CN211187206U - Vital sign monitoring device - Google Patents
Vital sign monitoring device Download PDFInfo
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- CN211187206U CN211187206U CN201921101278.2U CN201921101278U CN211187206U CN 211187206 U CN211187206 U CN 211187206U CN 201921101278 U CN201921101278 U CN 201921101278U CN 211187206 U CN211187206 U CN 211187206U
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Abstract
The utility model provides a vital sign monitoring devices, including the cabin body, support the bed, sign monitoring subassembly, environmental monitoring subassembly and environmental purification subassembly, sign monitoring subassembly includes blood pressure monitor, oxyhemoglobin saturation collector and heart caliber, the inner wall in the cabin body is all located to blood pressure monitor and oxyhemoglobin saturation collector's body, the environmental monitoring subassembly includes temperature and humidity sensor, optical line sensors, carbon monoxide sensor, carbon dioxide sensor, formaldehyde sensor, methane sensor, smoke transducer and removal inductive transducer, the environmental purification subassembly includes ozone generator and negative oxygen ion generator. The utility model discloses a design of environmental monitoring subassembly can monitor the different environmental parameter in the cabin body in effectual synchronization, has improved the monitoring efficiency among the vital sign monitoring process.
Description
Technical Field
The utility model relates to a life monitoring technology field, in particular to vital sign monitoring devices.
Background
Everyone is concerned about their health and is constantly managing and maintaining their health at a financial cost. Traditional personal health management is often hospitalized when ill, but neglects health monitoring that is usually done before hospital entry. With the economic development, people have the demand of health monitoring at ordinary times, but the demand is not provided with simple and easy-to-operate means and service modes for health monitoring at ordinary times. Therefore, people can not carry out effective health protection at ordinary times to avoid diseases; once the disease occurs, the diagnosis and treatment of doctors are delayed.
In current vital sign monitoring process, need medical personnel manual carry out the detection of different sign parameters to the disease to reach the monitoring effect to the disease, and then lead to loaded down with trivial details, personnel's cost to the monitoring step of disease higher, and can only monitor to user's health among the current vital sign monitoring process, can not monitor the environment that the user is located to the synchronization, and then lead to the monitoring inefficiency to user's vital sign monitoring.
SUMMERY OF THE UTILITY MODEL
Based on this, the utility model aims at providing a vital sign monitoring devices aims at solving current vital sign monitoring process, owing to can not monitor the problem of the monitoring inefficiency that leads to user's environment in the step.
The utility model provides a vital sign monitoring devices, includes the cabin body and locates internal, support bed, sign monitoring subassembly, environmental monitoring subassembly and the environmental purification subassembly in cabin, the sign monitoring subassembly includes blood pressure monitor, oxyhemoglobin saturation collector and heart measurement ware, blood pressure monitor with the body of oxyhemoglobin saturation collector is all located on the inner wall of the cabin body, the bottom of supporting the bed is equipped with bears the weight of the case, the environmental monitoring subassembly is including locating respectively temperature and humidity sensor, light sensor, carbon monoxide sensor, carbon dioxide sensor, formaldehyde sensor, methane sensor, smoke transducer on the internal wall of cabin support the removal inductive transducer of bed bottom, the environmental purification subassembly includes ozone generator and negative oxygen ion generator.
Above-mentioned vital sign monitoring devices, through temperature and humidity sensor, optical line sensors, carbon monoxide sensor, carbon dioxide sensor, formaldehyde sensor, methane sensor and smoke transducer's design, can effectual synchronization right the internal different environmental parameter in cabin monitors, has improved the monitoring efficiency among the vital sign monitoring process, through the design of sign monitoring subassembly has ensured the sign monitoring efficiency to the user, and passes through the design of environment purification subassembly, can be effectual right the environment of the cabin body purifies, has improved the environment of locating of monitoring in-process user, improves user experience.
Further, vital sign monitoring devices is lighting components still, lighting components includes light, reading lamp, night-light and RGB lamp area, the light with the reading lamp is all located on the inner wall of the cabin body, the night-light is located on the lateral wall of support bed or the bottom surface, RGB lamp area is located the top of the cabin body reaches on every side.
