CN112172906B - Intelligent module based on baby growth characteristics for baby carriage - Google Patents

Abstract

The invention relates to an intelligent module for a baby carriage based on baby growth characteristics, which at least comprises a detection module (101), a data processing module (102), a condition module (103) and an execution module (107), wherein the detection module (101) comprises a humidity detection unit (101a) and/or a temperature detection unit (101b) arranged on the baby carriage; the data processing module (102) generates second execution information based on the execution information stored in the condition module (103) and the first humidity information, the second humidity information and/or the first temperature information acquired by the humidity detection unit (101a) and feeds the second execution information back to the execution module (107). The invention enables the baby to grow in a safe and comfortable environment and also enables parents to do other work with ease.

Description

Intelligent module based on baby growth characteristics for baby carriage

The invention relates to a baby carriage with the application number of 201811590808.4, the application date of 2018, 12 and 25, the application type of the baby carriage is the invention, and the application name of the baby carriage is divisional application of the baby carriage for controlling the ambient temperature based on the urine wetness condition.

Technical Field

The invention relates to the technical field of infant monitoring, in particular to an intelligent module based on infant growth characteristics for a baby carriage.

Background

With the development of economy and technology, people pay more and more attention to the infant monitoring technology, and the baby carriage becomes a monitoring tool. The fast-paced life pressure of the modern society forces young parents not to have too much energy for taking care of infants and the young parents have increased requirements on the quality of the infant care, and particularly, the contradiction is increasingly prominent when many young parents need two infants at the same time since China comprehensively releases the two-child policy. To address this conflict, many intelligent strollers for infant monitoring have appeared in the prior art to assist young parents in taking care of the infant.

For example, chinese patent publication No. CN108065674A discloses an intelligent crib, which includes: the device comprises a controller, a temperature sensor, a humidity sensor, a pressure sensor, a communication unit, a heating unit and a ventilation unit. When the body temperature detected by the temperature sensor is greater than the temperature threshold value, the controller controls the ventilation unit to perform blowing operation at a slow speed so as to reduce the overheated body temperature of the infant; when the humidity detected by the humidity sensor is greater than the humidity threshold value, the controller sends out bed-wetting notification information to the mobile phone of the parent; when the parents receive the bedwetting announcement information and hold the baby away from the crib and the pressure sensor detects that the baby is not in the crib, the controller controls the heating unit to heat the crib and controls the ventilation unit to perform blowing operation with high-speed wind so as to rapidly dry a bedwetting area. This intelligence crib can make things convenient for the head of a family to crib real time monitoring to can solve the crib intelligently and urinate wet problem.

For example, chinese patent publication No. CN106891984A discloses a stroller. This perambulator includes: the water liquid sensor is arranged on the upper surface of the seat so as to output analog information under the condition of sensing the water liquid on the seat; the input end of the analog-digital converter is electrically connected with the water liquid sensor, the output end of the digital-analog converter is electrically connected with the trigger switch so as to convert analog information into digital information and send the digital information to the trigger switch, and under the condition that the trigger switch receives the digital information, the trigger switch is closed, and the trigger switch, the fan heater and the power supply form a closed loop; the air outlet of the warm air blower faces the position of the water liquid sensor. The baby carriage solves the problem that a baby in the prior art easily gets wet in the baby carriage and is cooled by the baby carriage, and drying after the baby is wet in the baby carriage is realized.

For example, chinese patent publication No. CN105068533A discloses an environment-controllable safe intelligent stroller. The baby carriage comprises a controller module, an environment regulation and control module, a posture monitoring module, a carriage body overturning preventing module, a running module, a braking module, a speed detecting module, a voice data processing module, a voice playing module, a power supply module, a touch display module and a baby carriage body. The controller module is respectively connected with the environment regulating module, the attitude detecting module, the vehicle body overturning preventing module, the driving module, the braking module, the speed detecting module, the voice data processing module, the voice playing module, the power supply module and the touch display module. This perambulator can independently regulate and control the perambulator internal environment, can real-time detection perambulator self gesture, prevents initiatively that the perambulator automobile body from overturning, controls and reasonable speed limit to perambulator speed, realizes that perambulator automatic braking guarantees that the perambulator does not take place to slide.

For example, chinese patent publication No. CN204521231U discloses an intelligent management system for baby health, which is used for sensing temperature and monitoring urine wetness. The system comprises a baby health management system monitoring system for sensing temperature and monitoring urine wetness and a baby health management system detection structure for sensing temperature and monitoring urine wetness, wherein the baby health management system monitoring system for sensing temperature and monitoring urine wetness is arranged in the baby health management system detection structure for sensing temperature and monitoring urine wetness. Through the utility model discloses a head of a family or baby caregiver can know in real time the temperature of the baby's health and the humidity of the panty-shape diapers on one's body, swaddle or bed clothes of baby in the place far away from perambulator, and this utility model's alarm module can make head of a family or baby caregiver need not remember constantly and remind oneself baby need look over the condition of just drowning to guarantee head of a family or baby caregiver's sleep time and quality.

