CN113808718A - Seal accuse formula obstetrical department intelligent management system - Google Patents

Abstract

The invention belongs to the technical field of intelligent management and application integration innovation, and particularly relates to a sealed control type obstetrical intelligent management system which comprises a family hall, a family area, a family swimming pool, a baby swimming pool, a puerperal health care area, a maternal and infant room, a delivery room, an intelligent nurse station, a storehouse, a control room, an consultation room, a dressing room and the like, wherein the current management mode and physical environment are reformed based on the Internet of things, big data, digital twinning, audio-visual fusion and artificial intelligent technologies by establishing the functions of a regional module, designing the management mode and developing a matched service type hardware device, so that the comprehensive management of the obstetrical department is changed from a manpower support type to a scientific and technological support type, the sealed control type intelligent system management is realized in space and work flow, the work efficiency of medical care personnel is improved, and the family and maternal and infant family relation mutual dynamic sense is increased; the medical care and the family members are assisted to complete partial work content, and the number of the family members and the work intensity of medical care personnel are reduced.

Description

Seal accuse formula obstetrical department intelligent management system

Technical Field

The invention belongs to the technical field of intelligent management and application integration innovation, and particularly relates to a sealed control type obstetrical intelligent management system.

Background

Maternal and child health care is the important part of the medical health system and is responsible for ensuring the safety and health of mothers and infants, obstetrics are the core departments of maternal and child health care, and the optimization management of the obstetrics has great influence on improving the diagnosis and treatment service efficiency of medical care personnel and improving the affection of the maternal and child health and family members. The puerpera in the childbirth period is weak in body, heavy in body pressure and inconvenient to move, and the congenital sensation of the newborn baby makes the human loved in the childhood, so that the puerpera often needs a plurality of family members or caregivers to attend and care simultaneously when the puerpera enters a delivery room for delivery and childbirth, and the service workload of related medical care personnel is obviously higher than that of a non-gynecological department. The sudden new crown epidemic situation in 2020 brings unprecedented challenges to the management of hospitals, the hospitals serving as public medical service institutions for rescuing and supporting injuries can not carry out totally-enclosed management in the period of the epidemic situation, especially obstetrical department, maternal and infant are in the weak stage of the body, the childbirth time and maternal and infant care can not be adjusted, and how to realize the safe and comprehensive closed control type management and service of the obstetrical department becomes the problem to be solved urgently.

Based on the actual situation of the existing epidemic situation environment with high probability for a long time and the actual characteristics of the obstetrical work, the invention develops a sealed control type obstetrical intelligent management system, changes the existing management mode and physical environment by relying on the Internet of things, big data, digital twinning, audio-visual fusion and artificial intelligence technology, realizes the conversion of the comprehensive management of the obstetrical work from a manpower support type to a scientific support type, realizes sealed control type intelligent system management from space and work flow, improves the work efficiency of medical personnel, and increases the mutual dynamic effect of family members and maternal and infant parent situations; meanwhile, service type hardware equipment matched with the medical care personnel is developed to assist the medical care personnel and family members to complete partial work content, and the number of the family members and the work intensity of the medical care personnel are reduced.

Disclosure of Invention

A closed control type obstetrical intelligent management system comprises a family hall 1, a family area 2, a baby swimming pool 3, a puerpera health area 4, a woman and baby room 5, a delivery room 6, an intelligent nurse station 7, a storehouse 8, a control room 9, a consultation room 10 and a dressing room 11;

a first-level entrance guard is arranged at the entrance of the family hall 1, and a labor information display screen is arranged inside the family hall; the familiarity area 2 is communicated with the family hall 1 through a secondary access control, a disinfection temperature measurement module is arranged after entering the secondary access control, and three independent areas of a direct broadcast space, an interactive space and a parent-child space are arranged inside the family hall;

the infant swimming pool 3, the puerpera health-care area 4 and the maternal and infant room 5 are arranged in the same area, are activity areas of the puerpera, are communicated with the familiarity area 2 through a three-level access control, and are adjacently arranged with the parent space through a transparent partition window; the puerpera health care area 4 is a body-building health care space, auxiliary equipment including a follow-up body-building machine and a fixed health-care machine is arranged in the puerpera health care area, and display experience items including a pleasant viewing area and a leisure experience area are arranged in the puerpera health care area; the baby room 5 is a baby living space, functional equipment including a baby carriage and a baby bed is arranged in the baby room, information display equipment including a teaching machine and a bed head screen is arranged in the baby room, and auxiliary equipment including a sitting-up auxiliary machine and a follow-up infusion machine is arranged in the baby room; a door edge screen is arranged outside the door of the maternal and infant room 5;

the teaching machine comprises virtual experience of a two-dimensional video case and a multi-dimensional reality case;

the bedside screen is an image display device, is connected with the central control management system, displays the physical parameters and the diagnosis and treatment parameters of the lying-in woman in real time, and displays the parameters on the door side screen and the nurse electronic board in a split screen switching mode;

a positioning bracelet is arranged in the activity area of the puerpera and has the functions of wireless network connection positioning and health management parameter acquisition;

the delivery room 6, the intelligent nurse station 7, the storehouse 8, the control room 9, the consultation room 10 and the dressing room 11 are arranged in the same area, are special areas for the work of medical workers and are communicated with the activity areas of the lying-in women through four-level access controls;

the delivery room 6 is a parturient delivery room, and three functional modules of a labor management system, an on-line acquisition device and a scientific research acquisition device are arranged in the delivery room;

the intelligent nurse station 7 is a nurse office service place, is provided with work management equipment comprising a nurse electronic board and a central control management system, and is provided with auxiliary service equipment comprising a bed changing assistor and a medicine delivery robot; the intelligent nurse station 7 is provided with an open window for the activity area of the lying-in woman;

the storehouse 8 is a classified storage area for the materials commonly used by the delivery room and comprises a consumable material management module and a medicine management module;

the control room 9 is provided with a data management module, and the consultation room 10 is provided with a remote conference module;

medical personnel firstly enter the dressing room 11 of the working area through the medical access control, and an intelligent dressing cabinet is arranged in the dressing room 11.

The further scheme is that the primary access control authority is authorized to the lying-in woman and all authentication family members, the secondary access control authority is authorized to the lying-in woman and the family members appointed by the lying-in woman, and the primary access control authority and the secondary access control authority are handled on a three-party coordination platform; the three-level access control authority is authorized to the puerpera and the family members of the accompanying bed, the four-level access control authority and the medical access control authority are authorized to the medical personnel and the franchisee, and the three-level access control authority, the four-level access control authority and the medical access control authority are handled in the intelligent nurse station; the access control at each level adopts two schemes of a wireless radio frequency sensor (manual card swiping) and a face recognition sensor.

