN111166947A - Breast pump with data acquisition function and statistical management method of breast pump data - Google Patents

Abstract

The invention relates to a breast pump with data acquisition and a statistical management method of breast pump data, wherein a controller is arranged in a host, the controller is connected with a suction motor and an electronic negative pressure measuring instrument through leads, the suction motor is communicated with the electronic negative pressure measuring instrument through a pipeline, the electronic negative pressure measuring instrument is communicated with a suction pipeline through a pipeline, the controller is electrically connected with a first wireless transceiver and a timer which are arranged in the host through leads, a touch screen display is arranged outside the host, the touch screen display is connected with the controller through leads, and a liquid volume measuring device is arranged at the bottom of a storage bottle body; the data of the breast pumping frequency, time, suction force, milk quantity, breast discomfort and the like of every time, day or even weeks are effectively counted, so that the milk secretion is maintained, the milk quantity is improved, the breast health in the lactation period is protected, and an important guiding value and a reference basis are provided for the mother in the lactation period.

Description

Breast pump with data acquisition function and statistical management method of breast pump data

Technical Field

The invention relates to a breast pump auxiliary device, in particular to a breast pump with data acquisition function and a breast pump data statistical management method.

Background

A breast pump refers to a tool for expressing breast milk accumulated in a breast. Generally, it is suitable for the case where the infant cannot directly suck the breast milk, or the mother has a problem with the nipple, and the breast feeding is desired even though the infant is working. The breast pump is of an electric type or a manual type. The manual type also includes a press type, a simple rubber ball suction mode and a needle cylinder type. The electric type is divided into a stimulating milk matrix and a non-stimulating milk matrix, and is also divided into a single pump and a double pump. Most of the currently used breast pumps are of the electric type, and manual breast pumps have been replaced by electric breast pumps because of their low operation efficiency. The components of the large electric-type breast pump or the small electric-type breast pump in hospitals can be divided into four parts. Suction cup: the breast of the breast donor is sucked by using the vacuum principle. Breast pump main part: using the siphon principle, milk is drawn from the mother's breast surface and collected and directed at ninety degrees into a milk bottle for storing breast milk. A motor: operation of the motor in an electrical manner creates a siphon force. Storage bottle: the spout is typically attached to the lower rim of the breast pump body and is the same size as a nursing bottle.

The conventional electric breast pump has certain defects in use, and the defects are concentrated in that: firstly, the traditional electric breast pump does not make effective statistics on the use frequency and single or multiple times of the breast pump every day when in use, the current main machine part is lack of the design of the part, meanwhile, the statistics on the single or multiple times or a period of time cannot be carried out on each breast pumping time, the negative pressure value of a single siphon cannot be collected when the siphon is produced by the breast pump every time, and in the breast pumping guiding operation, the values have high clinical value, the data obtained by means of manual measurement or sensing and observation modes are relatively inaccurate, so that the later-stage statistical operation is accurate, and the breast pumping statistics of nursing women cannot be accurately and efficiently guided. Secondly, although the scales of the storage bottle body are designed to observe and count the milk suction amount when the traditional breast pump is used, the way of manually recording each time consumes more time and experience, the milk amount counting work is laborious and time-consuming, and the phenomenon of misoperation or missing counting work occurs; thirdly, when the traditional breast pump is used, the discomfort induction of the mother body in the breast pumping process cannot be recorded, when the breast of the mother body has pathological changes or other complications of the breast, the breast can have adverse reactions in the breast pumping process, and the traditional breast pump cannot effectively record the discomfort reactions; in addition, after data collection is implemented, a set of efficient data statistics management software system and a set of efficient data statistics management method cannot be used for efficiently managing the collected data, and the traditional software statistics cannot be used for integrating efficient interconnection feedback of users and management practitioners, so that the final guiding significance is lacked.