For example, chinese patent publication No. CN205769523U discloses a stroller with environmental parameter and baby status monitoring functions. This perambulator includes the car main part, the wheel, the handrail, the seat, a display screen, a button, fixed horizontal pole, including a motor, an end cap, a controller, and a cover plate, the sunshade, twist grip, a sensor, through sensor real time monitoring perambulator place ambient temperature, humidity, ultraviolet intensity, the rest state that monitoring baby is located, monitoring baby's mood state, and with all monitoring information display on handle department display screen, through opening of user button operation control sensor and motor, can realize air purification respectively, reduce ultraviolet intensity in the seat, the seat shakes and starts the acousto-optic sensor system who pacifies baby's mood, use this utility model's beneficial effect can provide a healthy comfortable growth environment for the baby.

For example, chinese patent publication No. CN207502038U discloses a baby carriage for bed wetting detection and an intelligent monitoring system. This bed-wetting detects perambulator includes microprocessor, communication module, humidity detection module, body temperature measurement module and display, communication module, humidity detection module, body temperature detection module and display and microprocessor electric connection, whether humidity detection module is used for detecting the baby and urinates the bed, and body temperature measurement module is used for detecting the body temperature of baby, the display is used for showing information such as whether bed-wetting, body temperature. The utility model provides a bed-wetting detects perambulator and intelligent monitor system can help guardian to know baby's actual conditions in real time, can in time discover and show when baby's bed-wetting to send out the police and remind the nurse person.

Since the environment and physiological state of the infant are also changed when the infant urinates or defecates, if the environment temperature, humidity and wet area are adjusted directly when the infant urinates or defecates, it is necessary to make the infant feel uncomfortable or unsafe. It can be seen from the above patents that the environmental temperature, humidity and wet area are directly adjusted when the baby urinates. Therefore, the invention provides a new technical scheme aiming at the defects in the prior art.

Disclosure of Invention

In view of the deficiencies of the prior art, the present invention provides a stroller that controls the ambient temperature based on the wetness condition. Under the condition that parents or caregivers are separated from the baby carriage, the humidity of the baby carriage and the body temperature of the baby can be monitored in real time, and the temperature and the humidity of the baby carriage can be adjusted according to the detected humidity and temperature, so that the baby can grow healthily in a comfortable environment.

The baby carriage is provided with a mechanical construction module and an intelligent module, wherein the mechanical construction module is used for carrying and/or bearing the intelligent module, and the mechanical construction module at least comprises a baby basket body used for bearing a baby; the intelligent module at least comprises a detection module, a data processing module, a condition module and an execution module, wherein the detection module comprises a humidity detection unit and/or a temperature detection unit which are arranged on the baby basket body; the execution module at least comprises a humidity adjusting device and/or a temperature adjusting device which are arranged on the baby basket body; the data processing module is used for comparing first humidity information acquired by the humidity detection unit with first preset humidity information stored in the condition module and generating a first state result of the baby; under the condition that the first humidity information is within the threshold value information range of the first preset humidity information, the data processing module generates first execution information based on the first state result, the humidity detection unit acquires second humidity information based on the first execution information and/or the temperature detection unit acquires first temperature information based on the first execution information, and the data processing module generates second execution information based on the execution information stored in the condition module and the first humidity information, the second humidity information and/or the first temperature information acquired by the humidity detection unit and feeds the second execution information back to the execution module; the execution module adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket body based on the second execution information.

According to a preferred embodiment, the threshold information of the first preset humidity information is divided into a plurality of continuous data subintervals; each data subinterval corresponds to at least one piece of execution information respectively; under the condition that the first humidity information falls into a certain data subinterval range, the data processing module can match execution information corresponding to the data subinterval from the condition module, generate second execution information corresponding to the execution information based on the execution information and third humidity information and/or the first temperature information collected by the temperature detection unit, and feed back the second execution information to the execution module.

According to a preferred embodiment, the data subintervals are configured in at least one of the following ways: a caregiver logs in the intelligent module through a manual input module and inputs basic information of the baby to the intelligent module and growth information of the baby according to a certain time interval; the deep learning module can generate a training model based on the infant basic information, the infant growth information, the first humidity information, the second humidity information and the first temperature information, the deep learning module generates suggestion information for modifying the data subinterval based on the training model and pushes the suggestion information to a client, and a caregiver can confirm whether to modify/update the data subinterval according to the suggestion information through the manual input module based on the suggestion information.

According to a preferred embodiment, the infant basket includes a bottom panel and side panels; the bottom plate and the side plates define a bearing space and a protection space of the baby; the mechanical structure module comprises a bottom plate, a mechanical structure module, a cushion body and a mechanical structure module, wherein the cushion body is arranged on the bottom plate, a humidity detection unit and/or a temperature detection unit are/is arranged on the cushion body, and the mechanical structure module further comprises a support mechanism and a walking mechanism; the baby basket body is fixedly connected with the support mechanism; the bracket mechanism is connected with the travelling mechanism in a rotatable manner; the support mechanism is provided with a transverse plate for placing a service terminal integrating the data processing module, the condition module, the deep learning module and the data storage module.

