CN215938072U - Neonate nursing equipment - Google Patents

Abstract

The utility model provides a newborn nursing device, which comprises a frame body; a shell combined and fixed on the frame body; an adjustment mechanism located within the housing; and a support plate positioned on the adjusting mechanism; the supporting plate comprises a plate seat part, a plate back part hinged with one end of the plate seat part and a plate leg part hinged with the other end of the plate seat part; the adjusting mechanism comprises a first rotating assembly and a second rotating assembly; the first rotating assembly comprises a first driving device and a rotating plate; the plate seat part of the support plate is fixedly combined with the rotating plate; the rotating plate is configured to drive the supporting plate to rotate around the axis of the first driving shaft under the driving of the first driving device; the second rotating assembly comprises a second driving device for driving the back part of the plate to rotate relative to the plate seat part and a third driving device for driving the leg part of the plate to rotate relative to the plate seat part. This nursing equipment can carry out multi freedom to neonate's position and adjust.

Description

Neonate nursing equipment

Technical Field

The utility model relates to the technical field of medical instruments. And more particularly, to a newborn care apparatus.

Background

Most neonates need to use a special culture device to provide a clean and constant-temperature environment similar to the uterine cavity of a mother body for a period of time after birth, and particularly for neonates who are born prematurely or suffer from diseases such as congenital heart disease and the like, the neonates need to be placed in a proper culture environment after birth and are assisted with specific monitoring, diagnosis and treatment equipment so that medical staff can culture, nurse, observe, treat, rescue, transfer and the like the neonates.

At present, the crib or the incubator for the newborn frequently used in the medical institution can realize the partial functions to a certain degree, and the equipment is generally designed into a movable common crib with additional simple structures such as a side baffle and the like on the hardware level; the neonate can be placed in a proper position by the support of a mattress, a quilt, a nursing pad and other devices so as to carry out daily care, treatment, postoperative recovery and the like.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides a neonatal care apparatus capable of multi-degree-of-freedom adjustment of the position of a neonate.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a neonatal care apparatus comprising:

a frame body;

a shell combined and fixed on the frame body;

an adjustment mechanism located within the housing; and

the support plate is positioned on the adjusting mechanism;

the support plate comprises a plate seat part, a plate back part hinged with one end of the plate seat part and a plate leg part hinged with the other end of the plate seat part;

the adjusting mechanism comprises a first rotating assembly and a second rotating assembly; the first rotating assembly comprises a first driving device and a rotating plate; the plate seat part of the support plate is fixedly combined with the rotating plate; the rotating plate is configured to drive the supporting plate to rotate around the axis of the first driving shaft under the driving of the first driving device; the axis of the first driving shaft is arranged along the extending direction of the support plate;

the second rotating assembly comprises a second driving device for driving the back part of the plate to rotate relative to the plate seat part and a third driving device for driving the leg part of the plate to rotate relative to the plate seat part.

In addition, preferably, the plate leg part comprises a first plate body and a second plate body hinged with one end of the first plate body; the other end of the first plate body is hinged with the back of the plate; the second rotating assembly further comprises a fourth driving device for driving the second plate body to rotate relative to the first plate body.

In addition, it is preferable that the newborn care apparatus further includes an air circulation device on the frame, the air circulation device includes an air-oxygen mixer, a circulation fan, a humidifier and a heater which are connected in sequence by a pipeline;

the shell comprises an air inlet and an air outlet, the air-oxygen mixer is communicated with the air inlet through a pipeline, and the heater is communicated with the air outlet through a pipeline; the air-oxygen mixer comprises an oxygen tube for connecting oxygen.

In addition, preferably, the casing includes a bottom wall fixed in combination with the frame body, and four side walls hinged to the bottom wall, wherein one side of one side wall far away from the bottom wall is hinged to a cover body.

In addition, it is preferable that the inner side wall of the cover includes a first guide rail, and a detector disposed on the first guide rail and movable in an extending direction of the first guide rail.