Therefore, the traditional breast pump cannot really combine the requirement of the baby to carry out breast pumping operation, and simultaneously lacks effective interconnection feedback guidance, so that the high-efficiency interconnection feedback link of management practitioners and users is lacked, if perfect breast pumping data statistics needs to be established, guidance opinions need to be provided for mother milk pumping according to the previous data, an interconnection feedback mechanism is realized, effective statistics is carried out on data such as breast pumping frequency, time, suction force, milk quantity, breast discomfort and the like every time, every day and even weeks, statistical management and real-time interaction feedback are effectively made, the breast pump is beneficial to maintaining lactation, improving milk quantity, protecting breast health in a lactation period, and providing important guidance value and reference basis for the mother in the lactation period.

Aiming at the problems, the breast pump with the data acquisition and the breast pumping data statistical management method which are simple in structure, convenient to operate, high in working and operating efficiency, high in intelligent degree, various in data statistical acquisition methods, intelligent in acquisition operation, comprehensive in breast pumping data acquisition, beneficial to comprehensive acquisition and guidance of breast feeding period data, simple and easy to operate are produced, and the market prospect is wide.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the breast pump with the data acquisition function and the breast pumping data statistical management method which have the advantages of simple structure, convenience in operation, high working and operating efficiency, high intelligence degree, various data statistical acquisition methods, intelligent acquisition operation, comprehensive breast pumping data acquisition, contribution to comprehensive data acquisition and guidance operation in the lactation period, simplicity and easiness in operation, and is used for overcoming the defects in the prior art.

The technical scheme of the invention is realized as follows: the utility model provides a breast pump with data acquisition, includes the suction host computer, the suction pipeline that is connected with the suction host computer through the pipeline, the suction that is linked together with the suction pipeline connects, connects the storage bottle that has the lid that is linked together with the suction, the sucking disc that is linked together with the lid top, the host computer in install the controller, the controller is connected with suction motor and electron negative pressure measuring instrument through the wire, the suction motor is linked together with electron negative pressure measuring instrument through the pipeline, electron negative pressure measuring instrument is linked together through pipeline and suction pipeline, the controller passes through the wire and sets up first wireless transceiver and the time-recorder electric connection in the host computer, be provided with the touch-screen display ware in the host computer outside, the touch-screen display ware is connected with the controller through the wire, is provided with liquid volume measuring device bottom.

The liquid volume measuring device including seting up the centre bore at storage bottle bottom central point, fixed mounting has the protection casing above this centre bore, the inner wall fixed mounting of protection casing has the photoelectric sensor to connect, below fixed mounting at storage bottle has the base, be provided with the integral type photoelectric liquid level sensor who is connected with the photoelectric sensor joint in the base, there is the sensor mainboard at integral type photoelectric liquid level sensor's bottom fixed mounting, the sensor mainboard passes through wire and second wireless transceiver electric connection, first wireless transceiver and second wireless transceiver are connected with mobile terminal through wireless connection's mode, install breast pumping data statistics management software in mobile terminal.

One end of the suction pipeline is connected with the suction connector, the other end of the suction pipeline is communicated with the host connector, the inner side of the host connector is communicated with the electronic negative pressure measuring instrument through a pipeline, a host switch is arranged at the top of the host, red and swollen discomfort physical keys and pain and discomfort physical keys are arranged on two sides of the host switch, and the host switch, the red and swollen discomfort physical keys and the pain and discomfort physical keys are connected with the controller through wires.

The inner wall of the cover body is connected with the top of the storage bottle body in a threaded connection mode, the bottom of the cover body is communicated with the inside of the storage bottle body, the top of the cover body is communicated with the suction joint and the suction disc, and the host is connected with a power line.

The protection casing for adopt the hemisphere groove-shaped structure that the transparent plastic material made, the diapire of protection casing and the diapire of storing the bottle structure as an organic whole, the recess of protection casing down, the protruding direction of protection casing is towards storing the bottle center of the bottle end and is put up, the photoelectric sensor connects for spherical structure, the top outer wall fixed mounting that the photoelectric sensor connects is at the inner wall of protection casing.

The base be cylinder hollow structure, the diameter of base is not less than the diameter of storage bottle diapire, fixed mounting has storage battery in the base, storage battery passes through wire and sensor mainboard electric connection, is provided with charger interface and switch outside the base, the charger interface is connected with storage battery through the wire, switch's one end is connected with storage battery through the wire, switch's the other end is connected with the sensor mainboard through the wire.