According to a preferred embodiment, the humidity adjusting device and/or the temperature adjusting device comprises a drying device with at least one gear and/or a blow-drying device with at least one gear, wherein the drying device is arranged in the baby basket body and used for bearing electric heating wires of a cushion body of a baby; the blow-drying device is a fan which is laterally arranged on the side plate of the baby basket body; the configuration mode of the execution module is as follows: the selection of the drying device and/or the selection of the drying device are determined based on the second humidity information and/or the first temperature information; the gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls; the gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls.

According to a preferred embodiment, the stroller further comprises an alarm module for sending an alarm instruction, the alarm module is at least in communication connection with the client, wherein the alarm finger at least comprises a prompt message, a warning message and an emergency message, the prompt message is obtained by dividing the alarm message by the data processing module according to the first humidity message, and the prompt message is read out from the condition module and sent to the alarm module by the data processing module when the first humidity message falls into a front sub-zone of the data sub-zone; the warning information is read out from the condition module and sent to the alarm module by the data processing module under the condition that the first humidity information falls into the rear subinterval of the data subinterval; the emergency information is read out from the condition module and sent to the alarm module by the data processing module when the first humidity information exceeds a rear subinterval of the data subinterval.

According to a preferred embodiment, the pad body is provided with a sweat sensor, when the data processing module receives sweat information fed back by the sweat sensor, the data processing module generates fourth execution information based on the sweat information and transmits the fourth execution information to the humidity detection unit, the humidity detection unit collects third humidity information and feeds the third humidity information back to the data processing module, and the data processing module compares the third humidity information with second preset humidity information stored in the condition module based on the third humidity information and generates a second state result of the infant; when the third humidity information is within the threshold information range of the second preset humidity information, the data processing module generates fifth execution information based on the second state result, the humidity detection unit acquires fourth humidity information based on the fifth execution information and/or the temperature detection unit acquires second temperature information based on the fifth execution information, and the data processing module generates sixth execution information based on the execution information stored in the condition module and the third humidity information, the fourth humidity information and/or the second temperature information acquired by the humidity detection unit and feeds the sixth execution information back to the execution module; the execution module adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket body based on the sixth execution information; the sweat sensor is an ISFET-based chemical sensor for measuring data representative of sweat ion concentration.

According to a preferred embodiment, the data processing module comprises: the wireless communication module is used for receiving the humidity information and the temperature information detected by the detection module and sending information; the processor module is used for comparing and processing the humidity information/temperature information detected by the detection module with preset information stored in the condition module and generating execution information; the serial number setting circuit is used for determining the address information of the detection module; and the voltage-stabilizing power supply circuit supplies power to the data processing module.

According to a preferred embodiment, the humidity detection unit, the temperature detection unit and the sweat sensor are respectively connected with the amplifying circuit in parallel in a data mode; the amplifying circuit is in data connection with the data processing module through the A/D conversion circuit.

According to a preferred embodiment, the present invention also discloses a method for controlling the ambient temperature of a stroller based on a wet condition, the method comprising: the baby carrying basket is provided with a humidity detection unit and/or a temperature detection unit and an execution module, wherein the detection module comprises the humidity detection unit and/or the temperature detection unit which are arranged on the baby carrying basket; the execution module at least comprises a humidity adjusting device and/or a temperature adjusting device which are arranged on the baby basket body; the data processing module is used for comparing first humidity information acquired by the humidity detection unit with first preset humidity information stored in the condition module and generating a first state result of the baby; under the condition that the first humidity information is within the threshold value information range of the first preset humidity information, the data processing module generates first execution information based on the first state result, the humidity detection unit acquires second humidity information based on the first execution information and/or the temperature detection unit acquires first temperature information based on the first execution information, and the data processing module generates second execution information based on the execution information stored in the condition module and the first humidity information, the second humidity information and/or the first temperature information acquired by the humidity detection unit and feeds the second execution information back to the execution module; the execution module adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket body based on the second execution information.

The invention provides a baby carriage for controlling the environmental temperature based on the urine wetting condition, which at least has the following advantages:

(1) the invention is different from other prior arts in that the invention directly adjusts the temperature/humidity of the baby carriage according to the defecation condition when the baby is not in time after defecation, but collects the environment (humidity and temperature) of the baby and the physiological state (body temperature) of the baby when the baby is monitored to urinate and defecate, and then generates second execution information based on the collected environment (humidity and temperature), the body temperature of the baby and the humidity of the defecation wet part, so that the execution module can carry out temperature/humidity adjustment on the baby carriage healthily and losslessly, the baby can grow in a safe and comfortable environment, and parents can do other work with confidence.

(2) Considering that the difference of the infant urinating and defecating amount, the threshold value information of the first preset humidity information is divided into a plurality of continuous data subintervals, and because the humidity of the urination and defecating wet position is directly and positively correlated with the urination and defecating amount (urine volume), the humidity of different urination and defecating wet positions should adopt an optimal temperature/humidity adjusting scheme to realize the minimum disturbance to the infant.

(3) The baby is growing continuously, so the dietary structure of the baby changes, the defecation amount of the baby also changes along with the growth, and therefore the threshold value information of the first preset humidity information should change along with the change. The deep learning module can establish or update preset conditions based on the basic information of the baby, the growth information of the baby, the environmental temperature and the humidity, so that the baby carriage can monitor the baby according to the specific living environment and living habits of the baby.