The parturient dynamic exercise management system is characterized in that a local area network and an internet of things are arranged in a delivery room area, the internet of things is connected with all devices and modules in the delivery room area, a plurality of audio and video acquisition sensors are arranged in an area where a parturient can move and are connected with the local area network, and the local area network is in intercommunication connection with the internet of things;

the central control management system is a center of the delivery room intelligent management system, is connected with all equipment and modules in a delivery room area through a network, realizes the acquisition, input and output of data information, has the functions of data analysis and calling, and has the functions of operation, judgment and controlled release of artificial intelligent control instructions;

the data management module is connected with the central control management system to realize the storage, classification and calling of data; the data management module is directly connected with the remote conference module and provides online data support for remote consultation;

the nurse electronic board is an output device for information display, is connected with the central control management system, displays the working state data of all equipment and modules in real time, and performs split-screen display and classification early warning according to the warning level of the data.

The parturient childbirth process is subdivided by the parturient childbirth management system according to the conventional medical process, the parturient childbearing process information is transmitted to the central control management system in real time, and the system distributes the parturient childbearing process information to the nurse electronic board, the parturient childbearing process information display screen, the door edge screen and the parturient family mobile phone in real time according to the preset authority, so that the doctor-patient communication capacity and timeliness are expanded, and the efficiency of the conventional flow operation of medical care personnel is improved; for unconventional unexpected accidents in the labor process, the central control management system carries out artificial intelligence judgment according to historical big data comparison, and pushes the advice information to the electronic nurse board and the display screen in the delivery room 6 to provide reference information on one hand.

The further scheme is that audio and video live broadcast equipment, audio and video fusion live broadcast equipment and virtual simulation live broadcast equipment are preferably arranged in the live broadcast space, and an acquisition sensor of the live broadcast equipment is called as a live broadcast acquisition device and is arranged in a delivery room 6;

the interaction space and the puerpera health-care area 4 are adjacently arranged through the transparent partition window, so that visual affection and affection interaction is realized;

the facility audio and video acquisition device in the three-party coordination platform acquires audio and video after the puerpera, the family members and the medical care three parties agree, and uploads the audio and video to the central control management system and the data management module;

the remote conference module is provided with scientific research audio-video equipment, an acquisition sensor of the audio-video equipment is called a scientific research acquisition device, and the scientific research acquisition device is arranged in the delivery room 6 and is connected with the central control management system;

the live broadcast acquisition device consists of a plurality of groups of fixedly arranged video sensors 6-3, and the acquisition visual angle is fixed; the scientific research acquisition device consists of a plurality of groups of fixedly arranged audio and video sensors 6-1, a viewfinder 6-2, a wide-angle video sensor 6-4 and a flexible video sensor 6-5 which are arranged on the viewfinder 6-2; the viewfinder 6-2 comprises a movable support and shading cloth, the movable support can move up and down, left and right along a track arranged in the air, and the shading cloth can block and reflect light rays of the appointed part of the delivery bed.

A further aspect is that the sit-up aid and the follow-up exercise machine comprise: the device comprises a lower shell 4-1, a first platform 4-2, a battery 4-3, a second platform 4-4, an annular guide rail 4-5, an upper shell 4-6, a third platform 4-7, a fixed handrail 4-8, a handrail guide rail 4-9, a lifting handrail 4-10, a lifting platform 4-11, a lead screw 4-12, a conductive slip ring 4-13, an electromagnet 4-14, a fixed column 4-15, a support 4-16, a lock hole plate 4-17, a vacuum pump 4-18, a cylinder 4-19, a suction disc platform 4-20, a suction disc platform guide rail 4-21, a vacuum suction disc 4-22, a motion chassis 4-23 and a universal wheel 4-24;

the lower shell 4-1 and the upper shell 4-6 are hollow box-shaped structures with the same horizontal section shape and size, and are rotatably connected through an annular guide rail 4-5, the bottom of the lower shell 4-1 is fixed on a moving chassis 4-23, and a plurality of universal wheels 4-24 are arranged and installed at the bottom of the moving chassis 4-23; a first rigid platform 4-2 and a second rigid platform 4-4 are arranged in the lower shell 4-1, a cavity area below the first platform 4-2 is provided with an adsorption stabilizing device, and a cavity area between the two layers of platforms is provided with a battery 4-3; a rigid third platform 4-7 is arranged in the upper shell 4-6, a cavity area between the second platform 4-4 and the third platform 4-7 is provided with a rotary locking device, a cavity area above the third platform 4-7 is provided with a lifting device, and the center of the third platform 4-7 is provided with a conductive slip ring; the top of the upper shell 4-6 is provided with a fixed handrail 4-8;

the adsorption stabilizing device comprises: 4-18 parts of vacuum pump, 4-19 parts of air cylinder, 4-20 parts of sucker platform, 4-21 parts of sucker platform guide rail and 4-22 parts of vacuum sucker; the vacuum pump 4-18 is fixed on the lower surface of the first platform 4-2, the air cylinder 4-19 is fixed in the center of the lower surface of the first platform 4-2, the telescopic end of the air cylinder 4-19 is fixedly connected with the sucker platform 4-20, the sucker platform 4-20 is a rigid plane plate, a plurality of process holes and slide rail holes are annularly formed in the sucker platform 4-20, a plurality of vacuum suckers 4-22 are arranged and respectively fixedly installed in the process holes of the sucker platform 4-20, and air pipes of the vacuum suckers 4-22 are connected with the vacuum pump 4-18; a plurality of sucking disc platform guide rails 4-21 are vertically arranged and pass through sliding rail holes of the sucking disc platforms 4-20, the upper ends of the sucking disc platform guide rails are fixed on the first platform 4-2, and the lower ends of the sucking disc platform guide rails are fixed on the moving chassis 4-23;

the rotation locking device includes: 4-14 parts of electromagnet, 4-15 parts of fixed column, 4-16 parts of support and 4-17 parts of lock hole plate; the upper parts of the electromagnets 4-14 are fixed on the lower surface of the third platform 4-7, the lower parts of the electromagnets are planar adsorption ends, the fixed columns 4-15 are rigid straight rod-shaped and are vertically arranged, the upper parts of the fixed columns are fixed on the lower surface of the third platform 4-7, the lower parts of the fixed columns are suspension ends, and the suspension ends are positioned at positions lower than the adsorption planes of the electromagnets 4-14; the support 4-16 is a rigid inverted T-shaped structure, the lower part of the support is a limiting seat and is fixed on the upper surface of the second platform 4-4, the upper part of the support is a plurality of rigid straight rod ends which are vertically arranged, and the height of each straight rod end is higher than the adsorption plane of each electromagnet 4-14; the lockhole plate 4-17 is a rigid plane plate, support holes and locking holes are arranged on the lockhole plate 4-17, the number and the diameter of the support holes are butted with the straight rod ends of the supports 4-16, the number and the diameter of the locking holes are butted with the fixed columns 4-15, and the support holes of the lockhole plate 4-17 are stably placed on the straight rods of the supports 4-16 and are supported by the limiting seats under normal state;

the lifting device comprises: 4-9 parts of handrail guide rails, 4-10 parts of lifting handrails, 4-11 parts of lifting platforms and 4-12 parts of lead screws; the upper ends of the handrail guide rails 4-9 and the lead screws 4-12 are fixed at the top of the upper shell 4-6, the lower ends of the handrail guide rails 4-9 and the lead screws 4-12 are fixed on the upper surface of the third platform 4-7, the lifting platform 4-11 is of a rigid plane structure, is connected with the lead screws 4-12 through driving holes and is connected with the handrail guide rails 4-9 through guide rail holes, the lifting handrails 4-10 are connected on the upper surface of the lifting platform 4-11 through rigid horizontal slide rails, and the right part of the upper shell 4-6 is provided with working holes of the lifting handrails 4-10;

the wires of the conductive slip ring are connected with the battery 4-3 and the electric device in the upper shell 4-6.