Further, the physical sign monitoring assembly further comprises a height detector and a weight detector, wherein the height detector is arranged at the top of the inner side of the cabin door of the cabin body, and the weight detector is arranged at the bottom of the inner side of the cabin door.
Furthermore, the physical sign monitoring assembly further comprises a sleep quality monitor, and the sleep quality monitor is used for monitoring the heart rate, the breathing rate, the turning-over, the leaving-bed, the sleep duration, the sleep depth and the sleep cycle data of the user in the sleep process.
Further, vital sign monitoring devices still includes main control chip, main control chip respectively with the sign monitoring subassembly the environmental monitoring subassembly with environmental purification subassembly electric connection.
Further, the cabin body is made of ABS materials, and the cabin body is manufactured in a plastic suction mode.
Further, vital sign monitoring devices still includes a display screen, the display screen respectively with the sign monitoring subassembly the environmental monitoring subassembly with environmental purification subassembly electric connection.
Further, an identity recognizer is further arranged on the cabin door of the cabin body and used for recognizing identity information of the user.
Further, the bottom of the cabin body is also provided with a plurality of gas delivery pipes, and the input ends of the gas delivery pipes are connected with a compressed air bottle, a heat exchanger, an oxygen generator or an oxygen bottle.
Further, the inner wall of the cabin body is provided with a ventilation fan.
Drawings
Fig. 1 is a schematic structural diagram of a vital sign monitoring device according to a first embodiment of the present invention;
FIG. 2 is a schematic view of the structure inside the capsule of FIG. 1;
FIG. 3 is a schematic view of the right side of the cabin of FIG. 2;
fig. 4 is a schematic diagram of a signal transmission structure in the vital sign monitoring device in fig. 1;
fig. 5 is a schematic diagram of a signal transmission structure in a vital sign monitoring device according to a second embodiment of the present invention;
description of the symbols of the main elements
| Vital |
100 | |
10 |
| |
11 | |
12 |
| |
13 | Blood pressure detector | 15 |
| Blood oxygen saturation collector | 16 | Heart |
17 |
| Temperature and |
18 | |
19 |
| |
20 | Carbon dioxide sensor | 21 |
| Formaldehyde sensor | 22 | Methane sensor | 23 |
| Smoke sensor | 24 | |
25 |
| |
26 | |
27 |
| Negative |
28 | |
29 |
| Sleep quality monitor | 31 | |
32 |
| Identity recognizer | 33 |
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
Please refer to fig. 1 to 4, a first embodiment of the present invention provides a vital sign monitoring device 100, which comprises a cabin 10 and a support bed 11, a sign monitoring component, an environment monitoring component and an environment purifying component, which are disposed in the cabin 10, wherein the sign monitoring component comprises a blood pressure detector 15, an oxyhemoglobin saturation collector 16 and a cardiomeasurer 17, the blood pressure detector 15 and the oxyhemoglobin saturation collector 16 are disposed on the inner wall of the cabin 10, the bottom of the support bed 11 is provided with a carrying box, and a measuring cuff of the blood pressure detector 15 and a measuring probe of the oxyhemoglobin saturation collector 16 are disposed in the carrying box.
Specifically, the blood pressure detector 15 can be divided into an embedded type and a wrist type according to different application scenarios, an electronic part of the embedded type blood pressure detector 15 is installed in the middle of an interlayer of the cabin 10, a measurement cuff is extended from a bedside position of the support bed 11, and the blood pressure detector 15 can be operated by using a mobile phone APP or voice. The wrist type blood pressure measurement is worn on the wrist of the user, and can be carried out in real time. The embedded blood pressure detector 15 is designed to be multifunctional parameter measurement, the static pressure measurement range is 0-280 mmHg, the pulse rate measurement is 20-240 BPM, the systolic pressure measurement range is 30-255 mmHg, the diastolic pressure measurement range is 30-220 mmHg, and the excessive pressurization may cause injury for neonates or children.
In this embodiment, the blood oxygen saturation collector 16 is a finger-clamped type measurement, the module electronic control part is installed in the interlayer of the wall of the cabin 10, and a finger-clamped measurement probe is extended from the lower side of the bed head and can be hung on the cabin wall, and the blood oxygen saturation collector 16 is hidden in the cabin wall and invisible, so that the space occupation is reduced, and the space of the cabin 10 is kept neat and disorderly. The in-process that can let the user rest in bed accomplishes the measurement, at head of a bed side-mounting, stretches out the hand and can take, and oxyhemoglobin saturation acquisition module data acquisition back, exports plethysmogram, bar chart, pulse rate, oxyhemoglobin saturation, and the measurement result passes to cloud ware through the network in real time.