(4) The configuration mode of the execution module is as follows: the selection of the drying device and/or the selection of the blow drying device are determined based on the second humidity information and/or the first temperature information. The gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls. The setting can be decided according to actual conditions with the selection and the gear of execution module like this, and the one hand is energy-conserving, and more importantly does benefit to baby's growth, lets the head of a family relieved.

(5) The baby carriage also comprises an alarm module used for sending an alarm instruction, and the alarm module is at least in communication connection with the client. The alarm instruction at least comprises prompt information, warning information and emergency information, wherein the prompt information, the warning information and the emergency information are divided by the data processing module according to the first humidity information. The arrangement of the partition can enable a nursing person to know the physiological state of the infant in real time more accurately, and when an emergency occurs, the nursing person can make a quick response according to an alarm instruction.

Drawings

FIG. 1 is a logic block diagram of an intelligent module of a crib provided in the present invention;

FIG. 2 is a logic block diagram of a preferred detection module of the present invention;

FIG. 3 is a schematic view of a preferred structure of the present invention;

FIG. 4 is a top view of a preferred construction of the bassinet basket of the present invention; and

fig. 5 is a side view of a preferred construction of the bassinet basket of the present invention.

List of reference numerals

101: the detection module 108: data storage unit

101 a: humidity detection unit 109: manual input module

101 b: temperature detection unit 10: service terminal

101 c: sweat sensor 201: baby basket

101 d: pressure sensor 201 a: base plate

101 e: the amplifier circuit 201 b: side plate

101 f: a/D conversion circuit 201 c: pad body

102: the data processing module 201 d: electric heating wire

103: the condition module 201 e: fan with cooling device

104: the deep learning module 202: support mechanism

105: the alarm module 202 a: transverse plate

106: the client 203: traveling mechanism

107: execution module

Detailed Description

The following detailed description is made with reference to fig. 1 to 5.

In the description of the present invention, the terms "first", "second", "third" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, features defined as "first," "second," "third," and so forth may explicitly or implicitly include one or more of such features. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "inner", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience of description and for simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1

The embodiment discloses a baby carriage for controlling the ambient temperature based on the wet condition of urine, and the whole and/or part of the contents of the preferred embodiments of other embodiments can be used as the supplement of the embodiment under the condition of not causing conflict or contradiction. Under the condition that parents or caregivers are separated from the baby carriage, the humidity of the baby carriage and the body temperature of the baby can be monitored in real time, and the temperature and the humidity of the baby carriage can be adjusted according to the detected humidity and temperature, so that the baby can grow healthily in a comfortable environment.

The present embodiment provides a stroller in which the ambient temperature is controlled based on the wet condition of urine, as shown in fig. 3. The stroller has a mechanical construction module. As shown in fig. 3, the mechanical construction module at least comprises a baby basket body 201 for carrying a baby, and the baby basket body 201 comprises a bottom plate 201a and a side plate 201 b. The bottom panel and the side panels define a carrying space and a protection space for the infant. The mechanical construction module further comprises a carriage mechanism 202 and a travelling mechanism 203. The baby basket 201 is fixed to the support mechanism 202. The carriage mechanism 202 is rotatably connected to the traveling mechanism 203. The mechanical construction module is used for carrying and/or carrying the intelligent module. As shown in fig. 4 and 5, a pad body 201c is disposed on the bottom plate 201a, and a humidity detection unit 101a and/or a temperature detection unit 101b is disposed on the pad body 201 c. Wherein, as shown in fig. 2, a horizontal plate 202a for placing the service terminal 10 integrated with the data processing module 102, the condition module 103, the deep learning module 104 and the data storage module 108 is provided on the bracket mechanism 202. The intelligent modules include at least a detection module 101, a data processing module 102, a condition module 103, and an execution module 107. The detection module 101 includes a humidity detection unit 101a and/or a temperature detection unit 101b disposed on the baby basket 201. The execution module 107 at least comprises a humidity adjusting device and/or a temperature adjusting device arranged on the baby basket body 201. The humidity adjusting device and the temperature adjusting device comprise a drying device with at least one gear and/or a blow-drying device with at least one gear.