In addition, preferably, a second guide rail and a lamp holder disposed on the second guide rail and capable of moving along the extending direction of the second guide rail are disposed on the inner side wall of the housing, and a blue light lamp is disposed on the lamp holder.

In addition, preferably, the support plate comprises a blue light lamp; the blue light lamp is exposed from the surface of the top wall of the support plate.

In addition, it is preferable that the newborn care apparatus further includes an information processing device for analyzing and processing the information acquired by the detector.

In addition, it is preferable that the information processing apparatus includes a wireless network communication module, and the wireless network communication module is configured to transmit the processed and analyzed information to the receiving device.

The utility model has the beneficial effects that:

the utility model can adjust the roll freedom degree and the pitch freedom degree of the neonate by adjusting the posture of the support plate through the adjusting mechanism, comprehensively adjust the body position and the body state of the neonate placed on the support plate through adjusting different freedom degrees, adapt to the requirements of the body position and the body state of the neonate under different situations of nursing, culturing, checking, treating and the like, can quickly adjust the body position of the neonate in a manual or automatic mode, and has simple and convenient operation.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of one embodiment of the present invention.

FIG. 2 is a schematic view of the interior of a housing of one embodiment of the present invention.

Fig. 3 is a side view of one embodiment of the present invention.

Fig. 4 is a cross-sectional view of a housing of one embodiment of the present invention.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the utility model, its application, or uses.

Techniques and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be considered a part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In order to be able to adjust the position of the newborn with multiple degrees of freedom. The utility model provides a neonatal care apparatus, as shown in fig. 1 to 4, specifically comprising: a frame body 10; a housing 20 combined and fixed to the frame body 10; an adjustment mechanism 30 located within the housing 20; and a support plate 40 positioned on the adjusting mechanism 30; the support plate 40 comprises a plate seat part 42, a plate back part 41 hinged with one end of the plate seat part 42, and a plate leg part 43 hinged with the other end of the plate seat part 42; the adjusting mechanism 30 includes a first rotating component and a second rotating component; the first rotating assembly comprises a first driving device 31 and a rotating plate 32; the plate seat 42 of the support plate 40 is combined and fixed with the rotating plate 32; the rotating plate 32 is configured to drive the supporting plate 40 to rotate around the axis of the first driving shaft under the driving of the first driving device 31; the axis of the first driving shaft is arranged along the extending direction of the supporting plate 40; the second rotating assembly includes a second driving means 33 for driving the plate back portion 41 to rotate relative to the plate seat portion 42 and a third driving means 34 for driving the plate leg portion 43 to rotate relative to the plate seat portion 42. The posture of the support plate 40 is adjusted through the adjusting mechanism 30, so that the roll freedom degree adjustment and the pitch freedom degree adjustment can be carried out on the neonate, the posture and the posture of the neonate placed on the support plate 40 are comprehensively adjusted through the adjustment of different degrees of freedom, and the requirements on the posture and the posture of the neonate under different situations such as nursing, culturing, checking and treating are met. Moreover, the position of the newborn can be quickly adjusted in a manual or automatic mode, and the operation is simple and convenient.

In this embodiment, the frame 10 is a lockable wheel-type mobile support, which can function as a component of a fixed device and an auxiliary mobile device, and can lock the roller manually when the mobile device is not needed, and the support and the roller are all known in the art, and the utility model is not limited thereto.

It is understood that the supporting plate 40 is a baby crib, the plate back 41 corresponds to the back of a newborn baby, the plate seat 42 corresponds to the waist of the newborn baby, the plate leg 43 corresponds to the leg of the newborn baby, and the extending direction of the supporting plate 40 is the direction from the head to the tail of the baby crib.