In addition, in this embodiment, the heart measuring device 17 is designed to be wearable, thin, light, and small, and can be worn on the body at any time, especially during sleep, to output electrocardiographic data and heartbeat status data in real time. In the embodiment, the design of the bearing box effectively plays a role in shielding radiation, and high-power electronic equipment is intensively arranged in the metal box, so that the radiation of the electronic equipment is prevented to the maximum extent.
The environment monitoring assembly comprises a temperature and humidity sensor 18, a light sensor 19, a carbon monoxide sensor 20, a carbon dioxide sensor 21, a formaldehyde sensor 22, a methane sensor 23, a smoke sensor 24 and a mobile induction sensor 26 arranged at the bottom of the support bed 11 which are respectively arranged on the inner wall of the cabin body 10, the environment purification assembly comprises an ozone generator 27 and a negative oxygen ion generator 28, wherein the ozone generator 27 is designed and arranged at the top of the cabin body 10, and partial oxygen in the air is decomposed and polymerized into ozone (O3) by utilizing a high-pressure ionization method, so that the oxygen is in the same element and special-shaped transformation process. Because the relative molecular mass of ozone is 48, which is much larger than the average molecular mass 29 of air, the concentration of ozone ionized by the ozone generator is relatively high, and the ozone generator is in a descending diffusion state in the air, and the ozone generator 27 is arranged on the top, so that the whole cabin space can be covered, and the air environment, articles, the cabin 10, bedding and the like in the cabin 10 can be comprehensively sterilized. The negative oxygen ion generator 28 is arranged at the top of the cabin body 10, so that the living environment in the cabin can be improved more effectively, the relative molecular mass of the negative oxygen ions is 32, is slightly higher than the average relative molecular mass of air and is in a descending state in the air, and the generated negative oxygen ions can slowly descend and diffuse to cover the whole space of the cabin body 10 when arranged at the top. The air negative ion generator adopts high-voltage static silent discharge type air negative ion generator, high-voltage direct current ionizes air molecules, more air negative ions can be gathered at an anode, more air positive and negative ions can be gathered at a cathode, electrodes are made into a multi-pole needle shape to increase the air ionization quantity, formed positive ions are absorbed and neutralized by a high-voltage electric field negative part in the device, and formed negative ions descend and diffuse into the cabin body 10 to purify air and improve space environment.
Further, vital signs monitoring devices 100 still lighting assembly 29, lighting assembly 29 includes light, reading lamp, night-light and RGB lamp area, the light with the reading lamp is all located on the inner wall of the cabin body 10, the night-light is located on the lateral wall of the support bed 11 or the bottom surface, the RGB lamp area is located the top of the cabin body 10 reaches around.
Further, the vital signs monitoring assembly further comprises a height detector 13 and a weight detector 12, the height detector 13 is arranged at the top of the inner side of the cabin door of the cabin body 10, the weight detector 12 is arranged at the bottom of the inner side of the cabin door, wherein, the height detector 13 adopts the ultrasonic ranging technology, when a person stands under the ultrasonic sensor, the ultrasonic sensor at the top sends out ultrasonic waves, the head of the person returns, the distance between the top and the head of the person is calculated by the transmission speed and time of the sound waves in the air, and the height value of the person can be obtained by subtracting the measured distance from the total height from the top to the bottom, preferably, the weight detector 12 is aligned with the ultrasonic sensor of the height detector 13 up and down, the weighing bearing panel is embedded into the bottom of the cabin body 10 and is flush with the bottom plane of the cabin body 10, and the sensor and the electronic components are hidden in the interlayer of the cabin wall. When the weight is measured, the user can stand to the installation position. In this embodiment, the weight detector 12 adopts a resistance strain type sensor, when a person stands on the bearing panel, the resistance strain sheet is bent to a certain extent due to weight and pressure, so as to change the output value of the resistance network, and thus, the weight value on the bearing panel is calculated, through the design of the weight detector, a special weighing device is not required to be found when the person needs to measure, the measuring process can be completed as long as the person slightly pauses when walking, or the measuring process can be automatically completed when the person passes through an access hatch, the weighing bearing panel is designed to be flush with the bottom plane of the cabin 10, the person is prevented from kicking in the walking process, and meanwhile, no space is occupied in the cabin 10.