As shown in fig. 1, the data processing module 102 performs comparison with the first preset humidity information stored in the condition module based on the first humidity information collected by the humidity detecting unit 101a and generates a first state result of the infant. For example, when the baby urinates or defecates in a swaddle or in a quilt, the humidity detection unit 101a collects the first humidity information and transmits the first humidity information to the data processing module 102 in one of the basket teeth, Wifi and Zigbee, the data processing module 102 preprocesses the first humidity information and extracts characteristic values, such as a humidity change rate and a humidity maximum value, and compares the humidity change rate and the humidity maximum value with the first preset humidity information (a preset humidity change rate threshold value and a preset humidity threshold value) stored in the condition module respectively, and generates a first state result of the baby after the comparison is completed (determining whether the baby urinates or not). When it is determined that the baby is urinated or defecated, if the temperature of the wet area of the stroller is directly lowered according to the state of the baby or the environment where the baby is located, the temperature of the stroller may be adjusted and the health of the baby may be damaged. Therefore, when the first humidity information is within the threshold information range of the first preset humidity information, the data processing module 102 generates first execution information based on the first state result, the humidity detection unit 101a acquires second humidity information based on the first execution information and/or the temperature detection unit 101b acquires first temperature information based on the first execution information, and the data processing module 102 generates second execution information based on the execution information stored in the condition module 103 and the first humidity information, the second humidity information and/or the first temperature information acquired by the temperature detection unit 101a and feeds the second execution information back to the execution module 107. The second humidity information is the environmental humidity of the baby carriage, and the first temperature information at least comprises the body temperature and the environmental temperature of the baby. The data processing module 102 processes the humidity information of the wet part of the baby carriage after defecation, the environment humidity of the baby carriage, the body temperature of the baby and the environment temperature to produce second execution information. The executing module 107 adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket 201 based on the second executing information. For example, when the infant urinates or defecates, the infant may kick the quilt or not kick the quilt, and the two conditions are that the heat on the infant body of the quilt can be rapidly taken away to cause the environmental temperature of the infant to be reduced, and the liquid in the wet area of the infant is difficult to volatilize when the infant does not kick the quilt. Therefore, after the infant is found to be defecating, a healthy, safe and non-destructive temperature/humidity regulation scheme needs to be formed at any time according to the ambient temperature, humidity and physiological state of the infant. It can be seen that the environment in which the infant is located is variable, and the physiological state is also variable. The invention is different from other prior arts in that the invention directly adjusts the temperature/humidity of the baby carriage according to the defecation condition when the baby is not in time after defecation, but collects the environment (humidity and temperature) of the baby and the physiological state (body temperature) of the baby when the baby is monitored to urinate and defecate, and then generates second execution information based on the collected environment (humidity and temperature), the body temperature of the baby and the humidity of the defecation wet part, so that the execution module can carry out temperature/humidity adjustment on the baby carriage healthily and losslessly, the baby can grow in a safe and comfortable environment, and parents can do other work with confidence.

The difference of the defecation amount of the infants is considered. Preferably, the threshold information of the first preset humidity information is divided into several consecutive data subintervals. Each data subinterval corresponds to at least one third execution information respectively. In the case that the first humidity information falls within a certain data subinterval range, the data processing module 102 may match out third execution information corresponding to the data subinterval from the condition module 103, generate second execution information corresponding to the third execution information based on the execution information and the third humidity information and/or the first temperature information collected by the temperature detection unit, and feed back the second execution information to the execution module 107. For example, the threshold information of the first preset humidity information may be set at the liquid saturation of the pad body, and the threshold information of the first preset humidity information is [ 20%, 80% ]. For example, three intervals can be defined in terms of liquid saturation [ 20%, 40%), [ 40%, 60%) and [ 60%, 80%). Each sub-section corresponds to the first third execution information, for example, [ 20%, 40%) corresponds to the third execution information, which is a signal for the humidity detection unit 101a to collect the ambient humidity, and [ 40%, 60%) corresponds to the third execution information, which is a signal for the temperature detection unit 101b to collect the ambient temperature. Since the humidity of the wet area is directly and positively correlated with the amount of urine (urine volume), the humidity of different wet areas should be adjusted by an optimal temperature/humidity adjustment scheme to achieve minimum disturbance to the infant. For example, the humidity of the wet area of the toilet bowl is 35% and falls within the range of [ 20%, 40% ], after the environmental humidity is collected, the data processing module 102 performs data processing on the environmental humidity and the humidity of the wet area of the toilet bowl, determines that the drying with the first gear is adopted, and dries the wet area of the toilet bowl with the drying time of 1 minute. This mode is used in order to effectively determine the appropriate adjustment scheme based on urine volume to ensure minimal disturbance to the infant and to achieve protection of the infant during adjustment.

The baby is growing continuously, so the dietary structure of the baby changes, the defecation amount of the baby also changes along with the growth, and therefore the threshold value information of the first preset humidity information should change along with the change. Preferably, the data subintervals are configured in at least one of the following ways: the caregiver logs in the intelligent module through the manual input module 109 and inputs the basic information of the baby into the intelligent module and the growth information of the baby at certain time intervals. The deep learning module 104 can generate a training model based on the infant basic information, the infant growth information, the first humidity information, the second humidity information and the first temperature information, the deep learning module 104 generates recommendation information for modifying the data subinterval based on the training model and pushes the recommendation information to the client 106, and a caregiver can confirm whether to modify/update the data subinterval according to the recommendation information through the manual input module 109 based on the recommendation information. The deep learning module can establish or update preset conditions based on the basic information of the baby, the growth information of the baby, the environmental temperature and the humidity, so that the baby carriage can monitor the baby according to the specific living environment and living habits of the baby. Specifically, the basic information of the infant includes sex and age. The growth information of the infant includes weight, height and diet. For example, infant a is a boy of 5 months old, the weight is 7kg and the height is 65cm, the diet is full-day breast milk, the threshold information of the first preset humidity information is [ 20%, 80% ], and the data subinterval is divided into three intervals according to the liquid saturation [ 20%, 40% ], [ 40%, 60%), and [ 60%, 80%). When the infant A7 is old, the weight is 8.5kg and 70cm, the diet is adjusted to breast milk for three meals a day and a certain amount of supplementary food is added, the threshold value information of the first preset humidity information of the modification opinions pushed according to the training model is [ 30%, 90% ], and the data subintervals are recommended to be modified to [ 30%, 45%), [ 45%, 60%, [ 60%, 75%) and [ 75%, 90%).

