CN114146284A

CN114146284A - Immersive childbirth analgesia device based on uterine contraction feedback

Info

Publication number: CN114146284A
Application number: CN202111617093.9A
Authority: CN
Inventors: 张明娜; 肖倩; 王娜
Original assignee: Capital Medical University
Current assignee: Capital Medical University
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2022-03-08

Abstract

The invention discloses an immersive childbirth analgesia device based on uterine contraction feedback, which comprises a monitoring device and a virtual environment display device, wherein the monitoring device is connected with the monitoring device through a network; the monitoring device is used for monitoring the uterine contraction frequency of the lying-in woman; the virtual environment display device is internally provided with an acousto-optic simulator, a storage module for storing the Ramadze parturition breathing frequency data and a control element; the control element of the virtual environment display device is in wireless connection with the monitoring device and is used for receiving the monitoring signal of the monitoring device, comparing the frequency of the monitoring signal with the data stored in the storage module, acquiring the same/similar data, controlling the acousto-optic simulator to generate acousto-optic information with corresponding frequency and guiding the puerpera to breathe synchronously along with the acousto-optic information frequency. The uterine contraction frequency signal of the lying-in woman is acquired through the monitoring device, the monitoring signal is received through the virtual environment display device, and the acoustic and optical signals with corresponding frequencies are simulated, so that the lying-in woman breathes synchronously along with the acoustic and optical information, the attention is transferred, and the delivery pain is relieved.

Description

Immersive childbirth analgesia device based on uterine contraction feedback

Technical Field

The invention relates to the technical field of medical instruments, in particular to an immersion type delivery analgesia device based on uterine contraction feedback.

Background

With the continuous progress of science and technology, more and more mechanized equipment enters the medical field. In obstetrics and gynecology, the process of parturient delivery is often a long process. In the process, the puerpera needs to face the uterine contraction and analgesia for one time, if proper guidance is not provided, the puerpera can feel nervous and anxious, the pain sensation of the puerpera can be amplified, the puerpera can feel frightened, the physical and mental health of the puerpera is harmed, and the normal parturition of the puerpera is influenced. Therefore, an apparatus which can monitor the state of the puerpera in real time and can disperse the attention of the puerpera is urgently needed to relieve the tension and fear of the puerpera, reduce the pain of the puerpera and guide the safe delivery of the puerpera.

The utility model provides an immersive childbirth analgesia device based on uterine contraction feedback, through adopting monitoring devices and virtual environment display device, can acquire lying-in woman's uterus contraction frequency signal in real time, and the virtual environment display device of rethread receives monitoring signals and simulates the acousto-optic signal of corresponding frequency, makes the lying-in woman follow acousto-optic information and breathes in step, shifts lying-in woman's attention, alleviates lying-in woman's childbirth pain.

Disclosure of Invention

The invention aims to provide an immersion type childbirth analgesia device based on uterine contraction feedback to solve the problems mentioned in the background technology.

In order to achieve the above purpose, the solution of the invention is: an immersive childbirth analgesia device based on uterine contraction feedback comprises a monitoring device and a virtual environment display device; the monitoring device is used for monitoring the uterine contraction frequency of the lying-in woman; the virtual environment display device is internally provided with an acousto-optic simulator, a storage module for storing the Ramadze parturition breathing frequency data and a control element; the control element of the virtual environment display device is in wireless connection with the monitoring device and used for receiving the monitoring signal of the monitoring device, comparing the respiratory frequency data of the Lamarca childbirth method stored in the storage module according to the frequency of the monitoring signal, acquiring the same/similar data, controlling the acousto-optic simulator to generate acousto-optic information with corresponding frequency, and guiding the lying-in woman to breathe synchronously along with the acousto-optic information frequency.

Furthermore, the monitoring device is internally provided with an information transmission module for converting the monitoring signal into a data signal and sending the data signal to the virtual environment display device.

Furthermore, the monitoring device is a uterine contraction probe which can be placed on the abdomen above the navel of a parturient to monitor the contraction frequency of the uterine fundus.

Further, the uterine contraction probe comprises a bandage and a probe; the probe is of a flat structure, the center of the probe is provided with a monitoring module, and the outer side wall of the probe is symmetrically provided with a pair of connecting lugs; one end of the binding band is a fixed end, the fixed end of the binding band is fixedly connected with one of the connecting lugs, the other end of the binding band is a free end, and the free end of the binding band penetrates through the other connecting lug and is detachably connected with the side face of the binding band on the side.