Further, the follow-up infusion machine and the medicine delivery robot comprise: 5-1 parts of a rack body, 5-2 parts of a medicine chest module, 5-3 parts of an auxiliary lifting rod, 5-4 parts of a main lifting rod, 5-5 parts of a monitoring camera, 5-6 parts of a scale clamp, 5-7 parts of a medicine amount camera, 5-8 parts of a hook, 5-9 parts of a weight sensor, 5-10 parts of a push-pull handrail, 5-11 parts of a battery and 5-12 parts of a universal driving wheel;

the machine frame body 5-1 is of an h-shaped chair type structure, a medicine box module 5-2 is arranged at the left part of a chair back, a main lifting rod 5-4 is arranged in the chair back, a weight sensor 5-9 is arranged at the top of the main lifting rod 5-4, a hook 5-8, a scale clamp 5-6 and a medicine amount camera are integrally connected onto the weight sensor 5-9; two groups of hooks 5-8 and scale clamps 5-6 are symmetrically arranged; the right part of the chair back is provided with push-pull armrests 5-10;

the scale clamps 5-6 are in a plane plate shape, and are provided with fixing clamps and scales;

the top of the chair back is provided with a groove structure, and the top of the main lifting rod 5-4 can be retracted into the groove;

the medicine-box module 5-2 includes: 5-21 parts of a solid medicine containing box, 5-22 parts of a liquid medicine containing box and 5-23 parts of a timer; the solid medicine containing box 5-21 is provided with a plurality of independent bin bodies, the liquid medicine containing box 5-22 is provided with a grid structure and a fixed hook, and the timer 5-23 is arranged at the top;

the auxiliary lifting rod 5-3 is fixedly arranged on one side of the medicine box module 5-2, and the top of the auxiliary lifting rod 5-3 is provided with a monitoring camera.

The bottom of the frame body 5-1 is provided with universal driving wheels 5-12, and the inside is provided with batteries 5-11.

The further proposal is that the fixed health care machine adopts the traditional fitness equipment model with low strength and high flexibility; the baby carriage and the baby bed are of traditional pocket-sized models matched with the height and the weight of a newborn.

Drawings

FIG. 1 is a diagram of a management system configuration according to the present invention;

fig. 2 is a schematic structural view of a collecting device in a delivery room;

FIG. 3 is a schematic structural view of the sit-up assisting machine and the follow-up exercise machine;

FIG. 4 is a schematic structural view of a follow-up infusion machine and a drug delivery robot;

fig. 5 is a schematic view of the medicine feeding robot a.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

A closed control type obstetrical intelligent management system is shown in figure 1 and comprises a family hall 1, a family area 2, a baby swimming pool 3, a puerpera health area 4, a maternal and infant room 5, a delivery room 6, an intelligent nurse station 7, a storehouse 8, a control room 9, an consultation room 10 and a dressing room 11;

a first-level entrance guard is arranged at the entrance of the family hall 1, and a labor information display screen is arranged inside the family hall; the familiarity area 2 is communicated with the family hall 1 through a secondary access control, a disinfection temperature measurement module is arranged after entering the secondary access control, and three independent areas of a direct broadcast space, an interactive space and a parent-child space are arranged inside the family hall;

the infant swimming pool 3, the puerpera health-care area 4 and the maternal and infant room 5 are arranged in the same area, are activity areas of the puerpera, are communicated with the familiarity area 2 through a three-level access control, and are adjacently arranged with the parent space through a transparent partition window; the puerpera health care area 4 is a body-building health care space, auxiliary equipment including a follow-up body-building machine and a fixed health-care machine is arranged in the puerpera health care area, and display experience items including a pleasant viewing area and a leisure experience area are arranged in the puerpera health care area; the baby room 5 is a baby living space, functional equipment including a baby carriage and a baby bed is arranged in the baby room, information display equipment including a teaching machine and a bed head screen is arranged in the baby room, and auxiliary equipment including a sitting-up auxiliary machine and a follow-up infusion machine is arranged in the baby room; a door edge screen is arranged outside the door of the maternal and infant room 5;

the pleasure ornamental area is used for placing landscape facilities, such as bonsais, flowers and the like, which can make the puerpera happy, and the leisure experience area is used for placing facilities, such as bookshelves, small game machines and the like, which can make the puerpera relax and relax.

The teaching machine comprises virtual experience of a two-dimensional video case and a multi-dimensional reality case, so that a puerpera can watch or experience virtually in advance, grasp attentions intuitively, know physiological knowledge, experience a growth process virtually and reduce tension.

The head of a bed screen is image display device, connects well accuse management system, shows the health parameter of lying-in woman in real time and diagnoses the parameter to split screen switching formula shows at door limit screen and nurse electronic plate, looks over when making things convenient for medical personnel's conventionality to patrol, improves work efficiency.

A positioning bracelet is arranged in the activity area of the puerpera and has the functions of wireless network connection positioning and health management parameter acquisition;

the delivery room 6, the intelligent nurse station 7, the storehouse 8, the control room 9, the consultation room 10 and the dressing room 11 are arranged in the same area, are special areas for the work of medical workers and are communicated with the activity areas of the lying-in women through four-level access controls;

the delivery room 6 is a parturient delivery room, and three functional modules of a labor management system, an on-line acquisition device and a scientific research acquisition device are arranged in the delivery room;

the intelligent nurse station 7 is a nurse office service place, is provided with work management equipment comprising a nurse electronic board and a central control management system, and is provided with auxiliary service equipment comprising a bed changing assistor and a medicine delivery robot; the intelligent nurse station 7 is provided with an open window for the activity area of the lying-in woman; the bed changing assistor is a device for assisting a puerpera to change from an operating bed to a conventional hospital bed, and is a known technical product;

the storehouse 8 is a classified storage area for the materials commonly used by the delivery room and comprises a consumable material management module and a medicine management module;

the control room 9 is provided with a data management module, and the consultation room 10 is provided with a remote conference module;

medical personnel firstly enter the dressing room 11 of the working area through the medical access control, and an intelligent dressing cabinet is arranged in the dressing room 11.