A method for implementing statistical management of breast pumping data by using the breast pump with data acquisition comprises the following steps: when the breast pumping operation is required, the storage bottle body is held by hand, the pumping disc is placed on the breast of a user, the host is started, the controller operates, the controller is wirelessly connected with a mobile terminal provided with breast pumping data statistics management software through a first wireless transceiver, the pumping motor operates through the mobile terminal, the electronic negative pressure measuring instrument is driven to work after the pumping motor operates, pumping negative pressure data are uploaded to the controller when each pumping operation is carried out, negative pressure generated by a pumping pipeline acts on a pumping connector, the pumping disc, the cover body and the storage bottle body are utilized to carry out the breast pumping operation on the breast of the user, in the process of carrying out the breast pumping operation, the timer records pumping time and stores the pumping time into the controller, the pumping motor is closed after the pumping operation is finished, then the storage bottle body filled with milk is horizontally placed, and the sensor main board is started, the sensor mainboard passes through second wireless transceiver and installs breast pumping data statistics management software's mobile terminal wireless connection, through mobile terminal operation integral type photoelectric liquid level sensor, integral type photoelectric liquid level sensor utilizes photoelectric sensor joint to implement non-contact capacitance level measurement to the flourishing milk of storage bottle internal, and convert into liquid volume numerical value storage in the sensor mainboard after utilizing the sensor mainboard to remove dryness, close integral type photoelectric liquid level sensor after the measurement is accomplished, then acquire the storage data in controller and the sensor mainboard through the mobile terminal operation, and show in mobile terminal, and utilize the breast pumping data statistics management software of installation in the mobile terminal to implement statistics management to data.

The breast-feeding data statistical management software is a breast-feeding manager APP, the breast-feeding manager APP comprises a practitioner registration module, a user registration module and an interconnection feedback module, wherein the user registration module is composed of a basic information entry module and an anger-lifting breast-feeding log module, the interconnection feedback module is composed of a practitioner data analysis guidance module and a system calculation evaluation feedback module, and the system calculation evaluation feedback module adopts the following calculation method to implement calculation evaluation:

newborn: gestational age is 37-43W, target milk volume = birth weight KG × 130Kcal ÷ 0.6699+50 ml; the gestational age is 28-36 +6W, and the target milk quantity = the current body weight KG × 135Kcal ÷ 0.6699+100 ml; gestational age < 28W, target milk volume = current body weight KG × 150Kcal ÷ 0.6699+100 ml;

1-6 months old: target milk amount = birth weight KG of term infant or corrected body weight at 37W month age × 130Kcal ÷ 0.6699+100 ml;

7-12 months old: the target milk amount of the non-parent feeding mode is 800 mml; the target milk amount of one-half of the parental feeding mode is 400 ml; the target milk volume for the quarter parental feeding mode was 400 ml.

The invention has the following positive effects: the product has a simple structure and is convenient to operate, firstly, the product adopts the integrated photoelectric liquid level sensor to measure the milk sucking amount, the non-contact photoelectric sensor joint is used for sensing and collecting data, the matched mobile terminal is used for carrying out data statistics and management, the statistics and management operation of the single milk sucking amount and the multiple milk sucking amounts is accurately calculated, meanwhile, the electronic negative pressure measuring instrument designed by the product is used for obtaining the negative pressure value during the milk sucking operation, the timer is used for obtaining the milk sucking time accumulated for a single time or multiple times, the first wireless transceiver is used for carrying out the statistics and management operation after being connected with the mobile terminal, and the product is convenient and efficient; secondly, the product is provided with red and swollen discomfort physical keys and pain and discomfort physical keys, manual key operation can be implemented when needed, or key operation can be directly implemented on the mobile terminal, so that the comprehensiveness of data collection is realized; thirdly, the product utilizes the milk sucking data statistical management software installed in the mobile terminal to carry out statistical management on the data, a multi-management mode can be implemented in the software, a set of efficient data statistical management software system and a whole set of statistical management method are provided to carry out efficient management on the collected data, efficient interconnection feedback of users and management practitioners is integrated, effective statistics is carried out on data such as milk sucking frequency, time, suction, milk quantity and breast discomfort of every time, day and even weeks, the milk sucking system is beneficial to maintaining milk secretion and improving milk quantity and protecting breast health in the lactation period, and important guiding value and reference basis are provided for mothers in the lactation period.