Furthermore, the side of bandage is equipped with sub-magic subsides and female magic subsides, sub-magic is pasted and is located bandage free end head department, female magic is pasted and is located the bandage middle part and extend to bandage free end.

Further, the virtual environment display device is VR/MR glasses or a display screen.

Further, the virtual environment display device is VR/MR glasses, and the VR/MR glasses comprise a head rope and a machine body which are connected with each other; a protective lens is arranged on one side of the machine body, which is far away from the head rope, and a display lens is arranged on the inner side of the protective lens; the both sides of the machine body are provided with loudspeakers, and the machine body is also provided with a charging socket and a control button.

Further, the display lens, the charging socket, the loudspeaker and the control button are all connected with the control element; the display lens and the loudspeaker form an acousto-optic simulator for guiding the lying-in woman; the charging socket is used for external charging of the power supply module; the control button is used for opening and closing the virtual environment display device, controlling the display lens to focus and adjusting the sound of the loudspeaker.

Furthermore, the virtual environment display device is a display screen, a screen is arranged in the center of the display screen, and a loudspeaker is arranged at the edge of the outer frame of the display screen.

Furthermore, a power supply module is also arranged in the monitoring device and the virtual environment display device.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, by adopting the monitoring device and the virtual environment display device, the monitoring device can acquire uterine contraction frequency signals of the lying-in woman in real time, receive the monitoring signals through the virtual environment display device, simulate acousto-optic signals with corresponding frequencies through the acousto-optic simulator and feed back the acousto-optic signals to the lying-in woman, so that the lying-in woman can breathe synchronously along with acousto-optic information frequency, the attention of the lying-in woman is transferred, and the delivery pain of the lying-in woman is relieved;

(2) the uterine contraction probe composed of the binding band and the probe is used as the monitoring device, so that the probe can be bound and fixed through the binding band according to the use requirements of the puerpera, the monitoring device has the advantages of being small in structure, beneficial to storage and daily use, and capable of meeting the use requirements of different puerperas;

(3) the virtual environment display device is formed by adopting VR/MR glasses or the display screen, so that the virtual environment display device can be worn and placed for use, the use requirements of the puerpera in different childbirth states can be effectively met, and the childbirth pain of the puerpera is relieved.

Drawings

FIG. 1 is a schematic perspective view of a monitoring device according to the present invention;

FIG. 2 is a schematic perspective view of a virtual environment display device according to an embodiment of the present invention;

FIG. 3 is a system diagram of a virtual environment display apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a virtual environment display apparatus according to a second embodiment of the present invention;

FIG. 5 is a system block diagram of a virtual environment display apparatus according to a second embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

the monitoring device comprises a monitoring device 1, a binding band 11, a probe 12, a monitoring module 13, a connecting lug 14, a sub magic tape 15 and a mother magic tape 16;

virtual environment display device 2, head cord 21, body 22, display lens 23, protective lens 24, charging socket 25, speaker 26, control button 27, screen 28.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The first embodiment is as follows:

as shown in fig. 1-3, an immersive childbirth analgesic device based on uterine contraction feedback comprises a monitoring device 1 and a virtual environment display device 2; the monitoring device 1 is used for monitoring the uterine contraction frequency of a lying-in woman; the virtual environment display device 2 is internally provided with an acousto-optic simulator, a storage module for storing the respiratory frequency data of the Ramadze parturition method and a control element; the control element of the virtual environment display device 2 is wirelessly connected with the monitoring device 1 and is used for receiving the monitoring signal of the monitoring device 1, obtaining the same/similar data according to the frequency comparison of the monitoring signal and the respiratory frequency data of the Ramadze parturition method stored in the storage module, controlling the acousto-optic simulator to generate acousto-optic information with corresponding frequency and guiding the lying-in woman to synchronously breathe along with the acousto-optic information frequency; in this embodiment, the monitoring device 1 is internally provided with an information transmission module for converting a monitoring signal into a data signal and sending the data signal to the virtual environment display device 2; wherein, the monitoring device 1 is provided with a data converter, the virtual environment display device 2 is provided with a signal receiving module and a signal conversion module, and the sound and light signals generated by the sound and light simulator are surge/sea wave sound and a surge fluctuation picture; when a puerpera wears the monitoring device 1 and the virtual environment display device 2, uterine contraction frequency signals of the puerpera can be obtained through the monitoring device 1, the signals can be converted into corresponding data through the data converter, the data are sent to the virtual environment display device 2 in wireless connection with the puerpera through the information transmission module, after the signals are received by the signal receiving module of the virtual environment display device 2, the signals can be compared with the respiratory frequency data of the Ramadze childbirth method stored in the storage module, after the same/similar data are obtained, the signals can be converted into sound data and image data through the signal conversion module, and then the sound data and the image data are fed back to the puerpera through the sound and light simulator, so that the puerpera can synchronously breathe after being guided by the frequency of sound and light information (billow/sea wave sound and billow fluctuation pictures), the puerpera can be immersed in the sound and light information to transfer attention of the puerpera, thereby relieving the delivery pain of the lying-in woman;