Preferably, in this embodiment, the ambient temperature and humidity are measured by using an integrated sensor, the temperature is an NTC temperature measurement element, and the humidity is a resistance-type humidity sensing element hidden on the inner wall of the cabin 10, so as to effectively monitor the temperature and humidity of the environment in the cabin in real time. Temperature and humidity sensor 18 is hidden and installed in the furred ceiling gap at the top in the cabin, and is installed centrally, and is about 30CM apart from the air outlet of air circulation, and this position has air to flow promptly, also does not form stronger air and flows. The air passing through the sensor can truly reflect the temperature state, and the measurement is accurate.
Carbon monoxide (CO) is colorless, odorless and nonirritating gas, and is easily combined with hemoglobin to form carboxyhemoglobin, so that the hemoglobin loses the oxygen carrying capacity and effect, and tissues are suffocated and die in serious cases. Carbon monoxide has toxic effects on systemic histiocytes, and especially on the cerebral cortex. Therefore, the carbon monoxide sensor 20 is designed and installed at the top in the cabin and used for detecting the concentration of carbon monoxide in the air, so that the safety of living environment is ensured, the maximum allowable content of carbon monoxide in the air for an adult is 50ppm, slight headache, dizziness and nausea can be caused within 1 to 2 hours when the concentration reaches 200ppm, the life risk can be caused after 3 hours when the concentration reaches 400ppm, and the higher the concentration is, the shorter the time the person can bear. The country stipulates a long-time workplace, the concentration of carbon monoxide in the air cannot exceed 24ppm, therefore, when the content of the carbon monoxide in the air in the cabin reaches 24ppm, a warning can be given through a display interface and a prompt sound, and when the concentration reaches 50ppm, a sound-light alarm can be given. Carbon dioxide (CO)2) Is a carbon oxide, is colorless and tasteless or colorless and odorless gas with slightly sour taste at normal temperature and normal pressure, is harmless to human body when the carbon dioxide is low, but can increase the carbonic acid concentration in blood and increase acidity when the carbon dioxide is over a certain amount, and can produce acidosis, feel stuffy, dizziness, palpitation, obnubilation and gradual respirationStop to death. Therefore, a carbon dioxide sensor 21 module is designed and installed under the bed in the cabin and used for detecting the content of carbon dioxide in the air and ensuring the safety of living environment. In natural environment, the normal content of carbon dioxide in the air is 0.04% (400PPM), and under the condition that no person is in the room, the concentration of carbon dioxide is generally about 500 to 700 PPM. When the concentration is more than 1000PPM, the patient feels turbid air and begins to feel drowsy, when the concentration is more than 2000PPM, the patient feels headache, somnolence, dull, unfocused attention, accelerated heartbeat and mild nausea, and when the concentration is more than 5000PPM, the patient can suffer from severe hypoxia, and permanent brain damage, coma and even death can be caused. Therefore, when the carbon dioxide concentration of the environment in the cabin reaches 1000PPM, the system gives a warning through the display device and the prompt tone, and when the carbon dioxide concentration reaches 2000PPM, the system gives an audible and visual alarm.
Note that the movement detection is performed by a pyroelectric infrared sensor. The infrared ray is invisible light, and the most remarkable characteristic of the infrared ray is that the infrared ray has a thermal effect, namely all substances higher than absolute zero can generate the infrared ray, the infrared ray emitted by a human body is passively detected by the sensor, when a person sits up from a bed and hangs legs on the edge of the bed, the infrared ray emitted by the legs can be transmitted to the sensor, the infrared sensor detects the change of the infrared spectrum of the human body, the action that the person needs to get off the bed can be detected, the main control panel is informed, and then the main control panel controls the opening of the night illuminating lamp.