Drawings

FIG. 1 is a schematic view of the present invention.

Fig. 2 is a second schematic diagram of the internal structure of the present invention.

FIG. 3 is a flow chart of the statistical management method according to the present invention.

Fig. 4 is a schematic diagram of a statistical result display structure according to an embodiment of the present invention.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a breast pump with data acquisition comprises a suction host 1, a suction pipe 2 connected with the suction host 1 through a pipe, a suction joint 3 communicated with the suction pipe 2, a storage bottle 6 with a cover 5 communicated with the suction joint 3, and a suction plate 4 communicated with the top of the cover 5, wherein a controller 22 is installed in the host 1, the controller 22 is connected with a suction motor 21 and an electronic negative pressure measuring instrument 20 through wires, the suction motor 21 is communicated with the electronic negative pressure measuring instrument 20 through a pipe, the electronic negative pressure measuring instrument 20 is communicated with the suction pipe 2 through a pipe, the controller 22 is electrically connected with a first wireless transceiver 24 and a timer 23 arranged in the host 1 through wires, a touch screen 12 is arranged outside the host 1, and the touch screen 12 is connected with the controller 22 through wires, the bottom of the storage bottle body 6 is provided with a liquid volume measuring device. The liquid amount measuring device include seting up the centre bore at 6 bottom central points of storage bottle body, fixed mounting has the protection casing 8 above this centre bore, the inner wall fixed mounting of protection casing 8 has photoelectric sensor to connect 9, below fixed mounting at storage bottle body 6 has base 7, be provided with the integral type photoelectric liquid level sensor 18 that is connected with photoelectric sensor joint 9 in base 7, there is sensor mainboard 17 at the bottom fixed mounting of integral type photoelectric liquid level sensor 18, sensor mainboard 17 passes through wire and second wireless transceiver 19 electric connection, first wireless transceiver 24 and second wireless transceiver 19 are connected with mobile terminal through wireless connection's mode, install breast pumping data statistics management software in mobile terminal.

One end of the suction pipeline 2 is connected with the suction connector 3, the other end of the suction pipeline 2 is communicated with the main connector 14, the inner side of the main connector 14 is communicated with the electronic negative pressure measuring instrument 20 through a pipeline, the top of the main 1 is provided with the main switch 13, two sides of the main switch 13 are provided with the red and swollen discomfort physical button 25 and the pain and discomfort physical button 26, and the main switch 13, the red and swollen discomfort physical button 25 and the pain and discomfort physical button 26 are connected with the controller 22 through wires. The inner wall of the cover body 5 is connected with the top of the storage bottle body 6 in a threaded connection mode, the bottom of the cover body 5 is communicated with the inside of the storage bottle body 6, the top of the cover body 5 is communicated with the suction joint 3 and the suction disc 4, and the host 1 is connected with a power line 15.

Protection casing 8 for adopting the hemisphere groove-shaped structure that the transparent plastic material made, the diapire of protection casing 8 and the diapire structure as an organic whole of storage bottle 6, the recess of protection casing 8 is down, the protruding direction of protection casing 8 is towards storage bottle 6 bottle end center position up, photoelectric sensor connects 9 and is the spherical structure, photoelectric sensor connects 9's top outer wall fixed mounting at the inner wall of protection casing 8. The base 7 be cylinder hollow structure, the diameter of base 7 is not less than the diameter of storing 6 diapalls of bottle, fixed mounting has storage battery 16 in base 7, storage battery 16 passes through wire and sensor mainboard 17 electric connection, is provided with charger interface 11 and switch 10 in the base 7 outside, charger interface 11 is connected with storage battery 16 through the wire, switch 10's one end is connected with storage battery 16 through the wire, switch 10's the other end is connected with sensor mainboard 17 through the wire.