The support plate 40 is controlled by the adjusting mechanism 30 to realize the automatic or manual adjusting function of the multiple degrees of freedom of the body position of the newborn, the support plate 40 is a crib for supporting the newborn, the support plate 40 is positioned on the rotating plate 32, the rotating plate 32 has the rolling freedom degree, the adjusting range is +/-15 degrees so as to help the sick child to slightly incline towards the heart side or the reverse side, and a manual-automatic dual-purpose stepping motor with a hand wheel and arranged at the tail of the crib is used as a first driving device 31 to drive a worm gear mechanism with a first-stage gear reduction, so that the integral rolling of the crib is realized. The absolute encoder is arranged on the stepping motor and used for accurate positioning in an electric adjusting mode, the safety of the structure is guaranteed by the worm and gear mechanism, and mechanical self-locking can be achieved under the power-off condition.

When the newborn infant care equipment is actually used, the first driving device 31 is started, and the first driving device 31 drives the rotating plate 32 and the supporting plate 40 to rotate around the axis of the first driving shaft through the first driving shaft, so that the newborn infant care equipment is in a first state; and/or activating the second drive means 33, the second drive means 33 driving the plate back portion 41 to rotate relative to the plate seat portion 42 such that the neonatal care apparatus is in the second state; and/or activating the third drive means 34, the third drive means 34 driving the plate leg portion 43 to rotate relative to the plate seat portion 42 such that the neonatal care apparatus is in the third state. The three states can be carried out simultaneously or respectively according to the requirements of actual conditions, so that the requirements of proper body position and body state are met.

In one embodiment, the plate leg 43 includes a first plate 431 and a second plate 432 hinged to one end of the first plate 431; the other end of the first plate body 431 is hinged with the plate back part 41; the second rotating assembly further comprises a fourth driving device 35 for driving the second plate 432 to rotate relative to the first plate 431, the supporting plate 40 is composed of four parts, wherein the second part, namely the plate seat part 42, is fixedly combined with the rotating plate 32, the supporting plate is in a horizontal state when the rolling freedom of the rotating plate 32 is not adjusted, the first part, namely the plate back part 41, is hinged with the plate seat part 42, the third part, namely the first plate 431 of the plate leg part 43, is hinged with the plate back part 41, the adjusting angle is 0-30 degrees, the fourth part, namely the second plate 432 of the plate leg part 43, is hinged with the first plate 431, the adjusting angle is 0-30 degrees, and the three adjusting positions of the pitching freedom respectively correspond to the back, hip and knee positions of the newborn. Similarly, the three parts with the freedom of pitch are driven by a manual-automatic stepping motor with a hand wheel and an absolute encoder through a worm gear mechanism with a one-stage gear reduction, and the hand wheels of the first driving device 31, the second driving device 33 and the third driving device 34 are all arranged on the side surface of the crib, namely the supporting plate 40.

In the prior art, a nasal catheter structure similar to an adult patient is usually used for a newborn infant to be attached beside a nose for supplying breathing oxygen; an external infrared heater 54 or a warm air blower is used for providing a suitable temperature environment for the neonate; monitoring key vital signs of the neonate using a contact sensor; the external blue light lamp 28 and other third-party equipment are used for treating common diseases such as neonatal jaundice. Above-mentioned setting has lacked cultivation environmental control function and has used external equipment to cause cultivation environmental control poor stability, use traditional contact vital sign monitoring and treatment instrument to cause harm such as neonate's skin allergy and infection easily.

In a specific embodiment, the apparatus further comprises an air circulation device on the frame body 10, wherein the air circulation device comprises an air-oxygen mixer 51, a circulation fan 52, a humidifier 53 and a heater 54 which are connected in sequence through a pipeline; the shell 20 comprises an air inlet and an air outlet, the air-oxygen mixer 51 is communicated with the air inlet through a pipeline, and the heater 54 is communicated with the air outlet through a pipeline; the air-oxygen mixer 51 includes an oxygen tube for introducing oxygen. The closed housing 20 enables control of the environment inside the housing 20 by means of an air circulation device.