The vital sign monitoring device 100 further comprises a main control chip 25, the main control chip 25 is electrically connected to the vital sign monitoring assembly, the environmental monitoring assembly and the environmental purification assembly, respectively, the cabin 10 is made of ABS material, and the cabin 10 is made in a plastic suction manner, the vital sign monitoring device 100 further comprises a display screen 32, the display screen 32 is electrically connected with the physical sign monitoring assembly, the environment monitoring assembly and the environment purifying assembly respectively, the bottom of the cabin 10 is further provided with a plurality of gas delivery pipes, the input ends of the gas delivery pipes are connected with a compressed air bottle, a heat exchanger, an oxygen generator or an oxygen bottle, in this embodiment, when the gas delivery reaches the top of the cabin 10, a small gas buffering cabin is designed, and conveyed gas is discharged from a pipeline and firstly enters the small buffering cabin and then enters the cabin body 10 from meshes of the small buffering cabin. The reason for this design is to avoid noise while also being aesthetically pleasing. When gas is rapidly sprayed out from a pipeline port with a smaller diameter, certain noise can be generated due to the change of strength and speed, for example, the gas pump of an oxygen generator is used for regularly filling the gas, if the gas outlet is smaller, the noise is generated, so that the gas is directly filled into the small buffer chamber by the pipeline with a larger diameter, the noise is not generated, and then the gas is conveyed into the cabin by the small buffer chamber through a plurality of meshes at a constant speed, and the top of the inner wall of the cabin body 10 is provided with a ventilation fan.
In this embodiment, be equipped with music massage mattress on the support bed 11, this mattress adopts sound wave vibrations technique to realize the massage, when the broadcast helps the music of sleep, more can play the effect that improves the sleep quality, conducts in airtight space according to the sound wave, forms vibrations principle to the impact of the medium in parcel space, on will shaking conducts the people's health through the mattress outer wall, produces the shake altogether with the health to reach the effect of massage. Different resonance frequencies are arranged at different positions of the body, and music with different amplitudes and frequencies can be played to carry out vibration massage on certain parts of the body in a targeted manner, such as the heart, the liver, the spleen and the like. Compared with the traditional mechanical massage, the utility model has the following advantages: (1) no mechanical moving parts, no mechanical noise and only beautiful music. (2) The traditional massage device only massages the surface of the body, and the music massage mattress can massage the internal organs of the body.
Furthermore, the embodiment is further provided with a power socket, a USB charging interface, a hat and coat hook, a clothesline, a television, a ceiling loudspeaker box, a calling system, a human-computer control interface and other equipment.
In the embodiment, a large enough space is arranged inside, a bed, a sensor, a network, illumination, storage, entertainment facilities and the like are designed and installed, an intelligent detection vital sign, a high-quality living environment and a clean and comfortable living space are created by adopting an electronic technology and a combination networking technology, the human health data are collected quickly and accurately, the prevention capability of some high-risk diseases is improved, meanwhile, an effective basis is provided for scientific health guidance, different environmental parameters in the cabin body 10 can be effectively and synchronously monitored by the design of the temperature and humidity sensor 18, the light sensor 19, the carbon monoxide sensor 20, the carbon dioxide sensor 21, the formaldehyde sensor 22, the methane sensor 23 and the smoke sensor 24, the monitoring efficiency in the vital sign monitoring process is improved, and the sign monitoring efficiency aiming at a user is ensured by the design of the sign monitoring component, and through the design of the environment purification assembly, the environment of the cabin body 10 can be effectively purified, the environment of a user in the monitoring process is improved, and the user experience is improved.
Please refer to fig. 5, which is a schematic diagram of a signal transmission structure in a vital sign monitoring device 100 according to a second embodiment of the present invention, the second embodiment is substantially the same as the first embodiment, and the difference is that in this embodiment, the vital sign monitoring assembly further includes a sleep quality monitor 31, the sleep quality monitor 31 is used for monitoring the heart rate, the respiration rate, the turning-over, the bed-leaving, the length of sleep, the sleep depth and the sleep cycle data of the user during the sleep process, the sleep quality monitor 31 adopts a non-contact sleep monitoring sensor (piezoelectric film sensor), and the sensor is laid under a bed sheet and corresponds to the chest position in a flat soft bag. Need not wear on one's body, the vibration of human thorax, the change of sleeping appearance form the different changes to the different positions of sensor to convert the signal of telecommunication into, the signal demonstrates the condition such as breathing, heartbeat, body movement after handling, and the sleep information of multidimension degree sampling user whole night, through the processing and the collection of sensor to sleep information data, exportable sleep curve, sleep report and quality score to can pass on the network transmits the result to high in the clouds server and cell-phone APP software.