A method for implementing statistical management of breast pumping data by using the breast pump with data acquisition comprises the following steps: when the breast pumping operation is needed, the storage bottle body 6 is held by hand, the suction disc 4 is placed on the breast of a user, the host 1 is started, the controller 22 operates, the controller 22 is wirelessly connected with a mobile terminal provided with breast pumping data statistics management software through a first wireless transceiver 24, the suction motor 21 operates through the mobile terminal, the suction motor 21 drives the electronic negative pressure measuring instrument 20 to work after operating, the suction negative pressure data is uploaded to the controller 22 when each suction operation is carried out, the negative pressure generated by the suction pipeline 2 acts on the suction joint 3, the suction disc 4, the cover body 5 and the storage bottle body 6 are used for carrying out the breast pumping operation on the breast of the user, the timer 23 records and stores the suction time into the controller 22 during the breast pumping operation, the suction motor 21 is closed after the suction operation is finished, then the storage bottle body 6 filled with milk is horizontally placed, and the sensor main board 17 is started, the sensor main board 17 is wirelessly connected with a mobile terminal provided with breast pumping data statistics management software through a second wireless transceiver 19, the integrated photoelectric liquid level sensor 18 runs through the mobile terminal, the integrated photoelectric liquid level sensor 18 performs non-contact capacitance liquid level measurement on milk contained in the storage bottle body 6 through the photoelectric sensor joint 9, the liquid volume value is converted into a liquid volume value after the dryness of the sensor main board 17 and stored in the sensor main board 17, the integrated photoelectric liquid level sensor 18 is closed after the measurement is completed, then the stored data in the controller 22 and the sensor main board 17 are obtained through the operation of the mobile terminal and displayed in the mobile terminal, and the data statistics management is performed by the breast pumping data statistics management software arranged in the mobile terminal. The breast-feeding data statistical management software is a breast-feeding manager APP, the breast-feeding manager APP comprises a practitioner registration module, a user registration module and an interconnection feedback module, wherein the user registration module is composed of a basic information entry module and an anger-lifting breast-feeding log module, the interconnection feedback module is composed of a practitioner data analysis guidance module and a system calculation evaluation feedback module, and the system calculation evaluation feedback module adopts the following calculation method to implement calculation evaluation:

newborn: gestational age is 37-43W, target milk volume = birth weight KG × 130Kcal ÷ 0.6699+50 ml; the gestational age is 28-36 +6W, and the target milk quantity = the current body weight KG × 135Kcal ÷ 0.6699+100 ml; gestational age < 28W, target milk volume = current body weight KG × 150Kcal ÷ 0.6699+100 ml;

1-6 months old: target milk amount = birth weight KG of term infant or corrected body weight at 37W month age × 130Kcal ÷ 0.6699+100 ml;

7-12 months old: the target milk amount of the non-parent feeding mode is 800 mml; the target milk amount of one-half of the parental feeding mode is 400 ml; the target milk volume for the quarter parental feeding mode was 400 ml.

In order to realize comprehensive data acquisition operation, the product is provided with red and swollen discomfort physical keys 25 and painful and uncomfortable physical keys 26, in the implementation process of specific breast-pumping operation, a user can correspondingly press the corresponding keys to implement discomfort recording operation, and after the corresponding keys are pressed, the key operation is recorded through the controller 22 and uploaded to the mobile terminal. A cotton expression method for displaying pain levels is set in breast pumping data statistics management software installed in a mobile terminal to perform grading treatment, and the grading is specifically as follows: a bit of pain, slight pain, obvious pain, severe pain, etc. If bloody milk, hard lumps, bloating, paraciral, etc. appear, it can be manually recorded.