in this embodiment, a power supply module is further built in the monitoring device and the virtual environment display device; the power supply module can ensure that the monitoring device and the virtual environment display device have enough power supply to supply power to all the electric elements for work, so that the monitoring device and the virtual environment display device can monitor, wirelessly transmit and generate acousto-optic information;

in this embodiment, the lamaya childbirth method is the prior art, and the breathing method and breathing frequency thereof are mainly based on international standards, which are not described herein in more detail; the wireless connection mode of the virtual environment display device 2 and the monitoring device 1 can be GPRS wireless connection or Bluetooth connection, and preferably Bluetooth connection;

in this embodiment, the monitoring device 1 is a uterine contraction probe, which can be placed on the abdomen above the navel of a parturient to monitor the contraction frequency of the uterine fundus;

as shown in fig. 1, in the present embodiment, the uterine contraction probe includes a band 11 and a probe 12; the probe 12 is of a flat structure, a monitoring module 13 is arranged in the center of the probe 12, and a pair of connecting lugs 14 are symmetrically arranged on the outer side wall of the probe 12; one end of the binding band 11 is a fixed end, the fixed end of the binding band 11 is fixedly connected with one of the connecting lugs 14, the other end of the binding band 11 is a free end, and the free end of the binding band 11 penetrates through the other connecting lug 14 and is detachably connected with the side surface of the binding band 11; the umbilical part of the parturient is the uterine fundus, so that when the parturient fixes the probe 12 at the umbilical part through the binding band 11, the monitoring module 13 attached to the abdomen of the parturient can be contacted with the uterine fundus, so that the monitoring module 13 can accurately monitor the contraction frequency at the uterine fundus, and the monitoring device 1 can wirelessly transmit a monitoring signal to the virtual environment display device 2 for comparison and generation of a virtual acousto-optic environment; the flat probe 12 is small in size and can be better attached to the abdomen of a puerpera, so that the tension in the monitoring process of the puerpera is reduced; the detachable bandage 11 can be adaptively adjusted according to the waist size of a puerpera, so that the wearing requirements of different puerperas on the probe 12 are met; when in actual use, the flat probe 12 can be arranged into a flat arc structure according to requirements, so that the flat probe can better fit the round abdomen of a puerpera when in use;

in this embodiment, the probe 12 is further provided with a preheating assembly; the preheating assembly comprises a temperature control module, a heating module and a timing module which are connected with each other; the temperature control module can control the heating temperature of the heating module, the timing module can set the heating time of the heating module, the heating module can perform constant-temperature preheating on the probe 12, skin irritation caused by overlarge temperature difference when the probe 12 is worn by a puerpera is reduced, the heating module is controlled to stop heating after the puerpera wears the probe for the set time, and power supply loss is reduced;

in this embodiment, the side surface of the binding band 11 is provided with a sub magic tape 15 and a female magic tape 16, the sub magic tape 15 is located at the end of the free end of the binding band 11, and the female magic tape 16 is located in the middle of the binding band 11 and extends towards the free end of the binding band 11; after the free end of the binding band 11 passes through the connecting ear 14, the free end can be attached and connected with a female magic tape 16 on the binding band 11 through a male magic tape 15, so that the size and the length of the binding band 11 can be adjusted according to the use requirements of a puerpera, and the applicability of the uterine contraction probe is improved; the magic tape type structure is more beneficial to the operation of the lying-in woman or medical personnel, so that the probe 12 can be conveniently disassembled and fixed on the abdomen of the lying-in woman;