The primary access control authority is authorized to the lying-in woman and all authentication family members, the secondary access control authority is authorized to the lying-in woman and the family members appointed by the lying-in woman, and the primary access control authority and the secondary access control authority are handled on a three-party coordination platform; the three-level access control authority is authorized to the puerpera and the family members of the accompanying bed, the four-level access control authority and the medical access control authority are authorized to the medical personnel and the franchisee, and the three-level access control authority, the four-level access control authority and the medical access control authority are handled in the intelligent nurse station; the access control at each level adopts two schemes of a wireless radio frequency sensor (manual card swiping) and a face recognition sensor.

The delivery room area is internally provided with a local area network and an internet of things, the internet of things is connected with all equipment and modules in the delivery room area, a plurality of audio and video acquisition sensors are arranged in the area where the puerpera can move and connected with the local area network, and the local area network is communicated with the internet of things;

the central control management system is a center of the delivery room intelligent management system, is connected with all equipment and modules in a delivery room area through a network, realizes the acquisition, input and output of data information, has the functions of data analysis and calling, and has the functions of operation, judgment and controlled release of artificial intelligent control instructions;

the data management module is connected with the central control management system to realize the storage, classification and calling of data; the data management module is directly connected with the remote conference module and provides online data support for remote consultation;

the nurse electronic board is an output device for information display, is connected with the central control management system, displays the working state data of all equipment and modules in real time, and performs split-screen display and classification early warning according to the warning level of the data.

The labor management system divides the delivery process of the lying-in woman into digital steps according to the conventional medical process, transmits the birth process information of the lying-in woman to the central control management system in real time, and distributes the labor information to a nurse electronic board, a labor information display screen, a door edge screen and a mobile phone of a family of the lying-in woman in real time according to preset authority, so that the doctor-patient communication capacity and timeliness are expanded, and the efficiency of the conventional flow operation of medical care personnel is improved; for unconventional unexpected accidents in the labor process, the central control management system carries out artificial intelligence judgment according to historical big data comparison, and pushes the advice information to the electronic nurse board and the display screen in the delivery room 6 to provide reference information on one hand.

Live equipment, seeing and hearing fusion live equipment, virtual simulation live equipment are preferably set up in the live space, and the collection sensor of above-mentioned live equipment is called live collection system, sets up in delivery room 6, realizes that family members who has the second grade entrance guard permission and lying-in woman in delivery room 6 carry out remote interaction or experience under the virtual reality and watch.

The interaction space and the puerpera health-care area are adjacently arranged through the transparent partition window, so that visual affection and affection interaction is realized;

the facility audio and video acquisition device in the three-party coordination platform acquires audio and video after the puerpera, the family members and the medical care three parties agree, and uploads the audio and video to the central control management system and the data management module;

the remote conference module is provided with scientific research audio-video equipment, an acquisition sensor of the audio-video equipment is called a scientific research acquisition device, and the scientific research acquisition device is arranged in the delivery room 6 and is connected with the central control management system;

the live broadcast acquisition device consists of a plurality of groups of fixedly arranged video sensors 6-3, and as shown in figure 2, the acquisition visual angle is fixed; the scientific research acquisition device consists of a plurality of groups of fixedly arranged audio and video sensors 6-1, a viewfinder 6-2, a wide-angle video sensor 6-4 and a flexible video sensor 6-5 which are arranged on the viewfinder 6-2; the viewfinder 6-2 comprises a movable support and shading cloth, the movable support can drive the shading cloth to move up and down, left and right along a track arranged in the air, and the shading cloth can block and reflect light rays of the appointed part of the delivery bed. The wide-angle video sensor 6-4 indicates to have the wide-angle lens model, flexible video sensor 6-5 indicates that video sensor installs on flexible locating lever, and flexible locating lever can be carried out detailed video acquisition by quick deformation to specific position, and flexible locating lever becomes universal design hose again, is known technique.

The sit-up assisting machine and the follow-up body building machine are shown in figure 3, the sit-up assisting machine and the follow-up body building machine are designed into an integral structure, and can also be designed into functional designs, and comprise: the device comprises a lower shell 4-1, a first platform 4-2, a battery 4-3, a second platform 4-4, an annular guide rail 4-5, an upper shell 4-6, a third platform 4-7, a fixed handrail 4-8, a handrail guide rail 4-9, a lifting handrail 4-10, a lifting platform 4-11, a lead screw 4-12, a conductive slip ring 4-13, an electromagnet 4-14, a fixed column 4-15, a support 4-16, a lock hole plate 4-17, a vacuum pump 4-18, a cylinder 4-19, a suction disc platform 4-20, a suction disc platform guide rail 4-21, a vacuum suction disc 4-22, a motion chassis 4-23 and a universal wheel 4-24;

the lower shell 4-1 and the upper shell 4-6 are hollow box-shaped structures with the same horizontal section shape and size, and are rotatably connected through an annular guide rail 4-5, the bottom of the lower shell 4-1 is fixed on a moving chassis 4-23, and a plurality of universal wheels 4-24 are arranged and installed at the bottom of the moving chassis 4-23; a first rigid platform 4-2 and a second rigid platform 4-4 are arranged in the lower shell 4-1, a cavity area below the first platform 4-2 is provided with an adsorption stabilizing device, and a cavity area between the two layers of platforms is provided with a battery 4-3; a rigid third platform 4-7 is arranged in the upper shell 4-6, a cavity area between the second platform 4-4 and the third platform 4-7 is provided with a rotary locking device, a cavity area above the third platform 4-7 is provided with a lifting device, and the center of the third platform 4-7 is provided with a conductive slip ring; the top of the upper shell 4-6 is provided with a fixed handrail 4-8;

the adsorption stabilizing device comprises: 4-18 parts of vacuum pump, 4-19 parts of air cylinder, 4-20 parts of sucker platform, 4-21 parts of sucker platform guide rail and 4-22 parts of vacuum sucker; the vacuum pump 4-18 is fixed on the lower surface of the first platform 4-2, the air cylinder 4-19 is fixed in the center of the lower surface of the first platform 4-2, the telescopic end of the air cylinder 4-19 is fixedly connected with the sucker platform 4-20, the sucker platform 4-20 is a rigid plane plate, a plurality of process holes and slide rail holes are annularly formed in the sucker platform 4-20, a plurality of vacuum suckers 4-22 are arranged and respectively fixedly installed in the process holes of the sucker platform 4-20, and air pipes of the vacuum suckers 4-22 are connected with the vacuum pump 4-18; a plurality of sucking disc platform guide rails 4-21 are vertically arranged and pass through sliding rail holes of the sucking disc platforms 4-20, the upper ends of the sucking disc platform guide rails are fixed on the first platform 4-2, and the lower ends of the sucking disc platform guide rails are fixed on the moving chassis 4-23;