Preferably, the humidity control device and/or the temperature control device comprises a drying device with at least one gear and/or a blow drying device with at least one gear. Wherein, the drying device is arranged in the baby basket body 201 and is used for bearing the heating wire 201d of the cushion body 201c of the baby. The electric heating wire 201d is supplied with power from a power supply device having a variable voltage. The heating voltage of the electric heating wire 201d is 6V, 8V and 12V. The drying device is a fan 201e which is arranged on the side plate of the baby basket body 201. The gear of the fan 201e is divided into natural wind, strong wind and soft wind. The configuration mode of the execution module 107 is as follows: the selection of the drying device and/or the selection of the blow drying device are determined based on the second humidity information and/or the first temperature information. For example, in a high temperature environment, the selection of the drying device may directly cause the temperature of the environment where the baby is located to be increased, which may cause discomfort to the baby. The gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls. For example, if the first humidity information falls into the subinterval of [ 20%, 40%), the heating voltage of 6V may be selected. The gear selection of the blow-drying device is determined based on a certain data subinterval into which the first humidity information falls. For example, if the sub-interval in which the first humidity information falls is [ 20%, 40%), the drying may be performed by using soft wind. The setting can be decided according to actual conditions with the selection and the gear of execution module like this, and the one hand is energy-conserving, and more importantly does benefit to baby's growth, lets the head of a family relieved.

Preferably, the stroller further comprises an alarm module 105 for issuing an alarm instruction, the alarm module 105 being in communication with at least the client 106. The client 106 may be a WeChat APP or QQ terminal. The alarm finger at least comprises prompt information, warning information and emergency information, wherein the prompt information, the warning information and the emergency information are obtained by dividing the alarm information by the data processing module 102 according to the first humidity information. For example, the prompt is read out from the condition module 103 and sent to the alarm module 105 by the data processing module 102 if the first humidity information falls in the front sub-section of the data sub-section. The leading subinterval is the small end of the threshold information, e.g., [ 20%, 50%). The prompt may simply be a sound vibration that is pushed to the caregiver's client. The warning information is read out from the condition module 103 and sent to the alarm module 105 by the data processing module 102 in case the first humidity information falls in the rear sub-section of the data sub-section. The rear subinterval refers to the large end of the threshold information, e.g., [ 50%, 80%). The warning information can be a section of prompting voice that the honored client and the baby are bed wetting. The emergency information is read out from the condition module 103 and sent to the alarm module 105 by the data processing module 102 in case the first humidity information exceeds the rear sub-interval of the data sub-interval. When the value of the first humidity information exceeds 80%, the defecation condition of the baby belongs to the range which cannot be regulated and controlled by the baby carriage, and the emergency information can be a section of buzzing sound and a section of prompt voice, namely a respected client and please take care of the baby immediately.

The humidity in the baby carriage is not only influenced by the urine wetness but also influenced by the sweat wetness, so that the sweat wetness is treated in time. Secondly, when the humidity adjustment unit 101a detects that the humidity is greater than the humidity threshold, the baby is not necessarily a bed-wetting, and there may be a case where the baby is sweating, that is, the baby bed cannot distinguish whether the baby is a bed-wetting or sweating. Preferably, a sweat sensor 101c is provided on the pad. Under the condition that the data processing module 102 receives sweat information fed back by the sweat sensor 101c, the data processing module 102 generates fourth execution information based on the sweat information and transmits the fourth execution information to the humidity detection unit 101a, the humidity detection unit 101a collects third humidity information and feeds the third humidity information back to the data processing module 102, and the data processing module 102 compares the third humidity information with second preset humidity information stored in the condition module based on the third humidity information and generates a second state result of the infant. In the case that the third humidity information is within the threshold information range of the second preset humidity information, the data processing module 102 generates fifth execution information based on the second state result, the humidity detection unit 101a acquires fourth humidity information based on the fifth execution information and/or the temperature detection unit 101b acquires second temperature information based on the fifth execution information, and the data processing module 102 generates sixth execution information based on the execution information stored in the condition module 103 and the third humidity information acquired by the humidity detection unit 101a, the fourth humidity information and/or the second temperature information acquired by the temperature detection unit 101b and feeds the sixth execution information back to the execution module 107. The execution module adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket 201 based on the sixth execution information; sweat sensor 101c is an ISFET-based chemical sensor for measuring data representative of sweat ion concentration. The urination and defecation of the infant can be distinguished by the sweat sensor 101 c.