as shown in fig. 2, in the present embodiment, the virtual environment display device 2 is VR/MR glasses, and the VR/MR glasses include a head rope 21 and a body 22 that are connected to each other; one side of the machine body 22, which is far away from the head rope 21, is provided with a protective lens 24, and the inner side of the protective lens 24 is provided with a display lens 23; the two sides of the machine body 22 are provided with speakers 26, and the machine body 22 is also provided with a charging socket 25 and a control button 27; in this embodiment, a power supply module is further built in the virtual environment display device 2, and is used for controlling power supply of components; the head rope 21 is an adjustable rope body, preferably a nylon belt with a magic tape, the power supply module can supply power to the control element, so that the virtual environment display device 2 can automatically adjust the head circumference when being sleeved on the head of the lying-in woman through the head rope 21, the body 22 can be propped against the forehead of the lying-in woman, the display lens 23 is positioned at the eye of the lying-in woman, and the lying-in woman can directly see the picture displayed on the display lens 23; the loudspeaker 26 is positioned above the ears of the lying-in woman, so that the sound signals generated by the loudspeaker 26 can be quickly received by the lying-in woman, the lying-in woman can be immersed in acousto-optic information more conveniently, the attention of the lying-in woman is transferred, and the purposes of relieving the delivery pain of the lying-in woman or guiding the lying-in woman to simulate the delivery state to carry out breathing regulation are achieved; the protective lens 24 can be used as a protective mechanism of the display lens 23, so that the phenomenon that the display lens 23 is damaged and cracked due to external force collision in the using process of the virtual environment display device 2 is reduced, and the stable use of the display lens 23 is ensured; the head-wearing VR/MR glasses can be used for a puerpera with relatively convenient movement, so that the puerpera can carry out auxiliary guidance of childbirth operation after wearing the VR/MR glasses, and can follow a midwife to carry out childbirth exercise, so that the childbirth anxiety mood is relieved, and the childbirth pain of the puerpera is reduced;

in this embodiment, the display lens 23, the charging socket 25, the speaker 26 and the control button 27 are all connected to the control element; the display lens 23 and the loudspeaker 26 form an acousto-optic simulator for guiding the parturient; the charging socket 25 is used for external charging of the power supply module; the control button 27 is used for turning on and off the virtual environment display device 2, controlling the display lens 23 to focus and adjusting the sound intensity of the loudspeaker 26; the control element can control each part to be used, so that the virtual environment display device 2 can drive the control element to control each part to work through each control button 27, which is more beneficial to the actual use of the virtual environment display device 2.

Example two:

as shown in fig. 4 and 5, the present embodiment is different from the first embodiment in that: in this embodiment, the virtual environment display device 2 is a display screen, a screen 28 is disposed in the center of the display screen, and a speaker 26 is disposed at the edge of the outer frame of the display screen; the display screen is provided with a control button for controlling the opening, the power on/off and the adjustment of the sound of the display screen; when in use, the display screen can be fixed in a delivery room through the mounting part and is in wireless connection with the monitoring device 1 arranged in the delivery room; therefore, after the monitoring device 1 transmits the uterine contraction signal of the puerpera to the display screen, the screen 28 of the display screen can play a corresponding display image, the loudspeaker 26 can play a corresponding sound signal, so that the puerpera can quickly notice the display screen, a virtual world is further constructed through the display screen, the puerpera is guided to breathe synchronously along with the frequency of the acousto-optic information, the puerpera is immersed in the acousto-optic information, and the purposes of transferring the attention of the puerpera and relieving the delivery pain of the puerpera are achieved; the mounting piece can select a fixed structure or a telescopic structure according to actual use requirements, so that the complex and variable use requirements in the room to be delivered are met; the fixed display screen can be used for the puerpera who can not move about independently, and the puerpera who ensures to be delivered can also relieve the pain of childbirth.