The specific input information of the user registration module is as follows: name, age, fetal number, pregnancy, date of delivery, type of delivery, sex, complications and complications of the infant, birth weight and length of the infant, current weight (if unweighted, estimated), ethnicity, mother's weight and height (automatically calculating BMI index), mother's breast morphology (selecting pictures), nipple morphology (normal, flat, concave), nipple diameter (marking a measuring scale on the device or hose), nipple shape, etc. After the client inputs information, the system calculates the target milk amount according to the calculation formula and feeds the target milk amount back to the client, when the client sucks milk every day, the data is uploaded to the system, the system calculates the milk sucking time (minutes), the frequency (once every 30 minutes) and the total milk sucking amount every day according to the model and gives a certain prompt to the client, the evaluation feedback is realized by utilizing the interconnection feedback module,

when the gestational age is 28-36 +6W, or < 28W, the system prompts the client to input the current weight once a week and recalculates the target milk amount until 37 weeks. After 37 weeks, the single fetus reaches 600-1000ml, the double fetus reaches 1200-2000 ml, and the client is asked whether to stop the calculation of the target milk amount, and the system only records data. And displaying the total milk absorption amount, the trend graph, the time period graph and the like in real time. When the infant is over 12 months old, the lactation mode is fixed, and the infant is mainly given complementary food, and the target milk amount is not set any more.

After the registration of the practitioner registration module, the customer breast-pumping log and the growth curve can be checked at any time for comprehensive guidance. The product can utilize the interconnection feedback module to record the birth condition of the baby and draw a growth curve. The detailed data of each day can be recorded and can be plotted periodically, and a structural diagram for displaying the statistical result is shown in FIG. 4.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a breast pump with data acquisition, includes suction host computer (1), through suction pipeline (2) that pipeline and suction host computer (1) are connected, suction joint (3) that are linked together with suction pipeline (2), with suction joint (3) be linked together have storage bottle (6) of lid (5), suction disc (4) that are linked together with lid (5) top, its characterized in that: host computer (1) in install controller (22), controller (22) are connected with suction motor (21) and electron negative pressure measuring apparatu (20) through the wire, suction motor (21) are linked together through pipeline and electron negative pressure measuring apparatu (20), electron negative pressure measuring apparatu (20) are linked together through pipeline and suction pipeline (2), controller (22) are through wire and first wireless transceiver (24) and time-recorder (23) electric connection of setting in host computer (1), be provided with touch-screen display ware (12) in host computer (1) outside, touch-screen display ware (12) are connected with controller (22) through the wire, be provided with liquid volume measuring device in storage bottle (6) bottom.

2. The breastpump with data acquisition of claim 1 wherein: the liquid amount measuring device comprises a central hole arranged at the central position of the bottom of the storage bottle body (6), a protective cover (8) is fixedly arranged above the central hole, a photoelectric sensor joint (9) is fixedly arranged on the inner wall of the protective cover (8), a base (7) is fixedly arranged below the storage bottle body (6), an integrated photoelectric liquid level sensor (18) connected with a photoelectric sensor joint (9) is arranged in the base (7), the integrated type photoelectric liquid level sensor is characterized in that a sensor main board (17) is fixedly mounted at the bottom of the integrated type photoelectric liquid level sensor (18), the sensor main board (17) is electrically connected with a second wireless transceiver (19) through a lead, the first wireless transceiver (24) and the second wireless transceiver (19) are connected with a mobile terminal in a wireless connection mode, and milk sucking data statistics management software is mounted in the mobile terminal.

3. The breastpump with data acquisition of claim 1 wherein: one end of the suction pipeline (2) is connected with the suction connector (3), the other end of the suction pipeline (2) is communicated with the host connector (14), the inner side of the host connector (14) is communicated with the electronic negative pressure measuring instrument (20) through a pipeline, a host switch (13) is arranged at the top of the host (1), red and swollen discomfort physical keys (25) and painful discomfort physical keys (26) are arranged on two sides of the host switch (13), and the host switch (13), the red and swollen discomfort physical keys (25) and the painful discomfort physical keys (26) are connected with the controller (22) through wires.

4. The breastpump with data acquisition of claim 1 wherein: the inner wall of the cover body (5) is connected with the top of the storage bottle body (6) in a threaded connection mode, the bottom of the cover body (5) is communicated with the inside of the storage bottle body (6), the top of the cover body (5) is communicated with the suction joint (3) and the suction disc (4), and the host (1) is connected with a power line (15).