the rotation locking device includes: 4-14 parts of electromagnet, 4-15 parts of fixed column, 4-16 parts of support and 4-17 parts of lock hole plate; the upper parts of the electromagnets 4-14 are fixed on the lower surface of the third platform 4-7, the lower parts of the electromagnets are planar adsorption ends, the fixed columns 4-15 are rigid straight rod-shaped and are vertically arranged, the upper parts of the fixed columns are fixed on the lower surface of the third platform 4-7, the lower parts of the fixed columns are suspension ends, and the suspension ends are positioned at positions lower than the adsorption planes of the electromagnets 4-14; the support 4-16 is a rigid inverted T-shaped structure, the lower part of the support is a limiting seat and is fixed on the upper surface of the second platform 4-4, the upper part of the support is a rigid straight rod end, a plurality of supports 4-16 are vertically arranged, and the height of the straight rod end is higher than that of the adsorption plane of the electromagnet 4-14; the lockhole plate 4-17 is a rigid plane plate, support holes and locking holes are arranged on the lockhole plate 4-17, the number and the diameter of the support holes are butted with the straight rod ends of the supports 4-16, the number and the diameter of the locking holes are butted with the fixed columns 4-15, and the support holes of the lockhole plate 4-17 are stably placed on the straight rods of the supports 4-16 and are supported by the limiting seats under normal state;

the lifting device comprises: 4-9 parts of handrail guide rails, 4-10 parts of lifting handrails, 4-11 parts of lifting platforms and 4-12 parts of lead screws; the upper ends of the handrail guide rails 4-9 and the lead screws 4-12 are fixed at the top of the upper shell 4-6, the lower ends of the handrail guide rails 4-9 and the lead screws 4-12 are fixed on the upper surface of the third platform 4-7, the lifting platform 4-11 is of a rigid plane structure, is connected with the lead screws 4-12 through driving holes and is connected with the handrail guide rails 4-9 through guide rail holes, the lifting handrails 4-10 are connected on the upper surface of the lifting platform 4-11 through rigid horizontal slide rails, and the right part of the upper shell 4-6 is provided with working holes of the lifting handrails 4-10;

the conducting wires of the conducting slip ring 4-13 are connected with the battery 4-3 and the electric device in the upper shell 4-6.

As shown in fig. 4 and 5, the follow-up infusion device and the medication delivery robot (integrated structure of follow-up infusion and medication delivery) include: 5-1 parts of a rack body, 5-2 parts of a medicine chest module, 5-3 parts of an auxiliary lifting rod, 5-4 parts of a main lifting rod, 5-5 parts of a monitoring camera, 5-6 parts of a scale clamp, 5-7 parts of a medicine amount camera, 5-8 parts of a hook, 5-9 parts of a weight sensor, 5-10 parts of a push-pull handrail, 5-11 parts of a battery and 5-12 parts of a universal driving wheel;

the machine frame body 5-1 is of an h-shaped chair type structure, a medicine box module 5-2 is arranged at the left part of a chair back, a main lifting rod 5-4 is arranged in the chair back, a weight sensor 5-9 is arranged at the top of the main lifting rod 5-4, a hook 5-8, a scale clamp 5-6 and a medicine amount camera are integrally connected onto the weight sensor 5-9; two groups of hooks 5-8 and scale clamps 5-6 are symmetrically arranged; the right part of the chair back is provided with push-pull armrests 5-10;

the scale clamps 5-6 are in a plane plate shape, and are provided with fixing clamps and scales;

the top of the chair back is provided with a groove structure, and the tops of the lifting rods 5-4 can be retracted into the grooves;

the medicine-box module 5-2 includes: 5-21 parts of a solid medicine containing box, 5-22 parts of a liquid medicine containing box and 5-23 parts of a timer; the solid medicine containing box 5-21 is provided with a plurality of independent bin bodies, the liquid medicine containing box 5-22 is provided with a grid structure and a fixed hook, and the timer 5-23 is arranged at the top;

the auxiliary lifting rod 5-3 is fixedly arranged on one side of the medicine box module 5-2, and the top of the auxiliary lifting rod 5-3 is provided with a monitoring camera.

The bottom of the frame body 5-1 is provided with universal driving wheels 5-12, and the inside is provided with batteries 5-11.

The fixed health-care machine adopts the traditional fitness equipment model with low strength and high flexibility, and the baby carriage and the baby bed are traditional pocket-sized models matched with the height and the weight of a newborn baby, which is a known technology.

Example 1 Access control sealing management Process

In a normal state, a puerpera is limited to the physical state of a woman and an infant during hospitalization in a delivery room, a plurality of family accompanying beds are often needed, the puerpera can go in and out conveniently during working hours, but the puerpera is not suitable for standard management of the delivery room, but a hospital is difficult to provide sufficient auxiliary services if family accompanying is not allowed, and sealing management must be strictly performed in an epidemic situation environment.

Firstly, setting a three-party coordination platform to handle initial admission procedures for a puerpera and family members, classifying the family members into family members of an accompanying bed, family members of an accompanying bed and family members of a visiting family, authorizing a first-level access control authority by the visiting family members, and entering a family member hall 1 to see the delivery and labor process information of the puerpera in real time through a labor process information display screen; the family members of the accompanying and attending department authorize the secondary access control authority, the family members can enter the familiarity area 2 after disinfection and temperature measurement, the family members can enter a live broadcasting space to watch the labor process after disinfection and temperature measurement in the delivery time of the lying-in woman, or enter an interactive space to simulate and watch the labor process and the interaction in a virtual reality way, and the family members can enter a parent-child space to watch the family members personally through a transparent wall in the bathing time of the baby; the family members of the accompanying bed and the lying-in woman authorize three-level access control permissions, the activity space is limited to a woman and infant room and a lying-in woman health care area, and the family members and the lying-in woman rely on four-level access control permissions of medical staff to enter a delivery room 6 in the delivery time. Level four entrance guard's access rights structural design has realized that the family members of visiting temporarily know basic childbirth information, and can use personal communication instrument and lying-in woman at any time to communicate, the family members of accompanying and attending to in the family member the family members can't use the personal communication instrument to contact the relative feelings in lying-in woman's childbirth time (this moment), it is burnt mood to reduce, lying-in woman is in its autonomic active area simultaneously, under multiple health care apparatus and environmental construction support, furthest reduces the family members quantity of accompanying and attending to, also can play health care exercise and physical and mental health's effect.

Example 2 maternal service management procedure

The family members of the bed can be reduced to 1 person in the service management process of the lying-in woman, the bed can move in the maternal and infant room 5 and the health care area 4 of the lying-in woman, and the teaching machine is arranged in the maternal and infant room 5, so that the lying-in woman can visually master the attention, know the physiological knowledge, virtually experience the birth process, reduce the tension and cooperate with medical care management; the bedside screen is arranged, so that the body parameters, the diagnosis and treatment parameters of the lying-in woman and the electronic billboard module are synchronously displayed, and the information feedback efficiency is improved; the baby crib and the baby carriage are arranged, so that the baby crib provides soothing convenience for nursing newborns; the door edge screen is convenient for medical staff, puerpera and family members to look over at any time during autonomous movement, and information can be conveniently known in real time. The standing and sitting auxiliary machine can assist weak puerperae in getting up, standing and sitting, the follow-up infusion machine can realize that an infusion apparatus of the puerperae moves along in a walking process, the dosage is detected in real time, and fatigue and anxiety caused by long-time infusion are avoided.