As shown in fig. 3, the front and rear ends of the bottom wall 21 are provided with an air inlet and an air outlet, through which the internal space is connected to the air circulation device. The air circulation device is integrally installed in the receiving box 70 below the housing 20, and is composed of a sealed air duct, and a control valve and various functional devices in the duct. Specifically, the air in the housing 20 passes through the air inlet, the air-oxygen mixer 51, the circulation fan 52, the humidifier 53, and the heater 54 in this order in the flow direction, and is finally discharged into the housing 20 from the air outlet.

Further, air in the culture space inside the housing 20 is sucked into the pipeline through the air inlet, enters the air mixer 51 through one inlet of the air mixer 51, and is mixed with medical oxygen introduced through the other inlet of the air mixer 51. The medical oxygen accessed by the air-oxygen mixer 51 has two independent sources, one is direct oxygen supply accessed by an oxygen pipe, the other is oxygen stored in an oxygen bottle (used for mobile equipment) in an equipment component cabinet 80 positioned on the frame body 10, and the on-off and flow of the oxygen from the two sources are controlled by an electromagnetic valve, so that the adjustment of the ambient air components of the newborn is realized.

A circulating fan 52 is connected to the outlet of the air-oxygen mixer 51, and the circulating fan 52 pushes the air in the pipeline to flow through the fan blades driven by electric power. When the cover 23 is closed, the air circulation device and the culture space inside the casing 20 are driven by the circulation fan 52 to form a complete air circulation.

The humidity of the air in the environment where the newborn is located is adjusted through a humidifier 53 in the air circulation device, the circulated air enters the humidifier 53 after passing through an air circulation fan 52, the humidifier 53 uses a commercial humidifier 53 module, and the relative humidity of the air flowing through the humidifier 53 is increased by using pure water. A purified water bottle supplying a purified water source of the humidifier 53 is located in the equipment assembly cabinet 80 at the lower side of the accommodating case 70.

The circulating air passes through the humidifier 53 and enters the heater 54, and the air passing through the heater is directly heated by using an electric heating wire driven by electricity, so that the air temperature is controlled and the air temperature of the environment where the newborn is located is adjusted.

Circulating air enters the culture space in the shell 20 from the air outlet after passing through the heater 54, and the air outlet and the air inlet are both in porous grid structures, so that the direct-blowing wind sensation is reduced as much as possible on the premise of ensuring smooth circulation of air.

In addition, the position of the side wall 22 close to the air inlet is provided with a ventilation fence structure provided with a filter screen, so that the sealing risk of the inner space when a fault occurs is prevented, and the air pressure in the inner newborn culture space when oxygen is mixed into the air circulation air duct can be balanced.

The oxygen mixing ratio of the air-oxygen mixer 51, the on/off and flow rate of the oxygen source solenoid valve, the rotation speed of the circulation fan 52, the power of the humidifier 53, the power of the heater 54, and other parameters are collectively controlled by the information processing device 60.

As shown in fig. 3, an environment monitoring sensor 55 is disposed in the middle of the fence structure of the air outlet, and includes an air oxygen content sensor, an air temperature sensor and an air humidity sensor, and the sensors are used to collect information such as oxygen content, temperature and humidity of the air at the air outlet in real time, and transmit the collected information to the information processing device 60 in real time through a data line. The actual values of the indices such as the atmosphere, temperature, and humidity of the air detected by the environment monitoring sensor 55 are received in real time by the information processing device 60, compared with the set values, and the air circulation device is controlled in real time by the information processing device 60 to adjust the indices.

In a specific embodiment, the housing 20 includes a bottom wall 21 fixed to the frame 10, and four side walls 22 hinged to the bottom wall 21, wherein a cover 23 is hinged to a side of one of the side walls 22 away from the bottom wall 21. With the housing 20 and the independent air circulation device, a quasi-closed independent culture space and culture environment with good isolation effect are provided for the neonate.

As shown in fig. 2, four vertically disposed side walls 22 are disposed at the edge of the bottom wall 21, the main structure of each side wall 22 is composed of a metal protective frame and a transparent organic glass plate, the rear side wall 22 and the two side walls 22 are both planar structures, and the front side wall 22 is an arc-shaped structure. The side walls 22 in the four directions are hinged to the bottom wall 21 through damping hinges, and the four side walls 22 can be independently closed at vertical angles and can be manually opened downwards.