5. The breastpump with data acquisition of claim 2 wherein: protection casing (8) for adopting the hemisphere groove-shaped structure that the transparent plastic material made, the diapire of protection casing (8) and the diapire structure as an organic whole of storing bottle (6), the recess of protection casing (8) down, the protruding direction orientation of protection casing (8) stores bottle (6) bottle bottom center position up, photoelectric sensor connects (9) and is the spherical structure, the top outer wall fixed mounting that photoelectric sensor connects (9) is at the inner wall of protection casing (8).

6. The breastpump with data acquisition of claim 2 wherein: base (7) be cylinder hollow structure, the diameter of base (7) is not less than the diameter of storing bottle (6) diapire, fixed mounting has storage battery (16) in base (7), storage battery (16) pass through wire and sensor mainboard (17) electric connection, be provided with charger interface (11) and switch (10) in base (7) outside, charger interface (11) are connected with storage battery (16) through the wire, the one end of switch (10) is connected with storage battery (16) through the wire, the other end of switch (10) is connected with sensor mainboard (17) through the wire.

7. A method for statistical management of breast pump data using the breast pump with data acquisition of claim 2, characterized in that the method comprises: when the breast pumping operation is needed, the storage bottle body (6) is held by hand, the pumping disc (4) is placed on the breast of a user, the host (1) is started, the controller (22) operates, the controller (22) is in wireless connection with a mobile terminal provided with breast pumping data statistics management software through a first wireless transceiver (24), the pumping motor (21) operates through the mobile terminal, the electronic negative pressure measuring instrument (20) is driven to work after the pumping motor (21) operates, pumping negative pressure data are uploaded to the controller (22) when each pumping operation is carried out, negative pressure generated by the pumping pipeline (2) acts on the pumping joint (3), the pumping disc (4), the cover body (5) and the storage bottle body (6) are utilized to carry out the breast pumping operation on the breast of the user, the timer (23) records pumping time and stores the pumping time to the controller (22) in the process of carrying out the breast pumping operation, when the pumping operation is finished, the pumping motor (21) is closed, then the storage bottle body (6) filled with milk is horizontally placed, the sensor main board (17) is opened, the sensor main board (17) is wirelessly connected with a mobile terminal provided with milk pumping data statistics management software through a second wireless transceiver (19), the integrated photoelectric liquid level sensor (18) is operated through the mobile terminal, the integrated photoelectric liquid level sensor (18) performs non-contact capacitance liquid level measurement on the milk filled in the storage bottle body (6) through a photoelectric sensor joint (9), and converts the milk into a liquid volume value after being dehumidified by the sensor main board (17) to be stored in the sensor main board (17), the integrated photoelectric liquid level sensor (18) is closed after the measurement is finished, and then the storage data in the controller (22) and the sensor main board (17) are obtained through the operation of the mobile terminal, and displaying the data on the mobile terminal, and performing statistical management on the data by using breast pumping data statistical management software installed in the mobile terminal.

8. Method for the statistical management of breast pump data according to claim 7, characterized in that: the breast-feeding data statistical management software is a breast-feeding manager APP, the breast-feeding manager APP comprises a practitioner registration module, a user registration module and an interconnection feedback module, wherein the user registration module is composed of a basic information entry module and an anger-lifting breast-feeding log module, the interconnection feedback module is composed of a practitioner data analysis guidance module and a system calculation evaluation feedback module, and the system calculation evaluation feedback module adopts the following calculation method to implement calculation evaluation:

newborn: gestational age is 37-43W, target milk volume = birth weight KG × 130Kcal ÷ 0.6699+50 ml; the gestational age is 28-36 +6W, and the target milk quantity = the current body weight KG × 135Kcal ÷ 0.6699+100 ml; gestational age < 28W, target milk volume = current body weight KG × 150Kcal ÷ 0.6699+100 ml;

1-6 months old: target milk amount = birth weight KG of term infant or corrected body weight at 37W month age × 130Kcal ÷ 0.6699+100 ml;

7-12 months old: the target milk amount of the non-parent feeding mode is 800 mml; the target milk amount of one-half of the parental feeding mode is 400 ml; the target milk volume for the quarter parental feeding mode was 400 ml.

Images