Further, an identity recognizer 33 is further disposed on the cabin door of the cabin 10, the identity recognizer 33 is used for recognizing identity information of a user, and a human face recognition system and a fingerprint recognition system can be selectively installed according to use requirements by installing the identity recognizer 33 on the outer side of the cabin door. Thereby binding the measured data with the measured person.
The above-described embodiments describe the technical principles of the present invention, and these descriptions are only for the purpose of explaining the principles of the present invention, and should not be interpreted as limiting the scope of the present invention in any way. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.
Claims (10)
1. A vital signs monitoring device, comprising: including the cabin body and locating internal, support bed, sign monitoring subassembly, environmental monitoring subassembly and the environmental purification subassembly in cabin, the sign monitoring subassembly includes blood pressure monitor, oxyhemoglobin saturation collector and heart measurement ware, blood pressure monitor with oxyhemoglobin saturation collector's body is all located on the inner wall of the cabin body, the bottom of supporting the bed is equipped with bears the case, the environmental monitoring subassembly is including locating respectively temperature and humidity sensor, light sensor, carbon monoxide sensor, carbon dioxide sensor, formaldehyde sensor, methane sensor, smoke transducer on the internal wall of cabin and locating support the removal inductive transducer of bed bottom, the environmental purification subassembly includes ozone generator and negative oxygen ion generator.
2. The vital signs monitoring device of claim 1, wherein: vital sign monitoring devices still includes lighting assembly, lighting assembly includes light, reading lamp, night-light and RGB lamp area, the light with the reading lamp is all located on the inner wall of the cabin body, the night-light is located on the lateral wall of support bed or the bottom surface, RGB lamp area is located the top of the cabin body reaches on every side.
3. The vital signs monitoring device of claim 1, wherein: the physical sign monitoring assembly further comprises a height detector and a weight detector, the height detector is arranged at the top of the inner side of the cabin door of the cabin body, and the weight detector is arranged at the bottom of the inner side of the cabin door.
4. The vital signs monitoring device of claim 1, wherein: the physical sign monitoring assembly further comprises a sleep quality monitor, and the sleep quality monitor is used for monitoring the heart rate, the breathing rate, the turning-over, the bed leaving, the sleep duration, the sleep depth and the sleep cycle data of a user in the sleep process.
5. The vital signs monitoring device of claim 1, wherein: the vital sign monitoring device further comprises a main control chip, wherein the main control chip is respectively connected with the vital sign monitoring assembly, the environment monitoring assembly and the environment purifying assembly in an electric connection mode.
6. The vital signs monitoring device of claim 1, wherein: the cabin body is made of ABS materials, and the cabin body is manufactured in a plastic suction mode.
7. The vital signs monitoring device of claim 1, wherein: the vital sign monitoring device further comprises a display screen, and the display screen is respectively connected with the vital sign monitoring assembly, the environment monitoring assembly and the environment purifying assembly in an electric connection mode.
8. The vital signs monitoring device of claim 1, wherein: and an identity recognizer is also arranged on the cabin door of the cabin body and used for recognizing the identity information of the user.
9. The vital signs monitoring device of claim 1, wherein: the bottom of the cabin body is also provided with a plurality of gas delivery pipes, and the input ends of the gas delivery pipes are connected with a compressed air bottle, a heat exchanger, an oxygen generator or an oxygen bottle.
10. The vital signs monitoring device of claim 1, wherein: and the inner wall of the cabin body is provided with a ventilation fan.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921101278.2U CN211187206U (en) | 2019-07-15 | 2019-07-15 | Vital sign monitoring device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921101278.2U CN211187206U (en) | 2019-07-15 | 2019-07-15 | Vital sign monitoring device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211187206U true CN211187206U (en) | 2020-08-07 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921101278.2U Active CN211187206U (en) | 2019-07-15 | 2019-07-15 | Vital sign monitoring device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN211187206U (en) |
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2019
- 2019-07-15 CN CN201921101278.2U patent/CN211187206U/en active Active
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