The upper edge of the rear side wall 22 is connected to an arc-shaped cover 23 through a damping hinge, the cover 23 is made of integrally formed transparent organic glass, so that the state of the newborn can be observed from the outside, and the cover 23 can be closed in a horizontal position and can also be opened upwards. The rear side wall 22 and the bottom wall 21 can be fixed to be always in a vertical state in order to facilitate the opening and closing of the cover 23. When the side wall 22 and the cover 23 are closed, a relatively closed inner space is defined by the bottom wall 21, the side wall 22 and the cover 23, and the crib and the adjustment mechanism 30 are enclosed in the inner space to provide a relatively independent culture environment for the newborn infant.

When medical personnel need inspect, nursing or remove the neonate, can open lateral wall 22 and lid 23, convenient operation, further, sealed rubber circle is all installed at the edge of lateral wall 22 and lid 23, and its inside sealed effect of cultivateing the space when can further improve casing 20 closure also can play the effect of bradyseism when opening and shutting the operation.

In this embodiment, the inner side wall 22 of the cover 23 includes a first guide rail 24, and a detector 25 disposed on the first guide rail 24 and capable of moving along the extending direction of the first guide rail 24. The real-time non-contact monitoring can be carried out on key vital signs such as the body temperature, the pulse and the jaundice level of the newborn and video image information.

As shown in fig. 4, an arc-shaped first guide rail 24 is arranged at the center of the cover 23, the first guide rail 24 stretches across the upper part of the newborn culture space in front and back, and is attached to and fixed on the inner wall of the cover 23, a movable detector 25 base is arranged on the arc-shaped first guide rail 24, the base can be driven by a self-contained electric motor and can freely move along the first guide rail 24, a rotatable cradle head is arranged on the detector 25 base, the cradle head is driven by a self-contained micro electric motor and can rotate by taking the vertical direction as an axis, the rotation angle range of the cradle head is-45 degrees to-45 degrees, the detector 25 is arranged on the cradle head, and the cradle head is opposite to the position of a newborn tray below when the cradle head does not rotate.

Under the control of the control signal output by the information processing device 60, the base of the detector 25 can move along the arc-shaped guide rail to keep the position closest to the specific part to be detected of the body of the newborn, and the orientation of the detector 25 to the part to be detected can be always kept by rotating the cradle head. Through the adjustment of the two degrees of freedom, the measurement accuracy of the detector 25 on various vital signs of the newborn is improved.

The detector 25 is designed in an integrated manner, and a body temperature measuring infrared optical detector, a pulse measuring optical detector, a jaundice measuring optical detector and a wide-angle lens CCD camera for shooting images of the newborn are integrated in the detector 25. After the cover 23 is closed, the detectors can acquire vital signs of the neonate such as body temperature, pulse, jaundice level, etc., in real time, acquire a neonate monitoring image, and transmit the information to the information processing device 60.

In a specific embodiment, the inner side wall 22 of the housing 20 is provided with a second guide rail 26 and a lamp holder disposed on the second guide rail 26 and capable of moving along the extending direction of the second guide rail 26, and the lamp holder is provided with a blue light lamp.

As shown in fig. 4, second guide rails 26 are installed on the opposite side walls 22 in a horizontal direction, and lamp sockets are installed on the second guide rails 26 and can be moved forward and backward along the second guide rails 26 by an electric motor provided thereto. The lamp holder is provided with a strip-shaped blue light lamp, and the light source of the blue light lamp adopts a semiconductor light-emitting diode with the emission wavelength of 400 nm. Under the control of the information processing device 60, the lamp holder can drive the blue light lamp to move along the second guide rail 26 so as to keep right facing to the body of the newborn baby and avoid irradiating the eyes and the genital organs of the newborn baby. Be convenient for treat neonatal jaundice, the adjustable blue light lamp direction of illumination of real-time video image information of cooperation neonate improves treatment effeciency, effectively protects neonate's eyes and reproductive organ simultaneously, reduces the degree of difficulty when medical personnel carry out the treatment operation.