Lying-in woman's health care district 4 is the health care motion region that sets up for the lying-in woman specially, can set up in independent region, also can many spaces combination, and seamless setting can connect the audio-visual monitoring device of location bracelet and nurse electronic plate in lying-in woman's health care district 4, and the lying-in woman wears the location bracelet during autonomic activity, can be monitored position data and conventional health state data in real time. The body-fitting auxiliary rehabilitation exercise of the follow-up body-building machine can be obtained in the health-care area 4 of the lying-in woman, or low-intensity health-care massage can be carried out on the fixed health-care machine, or the user can enjoy sight or leisure experience in walking.

During the working process of the sitting-up assisting machine, as shown in fig. 3, when a puerpera needs to sit up for assistance, the sitting-up assisting machine moves to the body of the puerpera through the moving chassis 4-23 and the universal wheels 4-24, the telescopic end of the air cylinder 4-19 pushes the sucker platforms 4-20 to move downwards, so that the vacuum suckers 4-22 move downwards and contact the ground, the vacuum pumps 4-18 vacuumize the vacuum suckers 4-22 to enable the vacuum suckers to be firmly adsorbed on the ground, so that the first platform 4-2 and the lower shell 4-1 are kept static and stable, and the sucker platform guide rails 4-21 play a role in stably guiding the sucker platforms 4-20 during the up-and-down movement. The lying-in woman grips the lifting handrails 4-10, the screw rods 4-12 drive the lifting platforms 4-11 to move up and down, the arms of the lying-in woman are dragged to play a role in assisting sitting, and the handrail guide rails 4-9 play a role in stably guiding the lifting platforms 4-11 to move up and down.

During the working process of the follow-up body-building machine, as shown in fig. 3, a parturient often takes a walking or standing unstable situation due to weakness, and needs to be supported by family members in a normal state, when the follow-up body-building machine is used, the vacuum suction cups 4-22 are firmly adsorbed on the ground during the process of exercising arms, the lower shell 4-1 is in a firm and static state, the parturient holds the fixed handrails 4-8 to rotate the upper shell 4-6, and the upper shell 4-6 and the lower shell 4-1 relatively rotate through the annular guide rails 4-5, so that the function of exercising the arms of the parturient is realized. If the parturient needs to support when walking, the vacuum suction cups 4-22 are separated from the adsorption ground, then the electromagnets 4-14 are electrified to generate magnetic force to suck the lock hole plates 4-17, at the moment, the fixing columns 4-15 extend into the lock holes of the lock hole plates 4-17, the straight rod end of the support 4-16 is still in the support hole, the straight rod end of the support 4-16 plays a role of a guide rail in the vertical direction and also rotationally locks the lock hole plate 4-17 with the fixed column 4-15, thereby realizing the rotational locking between the upper shell 4-6 and the lower shell 4-1, the exercise machine is an integrated fixed structure, so that the lying-in woman can walk freely by holding the fixed handrails 4-8 by hands, and the exercise chassis 4-23 with a large surface area and a plurality of universal wheel structures can ensure the stability of the whole machine.

Since the upper case 4-6 and the lower case 4-1 are rotationally coupled, the conductive slip ring 4-13 enables the battery 4-3 mounted in the lower case 4-1 to transmit power into the upper case 4-6.

In the working process of the follow-up infusion machine, as shown in fig. 4, required medicines are hung on the hooks 5-8 and are fixed by the fixing frames (wide binding belts) on the scale clamps 5-6, the medicine quantity height is monitored by the medicine quantity cameras 5-7 in real time, the initial weight (comprising the scale clamps 5-6, the hooks 5-8 and the medicine quantity cameras 5-7) is recorded by the weight sensors 5-9, and the alarm weight is set. The lying-in woman can hold the push-pull handrail 5-10 to perform infusion during walking, and can sit on the plane on the right side of the frame body 5-1 to rest if tired. The left and right sides of the scale clamp 5-6 are used for fixing a medicine bottle and the like, so that the medicine bottle is prevented from shaking, the residual medicine amount is measured mainly by a weight sensor 5-9 (the packaging weight of a medicine bottle bag is provided with a clear mark), the medicine amount is detected by a medicine amount camera 5-7 in an auxiliary mode, the collected weight signal and image signal can be transmitted to a nurse electronic board in real time by adopting an artificial identification or image identification technology (contrast scale), when the warning amount is reached, the servo infusion machine alarms by itself, the nurse electronic board simultaneously pops a window to alarm, a puerpera can observe the medicine bottle by himself, and the three schemes are used for monitoring the medicine amount in real time. When the transfusion is finished, the main lifting rod 5-4 can be retracted into the groove at the top of the chair back, and the structure is optimized.

As shown in figures 4 and 5, the medicine delivery robot stores solid medicines and liquid medicines in a classified mode, the medicines are delivered to the bodies of the lying-in women by the robot according to the positioning information of the lying-in women, and the taking or taking conditions of the medicines are recorded in a video mode through the monitoring camera 5-5 at the top of the auxiliary lifting rod 5-3.

The control program, the positioning scheme and the communication scheme of the device are all known technologies.

Example 3 healthcare service management procedure

Medical personnel get into the workspace through medical access control, change the working clothes through intelligent locker in dressing room 11, in consultation room 10, medical personnel and delivery room 6 in and outside expert's real-time audio and video communication to and the real-time resource that calls data management module that shows, realize the different regional spaces of wisdom delivery room and the remote consultation of remote range.

The data generated by the management system is stored and called in the control room 9 through the data management module, and data calling support is provided for artificial intelligent calculation judgment and medical care personnel to obtain diagnosis and treatment data. The server, the database and the operation method required by the data management module are known technologies, and the management method of the data management module only needs to be adaptively modified according to the management strategy of the intelligent delivery room.

The inventory function of medical and office supplies in a delivery room area is counted by a supply management module in a storehouse 8, catalog type electronic tag classification is carried out on various supplies, the quantity of the supplies entering and leaving the storehouse is counted in real time, the counting result is in information communication with a data management module, and a central control management system is connected to obtain an input/output instruction; electronic tag classification and real-time statistics of warehouse entry and exit quantity are established on various medicines by a medicine management module for managing a special medicine classification management function of a delivery room, and information communication is carried out between a statistical result and a data management module; and an active reminding function of inventory saturation and replenishment is set in the management process and is displayed on the electronic nurse board. The electronic label scanning, identifying and recording of consumable management and drug management belongs to the known technology in the aspect of warehouse management; medical care personnel perform process control, input and output operation interfaces, artificial intelligence operation and instruction issue of all modules through the central control management module; data collected by each module are monitored through a nurse electronic board at the intelligent nurse station 7, information early warning or judgment basis is provided, and data output display of the data management module is connected.