Preferably, sweat sensor 101c is an ISFET-based chemical sensor for measuring data representative of sweat ion concentration. The sweat sensor 101c is floatably provided to the pad body 201 c. The casing is the measuring surface of the sweat sensor of tubbiness structure and locates the upper surface towards the depressed part of middle part sunken, the edge of depressed part is equipped with convex last border and the middle part of depressed part is equipped with the small-opening and big small opening of under shed, seted up the air vent on the lateral wall of sweat sensor and this air vent is located the first opening of vertical recess one side and is higher than the second opening that is located cylindrical cavity one side, the upper portion of setting at the vertical recess in the lateral wall outside is less than border and lower part parallel and level border down and has lower convex part in the upper portion. The chemical sensor of the ISFET includes an ISFET and wherein the ISFET and the reference electrode are disposed to be in direct contact with the skin of the user. The reference electrode may be selected from the group consisting of an Ag/AgCl electrode, an Ag/AgCl plastic composite electrode, an Ag/AgCl gel electrode, an Ag/AgCl electrode coated with a permeable membrane, a polypyrrole electrode, and a poly 4-ethylenedioxythiophene electrode. The reference electrode may be an Ag/AgCl electrode coated with a permeable membrane and permeated with chloride ions. The reference electrode may be a carbon paste electrode mixed with a mediator, which may be ferrocene or Prussian basket, for example. The reference electrode may be a noble metal reference electrode and/or a pseudo reference electrode, for example, the noble metal may be gold or platinum. The permeable membrane may be selected from the group consisting of polyvinyl butyral, polyhydroxyethylmethacrylate, perfluorosulfonic acid polymers, and combinations thereof.

Preferably, the data processing module 102 comprises: the wireless communication module, processor module, serial number setting circuit and steady voltage supply circuit. The wireless communication module is configured to receive the humidity information and the temperature information detected by the detection module 101 and send information. The invention preferably selects the wireless communication module of NB-lot, EnOcean or Zigbee. EnOcean is an ultra-low power consumption short-distance wireless communication technology based on energy collection, and is used as a preferred wireless communication module of the invention due to obvious advantages in low power consumption and short distance. And the processor module compares and processes the humidity information/temperature information detected by the detection module 101 with preset information stored in the condition module 103 and generates execution information. The processor module has a data calculation function and can be an operation server and a server integrated with a data processing chip. And the number setting circuit is used for determining the address information of the detection module 101. And the voltage-stabilizing power supply circuit is used for supplying power to the data processing module 102.

Preferably, the humidity detection unit 101a, the temperature detection unit 101b, and the sweat sensor 101c are respectively connected in parallel to the amplification circuit 101e in data. The amplifying circuit 101e establishes data connection with the data processing module 102 through an a/D conversion circuit.

Preferably, the humidity detection unit 101a may be one or more of a resistance type lithium chloride hygrometer, a dew point type lithium chloride hygrometer, a carbon humidity sensitive type hygrometer, an aluminum chloride hygrometer, and a ceramic humidity sensor. Preferably, the temperature detection unit 101b is a contact or non-contact temperature sensor.

Preferably, the pad body is further provided with a pressure sensor 101 d. The pressure sensor 101d is also part of the detection module 101. The communication mechanism established by the communication module is consistent with the mechanism established by the temperature detection unit 101b and the humidity detection unit 101a and the data processing module. The pressure sensor 101d is disposed: a data connection is established with the data communication module when emergency information occurs, i.e. the first humidity information exceeds a rear sub-interval of the data sub-interval. If the pressure sensor 101d always records a pressure signal and transmits the pressure signal to the data processing module, the alarm module always sends out emergency information. The pressure sensor 101d is one or more of a semiconductor piezoresistor, an electrostatic capacity type pressure sensor, and a diffused silicon pressure transmitter. This can remind busy caretaker in time to look after the baby for baby's nursing is more humanized.

Preferably, the data storage module 108 stores the detection information of the detection module 101, and the information before and after data processing for each urination and defecation, so as to facilitate the examination by the caregiver.

Example 2

The embodiment discloses a method for controlling the environment temperature of a baby carriage based on the wet condition, and the whole and/or part of the contents of the preferred embodiments of other embodiments can be used as the supplement of the embodiment under the condition of not causing conflict or contradiction. Preferably, the method may be implemented by the system of the present invention and/or other alternative modules. For example, the method of the present invention is implemented by using various modules in the system of the present invention.

Specifically, the method comprises the following steps:

s1: a humidity detection unit 101a and/or a temperature detection unit 101b and an execution module 107 are/is arranged on the baby carrying basket body 201;

wherein, the detecting module 101 comprises a humidity detecting unit 101a and/or a temperature detecting unit 101b arranged on the baby basket body 201; the execution module 107 at least comprises a humidity adjusting device and/or a temperature adjusting device arranged on the baby basket body 201;

s2: the data processing module 102 compares the first humidity information acquired by the humidity detection unit 101a with first preset humidity information stored in the condition module and generates a first state result of the infant;

s3: under the condition that the first humidity information is within the threshold information range of the first preset humidity information, the data processing module 102 generates first execution information based on the first state result, the humidity detection unit 101a acquires second humidity information based on the first execution information and/or the temperature detection unit 101b acquires first temperature information based on the first execution information, and the data processing module 102 generates second execution information based on the execution information stored in the condition module 103 and the first humidity information, the second humidity information and/or the first temperature information acquired by the humidity detection unit 101a and feeds the second execution information back to the execution module 107;

s4: the executing module 107 adjusts the body temperature/body humidity and/or the environment temperature/environment humidity of the baby basket 201 based on the second executing information.