In order to irradiate the newborn from the back side of the body of the newborn, the support plate 40 comprises a blue light lamp 28; the blue light lamp 28 is exposed from the top wall surface of the support plate 40. The surface of the support plate 40 is designed by the blue light lamp 28, and when the support plate 40 is opened, the whole support plate 40 emits blue light with the wavelength of 400nm, so that the blue light can be used for irradiating the body of a newborn and treating common neonatal jaundice diseases.

In a particular embodiment, the apparatus further comprises an information processing device 60 for analyzing the information acquired by the detector 25.

As shown in fig. 1, the apparatus includes a stand column fixed to the frame body 10, and an information processing device 60 is installed at a middle position of the stand column to control and process information of the entire apparatus.

The information processing device 60 obtains data such as the oxygen content, temperature, humidity, etc. of the air collected by the detector 25 in real time through a built-in data collection card. By comparing the data with preset values, parameters such as oxygen mixing proportion of the air-oxygen mixer, on-off and flow of an oxygen pipeline electromagnetic valve, rotating speed of a circulating fan, power of a humidifier, power of a heater and the like are controlled in real time, so that closed-loop control of conditions of links such as atmosphere, temperature, humidity and the like in the internal space of the equipment is realized.

The information processing device 60 may be a computer, and the computer acquires information such as the body temperature, pulse, jaundice level, and monitoring video image of the newborn collected by the detector 25 through a built-in data collection card. The computer compares the acquired data such as body temperature, pulse, jaundice level and the like with a safety threshold value set in advance, if the situation exceeding the threshold value is found, a warning signal is generated, and a corresponding warning state is displayed through the interactive control touch screen 11 and a state indicator lamp above the screen.

The computer analyzes the acquired monitoring image of the newborn in real time, and dynamically adjusts the base position and the holder orientation of the detector 25 according to the posture of the newborn in the monitoring image, so that the detector is always positioned at the orientation angle which is nearest to and opposite to the body area to be detected of the newborn which is set in advance. When the blue light is used for irradiating and treating jaundice, the position of the lamp holder on the second guide rail 26 is dynamically adjusted according to the posture of the newborn in the monitored image, so that the blue light is kept facing the body of the newborn and simultaneously direct irradiating eyes and reproductive organs of the newborn is avoided. In addition, the computer also judges whether the posture of the newborn is abnormal in real time, generates a warning signal immediately when the abnormality is found, and displays corresponding warning states through the interactive control touch screen 11 and a state indicator lamp above the screen.

The computer is connected with an interactive touch screen 11 above through a data cable, and sends information such as oxygen content, temperature, humidity, neonatal body temperature, pulse, jaundice level, monitoring images, abnormal state warning signals and the like in the culture space to the screen in real time and displays the information through the screen. Meanwhile, the interactive touch screen 11 sends the acquired parameters such as oxygen content, air temperature and humidity set by the medical staff to the computer.

In this embodiment, the information processing apparatus 60 includes a wireless network communication module configured to transmit the processed and analyzed information to a receiving device. The computer is internally provided with a wireless network communication module so as to be accessed into an indoor wireless local area network, and all the collected signals, monitoring images and warning information can be transmitted to a superior server through the wireless local area network so as to be checked by medical personnel in real time.

In conclusion, the information processing device can be used for completing the real-time acquisition and storage of data such as neonatal culture environment indexes, neonatal vital signs, neonatal video images and the like; analyzing the data by using an information processing device, and dynamically feeding back and adjusting indexes such as the orientation of the detector, the orientation of the blue light illuminating lamp, the air atmosphere, the temperature, the humidity and the like of the culture environment in real time according to an analysis result; controlling a display screen to display the acquired data and the analysis result in real time through an information processing device; the information processing device is connected with a wireless network, so that acquired data and analysis results are transmitted in real time, and medical care personnel, parents of newborn and the like can obtain the data remotely; when the information processing device finds that the environmental index, the vital sign or the posture of the newborn are abnormal, the warning signal is sent out through the screen and the status indicator lamp, and meanwhile, the warning information is sent out through the network, so that medical personnel can find the abnormal condition in time and handle the abnormal condition.

