CN216933182U - Sensing device for self-rescue of newborn apnea - Google Patents

Abstract

The utility model discloses a sensing device for self rescue of neonatal apnea, which comprises a bed body with a mattress, wherein a controller and a display are arranged on the bed body; a sensor for monitoring the breath and the heartbeat of the neonate and an oximeter for monitoring the blood oxygen saturation of the neonate are respectively arranged on the bed body; the top and the bottom of the mattress of the bed body are respectively provided with an electric blanket for carrying out thermal stimulation on the neonate and a vibrator for carrying out vibration awakening stimulation on the neonate; and the bed body is also provided with an alarm device which can send out an alarm signal when the newborn pauses breathing, wherein the display, the sensor, the blood oxygen tester, the electric blanket, the vibrator and the alarm device are all electrically connected with the controller. The utility model has the advantages of monitoring the physical signs of the neonate in real time and stimulating and rescuing the neonate in the first time when the neonate has respiratory pause.

Description

Sensing device for self-rescue of newborn apnea

Technical Field

The utility model relates to the technical field of medical treatment, in particular to a sensing device for self rescue of neonatal apnea.

Background

Apnea is the most common symptom of a newborn and is a serious phenomenon, such as untimely treatment, long-time hypoxia, brain damage, great influence on the intelligence development of the newborn and death of the newborn in severe cases. There are three common causes of neonatal apnea: one is the most common infection, the second is a factor of premature birth, and the third is hunger, cold and external stimuli. Currently, in neonatal pediatrics of hospitals, it is common for monitoring apnea of a neonate to use an electrocardio-electrode attached to the body of the neonate to detect impedance changes of the chest and the abdomen of the neonate in a breathing process so as to obtain a breathing signal, and then the breathing signal of the neonate is displayed through a monitor.

However, in the process of monitoring apnea of a newborn by combining an electrocardioelectrode with a monitor, due to the characteristics of the monitor product, the monitor can only passively monitor the physical signs of the newborn, when the newborn has apnea, the newborn cannot be stimulated and rescued at the first time, manual intervention of medical staff is needed, and if the medical staff is not rescued in time, the life health of the newborn can be seriously affected, and the actual application requirements are difficult to meet.

How to solve the above problems is a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sensing device for neonatal apnea self-rescue, which can monitor the physical signs of a neonate in real time and stimulate and rescue the neonate in the first time when the neonate has apnea.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

a sensing device for self-rescue of neonatal apnea comprises a bed body with a mattress, wherein a controller and a display are arranged on the bed body; a sensor for monitoring the breath and the heartbeat of the neonate and an oximeter for monitoring the blood oxygen saturation of the neonate are respectively arranged on the bed body; the top and the bottom of the mattress of the bed body are respectively provided with an electric blanket for carrying out thermal stimulation on the neonate and a vibrator for carrying out vibration awakening stimulation on the neonate; and an alarm device capable of sending an alarm signal when the newborn stops breathing is arranged on the bed body, wherein the display, the sensor, the blood oxygen tester, the electric blanket, the vibrator and the alarm device are electrically connected with the controller.

Preferably, the alarm device comprises a speaker and a warning light which are arranged on the bed body and are connected in parallel with each other through a conducting wire, wherein the alarm device is electrically connected with the controller through the conducting wire.

Preferably, the controller is a CTR-OTE16 controller.

Preferably, the sensor is a PCR radar sensor.

Preferably, the blood oxygen tester is an OEM-LK-87 blood oxygen tester.

Preferably, the vibrator is a vibration motor.

Compared with the prior art, the utility model has the following beneficial effects:

when the utility model is used, the respiration, heartbeat and oxyhemoglobin saturation states of the neonate can be monitored in real time through the mutual matching of the sensor, the blood oxygen tester and the controller which are arranged on the bed body, and are displayed on the display, thereby realizing the real-time monitoring of the physical signs of the neonate; when the neonate has the respiratory pause, the neonate can be subjected to thermal stimulation and vibration stimulation through the electric blanket and the vibrator which are arranged on the mattress of the bed body, so that the neonate can be stimulated and rescued at the first time when the neonate has the respiratory pause, and then the neonate can be awakened in time, the influence on the life health of the neonate is reduced, meanwhile, the controller drives the alarm device to send an alarm signal to remind medical staff of further manual intervention and rescue on the neonate with the respiratory pause, and therefore the medical bed has the advantages that the physical signs of the neonate can be monitored in real time, and the neonate can be stimulated and rescued at the first time when the neonate has the respiratory pause.

Drawings

The utility model is further illustrated by the following figures and examples.

Fig. 1 is a structural schematic diagram of a sensing device for self rescue of neonatal apnea, which is disclosed by the utility model.