Specifically, the step S3 is preferably:

s31: the threshold value information of the first preset humidity information is divided into a plurality of continuous data subintervals; each data subinterval corresponds to at least one third execution information respectively;

s32: in the case that the first humidity information falls within a certain data subinterval range, the data processing module 102 may match out third execution information corresponding to the data subinterval from the condition module 103, generate second execution information corresponding to the third execution information based on the third execution information and the third humidity information and/or the first temperature information collected by the temperature detection unit, and feed back the second execution information to the execution module 107.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (8)

1. An intelligent module for a baby carriage based on baby growth characteristics, characterized in that the intelligent module comprises at least a detection module (101), a data processing module (102), a condition module (103) and an execution module (107), wherein the detection module (101) comprises a humidity detection unit (101a) and/or a temperature detection unit (101b) arranged on the baby carriage; the data processing module (102) generates second execution information based on the execution information stored in the condition module (103) and first humidity information, second humidity information and/or first temperature information acquired by the humidity detection unit (101a), and feeds the second execution information back to the execution module (107), wherein the first humidity information is the body humidity of a baby basket body (201) of the baby carriage, and the second humidity information is the environment humidity of the baby carriage;

the data processing module (102) is used for comparing first humidity information acquired by a humidity detection unit (101a) with first preset humidity information stored in the condition module (103) and generating a first state result of the baby;

in the case that the first humidity information is within a threshold information range of the first preset humidity information, the data processing module (102) generates first execution information based on the first state result, and the humidity detection unit (101a) acquires second humidity information based on the first execution information and/or the temperature detection unit (101b) acquires first temperature information based on the first execution information;

the execution module (107) adjusts the body temperature and/or the body humidity and/or the environment temperature and/or the environment humidity of the baby carriage based on the first humidity information and/or the second humidity information acquired by the humidity detection unit (101a) and/or second execution information generated by the first temperature information acquired by the temperature detection unit.

2. The intelligent module according to claim 1, wherein the threshold information of the first predetermined humidity information is partitioned into a number of consecutive data subintervals; each data subinterval corresponds to at least one third execution information respectively; under the condition that the first humidity information falls into a certain range of the data subinterval, the data processing module (102) can match out third execution information corresponding to the data subinterval from the condition module (103), generate second execution information corresponding to the third execution information based on the third execution information and the third humidity information and/or the first temperature information collected by the temperature detection unit, and feed back the second execution information to the execution module (107).

3. The intelligence module of claim 2, further comprising a deep learning module (104) capable of generating a training model based on infant basal information, infant growth information, the first humidity information, the second humidity information, and the first temperature information, the deep learning module (104) generating recommendation information for modification of the data subinterval based on the training model and pushing to a client (106), a caregiver being capable of confirming through a manual input module (109) whether to modify/update the data subinterval according to the recommendation information based on the recommendation information.

4. The intelligent module according to claim 3, wherein the humidity adjusting device and/or the temperature adjusting device comprises a drying device with at least one gear and/or a drying device with at least one gear, and the selection of the drying device and/or the selection of the drying device is determined based on the second humidity information and/or the first temperature information; the gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls; the gear selection of the drying device is determined based on a certain data subinterval in which the first humidity information falls.

5. The intelligent module according to claim 4, wherein the stroller further comprises an alarm module (105) for issuing an alarm instruction, the alarm module (105) being in communication with at least the client, wherein the alarm instruction comprises at least a prompt message, an alert message and an emergency message, which are divided by the data processing module (102) according to the first humidity information.

6. The smart module of claim 5 further comprising a sweat sensor (101 c), wherein if the data processing module (102) receives sweat information fed back from the sweat sensor (101 c), the data processing module (102) generates fourth execution information based on the sweat information and transmits the fourth execution information to the humidity detection unit (101a), the humidity detection unit (101a) collects third humidity information and feeds back the third humidity information to the data processing module (102), and the data processing module (102) compares the third humidity information with second preset humidity information stored in the condition module and generates a second status result of the infant.

7. The intelligent module according to claim 6, wherein, in the case where the third humidity information is within the threshold information range of the second preset humidity information, the data processing module (102) generates fifth execution information based on the second state result, the humidity detection unit (101a) acquires fourth humidity information based on the fifth execution information and/or the temperature detection unit (101b) acquires second temperature information based on the fifth execution information, the data processing module (102) generates sixth execution information based on the execution information stored in the condition module (103) and the third humidity information, the fourth humidity information and/or the second temperature information acquired by the humidity detection unit (101a) and/or the temperature detection unit (101b), and feeds the sixth execution information back to the execution module (107); the execution module adjusts the body temperature and/or the body humidity and/or the environment temperature and/or the environment humidity of the baby basket body (201) based on the sixth execution information.

8. The smart module of claim 7 wherein the humidity detection unit (101a), the temperature detection unit (101b), and the sweat sensor (101 c) are each in parallel data connection with an amplification circuit (101 e); the amplifying circuit (101 e) establishes a data connection with the data processing module (102) through an A/D conversion circuit.

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