In summary, the immersive childbirth analgesia device based on uterine contraction feedback provided by the invention has the advantages that the monitoring device 1 and the virtual environment display device 2 are adopted, so that the monitoring device 1 can acquire uterine contraction frequency signals of a puerpera in real time, the virtual environment display device 2 receives the monitoring signals, and the acousto-optic simulator simulates acousto-optic signals with corresponding frequencies to feed back to the puerpera, so that the puerpera can breathe synchronously along with acousto-optic information frequencies, the attention of the puerpera is transferred, and the childbirth pain of the puerpera is relieved.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above should not be understood to necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples described in this specification can be combined and combined by those skilled in the art.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims

1. The utility model provides an immersive childbirth analgesia device based on uterine contraction feedback which characterized in that: comprises a monitoring device (1) and a virtual environment display device (2); the monitoring device (1) is used for monitoring the uterine contraction frequency of a lying-in woman; the virtual environment display device (2) is internally provided with an acousto-optic simulator, a storage module for storing the Ramadze parturition breathing frequency data and a control element; the control element of the virtual environment display device (2) is in wireless connection with the monitoring device (1) and is used for receiving the monitoring signal of the monitoring device (1), comparing the respiratory frequency data of the Lamarca childbirth method stored in the storage module according to the frequency of the monitoring signal, acquiring the same/similar data, controlling the acousto-optic simulator to generate acousto-optic information of corresponding frequency and guiding the lying-in woman to breathe synchronously along with the acousto-optic information frequency.

2. The uterine contraction feedback-based immersive childbirth pain relief device of claim 1, wherein: the monitoring device (1) is internally provided with an information transmission module used for converting a monitoring signal into a data signal and sending the data signal to the virtual environment display device (2).

3. The uterine contraction feedback-based immersive childbirth pain relief device of claim 2, wherein: the monitoring device (1) is a uterine contraction probe, can be placed on the abdomen above the navel of a puerpera and is used for monitoring the contraction frequency of the uterine fundus.

4. The uterine contraction feedback-based immersive childbirth pain relief device of claim 3, wherein: the uterine contraction probe comprises a binding band (11) and a probe (12); the probe (12) is of a flat structure, a monitoring module (13) is arranged in the center of the probe (12), and a pair of connecting lugs (14) are symmetrically arranged on the outer side wall of the probe (12); one end of the binding band (11) is a fixed end, the fixed end of the binding band (11) is fixedly connected with one of the connecting lugs (14), the other end of the binding band (11) is a free end, and the free end of the binding band (11) penetrates through the other connecting lug (14) and is detachably connected with the side face of the binding band (11) on the side.

5. The uterine contraction feedback-based immersive childbirth pain relief device of claim 4, wherein: the side of bandage (11) is equipped with sub-magic subsides (15) and female magic subsides (16), sub-magic subsides (15) are located bandage (11) free end head department, female magic subsides (16) are located bandage (11) middle part and extend to bandage (11) free end.

6. An immersive childbirth pain relief device based on uterine contraction feedback as claimed in any one of claims 1 to 5, wherein: the virtual environment display device (2) is VR/MR glasses or a display screen.

7. The uterine contraction feedback-based immersive childbirth pain relief device of claim 6, wherein: the virtual environment display device (2) is VR/MR glasses which comprise a head rope (21) and a machine body (22) which are connected with each other; one side of the machine body (22) far away from the head rope (21) is provided with a protective lens (24), and the inner side of the protective lens (24) is provided with a display lens (23); the loudspeaker (26) is arranged on two sides of the machine body (22), and the charging socket (25) and the control button (27) are also arranged on the machine body (22).

8. The uterine contraction feedback-based immersive childbirth pain relief device of claim 7, wherein: the display lens (23), the charging socket (25), the loudspeaker (26) and the control button (27) are all connected with a control element; the display lens (23) and the loudspeaker (26) form an acousto-optic simulator for guiding the parturient; the charging socket (25) is used for external charging of the power supply module; the control button (27) is used for opening and closing the virtual environment display device (2), controlling the display lens (23) to focus and adjusting the sound of the loudspeaker (26).

9. The uterine contraction feedback-based immersive childbirth pain relief device of claim 6, wherein: the virtual environment display device (2) is a display screen, a screen (28) is arranged in the center of the display screen, and a loudspeaker (26) is arranged at the edge of an outer frame of the display screen.

10. The uterine contraction feedback-based immersive childbirth pain relief device of claim 1, wherein: and power supply modules are also arranged in the monitoring device (1) and the virtual environment display device (2).