Description of reference numerals: 1. bed body, 2, controller, 3, display, 4, sensor, 5, blood oxygen tester, 6, electric blanket, 7, electromagnetic shaker, 8, alarm device, 81, speaker, 82, warning light, 83, electric lead.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, a sensing device for self rescue in neonatal apnea comprises a bed body 1 with a mattress, wherein a controller 2 and a display 3 are arranged on the bed body 1; a sensor 4 for monitoring the breath and heartbeat of the neonate and an oximeter 5 for monitoring the blood oxygen saturation of the neonate are respectively arranged on the bed body 1; an electric blanket 6 for performing thermal stimulation on the neonate and a vibrator 7 for performing vibration awakening stimulation on the neonate are respectively arranged at the top and the bottom of the mattress of the bed body 1; an alarm device 8 capable of sending an alarm signal when the newborn stops breathing is further arranged on the bed body 1, wherein the display 3, the sensor 4, the blood oxygen tester 5, the electric blanket 6, the vibrator 7 and the alarm device 8 are all electrically connected with the controller 2.

The alarm device 8 comprises a speaker 81 and a warning light 82 which are arranged on the bed body 1 and are connected in parallel with each other through a conducting wire 83, wherein the alarm device 8 is electrically connected with the controller 2 through the conducting wire 83.

The controller 2 is a CTR-OTE16 controller.

The sensor 4 is a PCR radar sensor.

The blood oxygen tester 5 is an OEM-LK-87 blood oxygen tester.

The vibrator 7 is a vibration motor.

When the blood oxygen tester is used specifically, firstly, the clamping angle of the blood oxygen tester 5 is adjusted to be suitable for clamping the finger of a neonate, and then the blood oxygen tester 5 is clamped on the finger of the neonate; secondly, respiration, heartbeat and oxyhemoglobin saturation signals of the neonate are collected in real time through the sensor 4 and the oxyhemoglobin tester 5 and transmitted to the controller 2, and then transmitted to the display 3 through the controller 2 to be displayed, so that the respiration, heartbeat and oxyhemoglobin saturation states of the neonate and other physical signs are monitored in real time; then, when the newborn has apnea, acquiring abnormal breathing, heartbeat and oxyhemoglobin saturation signals of the newborn in real time through the sensor 4 and the blood oxygen tester 5 and transmitting the signals to the controller 2, transmitting the received abnormal breathing, heartbeat and oxyhemoglobin saturation signals to the display 3 for displaying through the controller 2, starting the electric blanket 6 and the vibrator 7 to work for carrying out thermal stimulation and vibration stimulation on the newborn at the first time through the controller 2, and carrying out stimulation rescue on the newborn at the first time so as to wake up the newborn in time and reduce the influence on the life health of the newborn; finally, the controller 2 drives the loudspeaker 81 and the warning lamp 82 of the alarm device 8 to work while starting the electric blanket 6 and the vibrator 7 to work, and sends out voice alarm signals and light signals to remind medical personnel of further human intervention and rescue of the newborn with apnea.

In a word, the utility model adopts the structure, and has the advantages that the physical signs of the neonate can be monitored in real time, and the neonate can be stimulated and rescued at the first time when the breath pause occurs.

It will be apparent to those skilled in the art that various other changes and modifications may be made in the above-described embodiments and concepts and all such changes and modifications are intended to be within the scope of the appended claims.

Claims (6)

1. A sensing device for self rescue of neonatal apnea comprises a bed body (1) with a mattress, wherein a controller (2) and a display (3) are arranged on the bed body (1); the method is characterized in that: a sensor (4) for monitoring the breath and the heartbeat of the neonate and an oximeter (5) for monitoring the blood oxygen saturation of the neonate are respectively arranged on the bed body (1); an electric blanket (6) for performing thermal stimulation on the neonate and a vibrator (7) for performing vibration awakening stimulation on the neonate are respectively arranged at the top and the bottom of the mattress of the bed body (1); the bed body (1) is also provided with an alarm device (8) which can send out an alarm signal when the newborn is in apnea, wherein the display (3), the sensor (4), the blood oxygen tester (5), the electric blanket (6), the vibrator (7) and the alarm device (8) are all electrically connected with the controller (2).

2. A self-rescue sensing device for neonatal apnea according to claim 1, characterized in that: the alarm device (8) comprises a loudspeaker (81) and a warning lamp (82) which are arranged on the bed body (1) and are connected in parallel with each other through a conducting wire (83), wherein the alarm device (8) is electrically connected with the controller (2) through the conducting wire (83).

3. A self-rescue sensing device for neonatal apnea according to claim 2, characterized in that: the controller (2) is a CTR-OTE16 controller.

4. A neonatal apnea self-rescue sensing device as claimed in any one of claims 1 to 3, wherein: the sensor (4) is a PCR radar sensor.

5. A neonatal apnea self-rescue sensing device as claimed in any one of claims 1 to 3, wherein: the blood oxygen tester (5) is an OEM-LK-87 blood oxygen tester.

6. A neonatal apnea self-rescue sensing device as claimed in any one of claims 1 to 3, wherein: the vibrator (7) is a vibrating motor.

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