In delivery room 6, mainly implement lying-in woman's childbirth process, labor management system carries out the digital step subdivision with lying-in woman's childbirth process according to conventional medical process, with lying-in woman's birth process information real-time transmission to central control management system, the system carries out the real-time distribution of labor information in nurse electronic board, labor information display screen, door limit screen according to presetting the authority, set up wireless information transmission module simultaneously, with labor information transmission to lying-in woman family member's cell-phone, extension doctor-patient communication ability.

Video sensor 6-3 on the live collection system sends the puerperal childbirth process information who gathers to on reality analogue means and the live device, provides real-time scene for the family members, has both alleviated the burnt emotion of family members, realizes that the audio-video data that has commemorative significance remain, and fixed direction and the visual angle of finding a view have avoided the privacy to reveal again simultaneously.

An audio and video sensor 6-1 fixedly arranged in the scientific research acquisition device acquires audio and video information of a whole scene, a wide-angle video sensor 6-4 and a flexible video sensor 6-5 respectively acquire detail information of an overall scene and a specific scene in a childbirth process, a movable support realizes approximate positioning of the wide-angle video sensor 6-4 and the flexible video sensor 6-5 in the overall space of a childbirth chamber, a flexible positioning rod realizes quick and accurate positioning of the flexible video sensor 6-5 in a short distance, clear and specific images can be acquired by blocking and reflecting light rays through shading cloth, and meanwhile the view range of the video sensor 6-3 is controlled through quick position positioning.

The audio and video sensor 6-1, the wide-angle video sensor 6-4 and the flexible video sensor 6-5 send the acquired information to the data management module to be used as remote consultation and scientific research data.

The advantages are that: the system is based on informatization, big data and artificial intelligence technology, realizes high combination of delivery room closed management and family member maternal and infant familiarity, has outstanding intelligent management effect, and obviously improves the efficiency of diagnosis and management of medical personnel.

Claims (8)

1. A closed control type obstetrical intelligent management system is characterized by comprising a family hall, a family area, a family swimming pool, a puerpera health area, a maternal and infant room, a delivery room, an intelligent nurse station, a storehouse, a control room, an consultation room and a dressing room;

a first-level entrance guard is arranged at the entrance of the family hall, and a labor information display screen is arranged inside the family hall; the family hall is communicated with the family hall through a secondary entrance guard, a disinfection temperature measurement module is arranged after the family hall enters the secondary entrance guard, and three independent areas including a direct broadcast space, an interactive space and a parent-child space are arranged inside the family hall;

the infant swimming pool, the puerpera health-care area and the maternal and infant rooms are arranged in the same area and are parturient activity areas, the family areas are communicated through a three-level access control, and the infant swimming pool and the family spaces are adjacently arranged through transparent partition windows; the puerpera health care area is a body-building health care space, auxiliary equipment including a follow-up body-building machine and a fixed health-care machine is arranged in the puerpera health care area, and display experience items including a pleasant viewing area and a leisure experience area are arranged in the puerpera health care area; the baby room is a baby living space, functional equipment including a baby carriage and a baby bed is arranged in the baby room, information display equipment including a demonstration machine and a bed head screen is arranged in the baby room, and auxiliary equipment including a sitting-up auxiliary machine and a follow-up infusion machine is arranged in the baby room; a door edge screen is arranged outside the door of the room for women and infants;

the teaching machine comprises virtual experience of a two-dimensional video case and a multi-dimensional reality case;

the bedside screen is an image display device, is connected with the central control management system, displays the physical parameters and the diagnosis and treatment parameters of the lying-in woman in real time, and displays the parameters on the door side screen and the nurse electronic board in a split screen switching mode;

a positioning bracelet is arranged in the activity area of the puerpera and has the functions of wireless network connection positioning and health management parameter acquisition;

the delivery room, the intelligent nurse station, the storehouse, the control room, the consultation room and the dressing room are arranged in the same area, are special areas for the work of medical staff and are communicated with the activity area of the lying-in woman through a four-level access control;

the delivery room is a parturient delivery room, and three functional modules of a labor management system, an online acquisition device and a scientific research acquisition device are arranged in the delivery room;

the intelligent nurse station is a nurse office service place, the work management equipment comprises a nurse electronic board and a central control management system, and the auxiliary service equipment comprises a bed changing assistor and a medicine delivery robot; the intelligent nurse station is provided with an open window for the activity area of the lying-in woman;

the storehouse is a classified storage area for the materials commonly used by the delivery room and comprises a consumable material management module and a medicine management module;

the control room is provided with a data management module, and the consultation room is provided with a remote conference module;

medical personnel firstly enter a dressing room of a working area through a medical access control, and an intelligent dressing cabinet is arranged in the dressing room.

2. The sealed control type obstetrical intelligent management system according to claim 1, wherein the primary access control authority is authorized for the parturient and all authentication family members, the secondary access control authority is authorized for the parturient and family members designated by the parturient, and the primary and secondary access control authorities are handled on a three-party coordination platform; the three-level access control authority is authorized to the puerpera and the family members of the accompanying bed, the four-level access control authority and the medical access control authority are authorized to the medical personnel and the franchisee, and the three-level access control authority, the four-level access control authority and the medical access control authority are handled in the intelligent nurse station; the access control at each level adopts two schemes of a wireless radio frequency sensor and a face recognition sensor.

3. The seal control type obstetrical intelligent management system according to claim 1, characterized in that a local area network and an internet of things are arranged in the delivery room area, the internet of things is connected with all devices and modules in the delivery room area, a plurality of audio and video acquisition sensors are arranged in the area where the puerpera can move and connected with the local area network, and the local area network is in intercommunication connection with the internet of things;

the central control management system is a center of the delivery room intelligent management system, is connected with all equipment and modules in a delivery room area through a network, realizes the acquisition, input and output of data information, has the functions of data analysis and calling, and has the functions of operation, judgment and controlled release of artificial intelligent control instructions;

the data management module is connected with the central control management system to realize the storage, classification and calling of data; the data management module is directly connected with the remote conference module and provides online data support for remote consultation;

the nurse electronic board is an output device for information display, is connected with the central control management system, displays the working state data of all equipment and modules in real time, and performs split-screen display and classification early warning according to the warning level of the data.

4. The sealed control type obstetrical intelligent management system according to claim 1, wherein the labor process management system subdivides the labor process of the lying-in woman according to the conventional medical process, transmits the birth process information of the lying-in woman to the central control management system in real time, and distributes the labor information to a nurse electronic board, a labor information display screen, a door edge screen and a mobile phone of a family of the lying-in woman in real time according to preset authority, so that the communication capacity and timeliness of doctors and patients are expanded, and the efficiency of the conventional process operation of medical staff is improved; for unconventional unexpected accidents in the labor process, the central control management system carries out artificial intelligence judgment according to historical big data comparison, and pushes the advice information to the electronic nurse board and the display screen inside the delivery room to provide reference information on one hand.