This nursing equipment adopts the incessant constant voltage power supply of interchange commercial power to supply power, is equipped with equipment power module and battery in equipment module cabinet, and power module is responsible for exchanging the conversion and the control etc. of commercial power, when needs remove the equipment of diagnosing or take place emergency power-off, the battery can provide the electric energy and keep equipment normal operating.

The utility model provides a newborn nursing device which is high in function integration level, and can realize posture multi-degree-of-freedom adjustment, intelligent monitoring of a culture environment, real-time non-contact monitoring of vital signs, treatment of common diseases of a newborn, real-time acquisition, storage, analysis, display, transmission and early warning of data such as the culture environment, the vital signs of the newborn, video images and the like required by newborn culture and diagnosis and treatment through one nursing device.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all embodiments may not be exhaustive, and all obvious variations or modifications may be included within the scope of the present invention.

Claims (9)

1. A neonatal care apparatus, characterized by comprising:

a frame body;

a shell combined and fixed on the frame body;

an adjustment mechanism located within the housing; and

the support plate is positioned on the adjusting mechanism;

the support plate comprises a plate seat part, a plate back part hinged with one end of the plate seat part and a plate leg part hinged with the other end of the plate seat part;

the adjusting mechanism comprises a first rotating assembly and a second rotating assembly; the first rotating assembly comprises a first driving device and a rotating plate; the plate seat part of the support plate is fixedly combined with the rotating plate; the rotating plate is configured to drive the supporting plate to rotate around the axis of the first driving shaft under the driving of the first driving device; the axis of the first driving shaft is arranged along the extending direction of the support plate;

the second rotating assembly comprises a second driving device for driving the back part of the plate to rotate relative to the plate seat part and a third driving device for driving the leg part of the plate to rotate relative to the plate seat part.

2. The neonatal care apparatus of claim 1, wherein the plate leg portion comprises a first plate and a second plate hinged to one end of the first plate; the other end of the first plate body is hinged with the back of the plate; the second rotating assembly further comprises a fourth driving device for driving the second plate body to rotate relative to the first plate body.

3. The neonatal care apparatus of claim 1, further comprising an air circulation device on the frame, the air circulation device comprising an air-oxygen mixer, a circulation fan, a humidifier, and a heater connected in sequence by a pipeline;

the shell comprises an air inlet and an air outlet, the air-oxygen mixer is communicated with the air inlet through a pipeline, and the heater is communicated with the air outlet through a pipeline; the air-oxygen mixer comprises an oxygen tube for connecting oxygen.

4. The neonatal care apparatus of claim 1, wherein the housing includes a bottom wall fixedly coupled to the frame, and four side walls hinged to the bottom wall, wherein one side of one of the side walls remote from the bottom wall is hinged to the cover.

5. The neonatal care apparatus of claim 4, wherein the inner sidewall of the cover includes a first rail, and wherein the detector is disposed on the first rail and is movable in a direction in which the first rail extends.

6. The neonatal care apparatus of claim 1, wherein a second rail and a lamp holder disposed on the second rail and movable in an extending direction of the second rail are disposed on an inner side wall of the housing, and a blue light lamp is disposed on the lamp holder.

7. The neonatal care apparatus of claim 1, wherein the support plate includes a blue light lamp thereon; the blue light lamp is exposed from the surface of the top wall of the support plate.

8. The neonatal care apparatus of claim 5, further comprising an information processing device for analyzing and processing the information acquired by the detector.

9. The neonatal care apparatus of claim 8, wherein the information processing device comprises a wireless network communication module configured to transmit the processed and analyzed information to a receiving device.

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