5. The seal control type obstetrical intelligent management system according to claim 1, characterized in that audio and video live broadcast equipment, audio and video fusion live broadcast equipment and virtual simulation live broadcast equipment are preferably arranged in the live broadcast space, and a collection sensor of the live broadcast equipment is called as a live broadcast collection device and is arranged in a delivery room;

the interaction space and the puerpera health-care area are adjacently arranged through the transparent partition window, so that visual affection and affection interaction is realized;

the facility audio and video acquisition device in the three-party coordination platform acquires audio and video after the puerpera, the family members and the medical care three parties agree, and uploads the audio and video to the central control management system and the data management module;

the remote conference module is provided with scientific research audio-video equipment, an acquisition sensor of the audio-video equipment is called a scientific research acquisition device, and the scientific research acquisition device is arranged in the delivery room and connected with the central control management system;

the live broadcast acquisition device consists of a plurality of groups of fixedly arranged video sensors, and the acquisition visual angle is fixed; the scientific research acquisition device consists of a plurality of groups of fixedly arranged audio and video sensors, a viewfinder, a wide-angle video sensor and a flexible video sensor, wherein the wide-angle video sensor and the flexible video sensor are arranged on the viewfinder; the viewfinder comprises a movable support and shading cloth, the movable support can move up and down and left and right along a track arranged in the air, and the shading cloth can be used for blocking and reflecting light rays of the appointed part of the delivery bed.

6. The closed obstetrical intelligent management system according to claim 1, wherein said sitting-up assist machine and follow-up exercise machine comprises: the device comprises a lower shell, a first platform, a battery, a second platform, an annular guide rail, an upper shell, a third platform, a fixed handrail, a handrail guide rail, a lifting handrail, a lifting platform, a screw rod, a conductive sliding ring, an electromagnet, a fixed column, a support, a lock hole plate, a vacuum pump, an air cylinder, a sucker platform guide rail, a vacuum sucker, a motion chassis and a universal wheel;

the lower shell and the upper shell are hollow box-shaped structures with the same horizontal section shape and size, and are rotationally connected through an annular guide rail, the bottom of the lower shell is fixed on the moving chassis, and a plurality of universal wheels are arranged and installed at the bottom of the moving chassis; a first rigid platform and a second rigid platform are arranged in the lower shell, an adsorption stabilizing device is arranged in a cavity area below the first platform, and a battery is arranged in a cavity area between the two layers of platforms; a rigid third platform is arranged in the upper shell, a rotary locking device is arranged in a cavity area between the second platform and the third platform, a lifting device is arranged in a cavity area above the third platform, and a conductive slip ring is arranged at the center of the third platform; the top of the upper shell is provided with a fixed handrail;

the adsorption stabilizing device comprises: the vacuum pump, the cylinder, the sucker platform guide rail and the vacuum sucker; the vacuum pump is fixed on the lower surface of the first platform, the air cylinder is fixed in the center of the lower surface of the first platform, the telescopic end of the air cylinder is fixedly connected with the sucker platform, the sucker platform is a rigid plane plate, a plurality of process holes and slide rail holes are annularly formed in the sucker platform, a plurality of vacuum suckers are arranged and are respectively and fixedly installed in the process holes of the sucker platform, and air pipes of the vacuum suckers are connected with the vacuum pump; the sucking disc platform guide rails are vertically arranged and penetrate through the sliding rail holes of the sucking disc platform, the upper ends of the sucking disc platform guide rails are fixed on the first platform, and the lower ends of the sucking disc platform guide rails are fixed on the moving chassis;

the rotation locking device includes: the electromagnet, the fixed column, the support and the lock hole plate; the upper part of the electromagnet is fixed on the lower surface of the third platform, the lower part of the electromagnet is a planar adsorption end, the fixed columns are rigid straight bars and are vertically arranged, the upper part of the electromagnet is fixed on the lower surface of the third platform, the lower part of the electromagnet is a suspended end, and the position of the suspended end is lower than the adsorption plane of the electromagnet; the support is of a rigid inverted T-shaped structure, the lower part of the support is a limiting seat and is fixed on the upper surface of the second platform, the upper part of the support is provided with a plurality of rigid straight rod ends which are vertically arranged, and the height of each straight rod end is higher than the adsorption plane of the electromagnet; the lock hole plate is a rigid plane plate, support holes and locking holes are arranged on the lock hole plate, the number and the diameter of the support holes are butted with the straight rod ends of the support, the number and the diameter of the locking holes are butted with the fixing columns, and the support holes of the lock hole plate are stably placed on the straight rods of the support and are supported by the limiting seat in a normal state;

the lifting device comprises: the handrail guide rail, the lifting handrail, the lifting platform and the lead screw; the upper ends of the handrail guide rail and the screw rod are fixed at the top of the upper shell, the lower ends of the handrail guide rail and the screw rod are fixed on the upper surface of the third platform, the lifting platform is of a rigid plane structure, the screw rod is connected through a driving hole, the handrail guide rail is connected through a guide rail hole, the lifting handrail is connected to the upper surface of the lifting platform through a rigid horizontal sliding rail, and the right part of the upper shell is provided with a working hole of the lifting handrail;

and the lead of the conductive slip ring is connected with the battery and the electric device in the upper shell.

7. The closed control type obstetrical intelligent management system according to claim 1, wherein the follow-up infusion machine and the medicine delivery robot comprise: the device comprises a frame body, a medicine box module, an auxiliary lifting rod, a main lifting rod, a monitoring camera, a scale clamp, a medicine amount camera, a hook, a weight sensor, a push-pull handrail, a battery and a universal driving wheel;

the machine frame body is of an h-shaped chair type structure, a medicine box module is arranged at the left part of a chair back, a main lifting rod is arranged in the chair back, a weight sensor is arranged at the top of the main lifting rod, and a hook, a scale clamp and a medicine amount camera are integrally connected onto the weight sensor; the hooks and the scale clamps are symmetrically arranged in two groups; the right part of the chair back is provided with a push-pull handrail;

the scale clamp is in a plane plate shape, a fixing clamp is arranged on the scale clamp, and scales are arranged on the fixing clamp;

the top of the chair back is provided with a groove structure, and the top of the main lifting rod can be retracted into the groove;

the medicine box module includes: a solid medicine containing box, a liquid medicine containing box and a timer; the solid medicine containing box is provided with a plurality of independent bin bodies, the liquid medicine containing box is provided with a grid structure and a fixed hook, and the timer is arranged at the top;

the auxiliary lifting rod is fixedly arranged on one side of the medicine box module, and the top of the auxiliary lifting rod is provided with a monitoring camera;

the bottom of the frame body is provided with a universal driving wheel, and a battery is arranged inside the frame body.

8. The closed obstetrical intelligent management system as recited in claim 1, wherein said stationary health care machine is of a conventional low strength, high flexibility fitness equipment type; the baby carriage and the baby bed are of traditional pocket-sized models matched with the height and the weight of a newborn.

Images