CN212015571U - Vital sign monitoring device - Google Patents
Vital sign monitoring device Download PDFInfo
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- CN212015571U CN212015571U CN201921101269.3U CN201921101269U CN212015571U CN 212015571 U CN212015571 U CN 212015571U CN 201921101269 U CN201921101269 U CN 201921101269U CN 212015571 U CN212015571 U CN 212015571U
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Abstract
The utility model provides a vital sign monitoring devices, including the cabin body and locating the internal support bed in cabin, sign monitoring components, massage mattress, system oxygen subassembly and music broadcast subassembly, sign monitoring components includes blood pressure monitor, oxyhemoglobin saturation collector and heart measurement ware, the inner wall of the cabin body is all located to blood pressure monitor and oxyhemoglobin saturation collector's body, the bottom of supporting the bed is equipped with the bearing box, the measuring probe of blood pressure monitor's measuring sleeve area and oxyhemoglobin saturation collector all locates in the bearing box, massage mattress sets up at the support bed, system oxygen subassembly including set up at the peripheral pipeline of support bed and with pipe connection's oxygenerator, the pipeline ring shape sets up at the support bed periphery, oxygenerator is used for oxygen to pipeline, be provided with a plurality of through-holes on the pipeline, oxygen in the pipeline passes through the through-hole flow direction and supports the bed periphery. Can provide oxygen for vital sign monitoring devices through relieving itching subassembly like this, promote user experience.
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. Along with economic development, people have produced the demand of carrying out health care at ordinary times, and the demand of people to health care at ordinary times has just in time been solved in the appearance of physical examination storehouse, however, the physical examination storehouse can also give people certain pressure to the physical examination storehouse is mostly confined, so, can lead to the not comfortable condition of user's breathing, has reduced user's experience.
Disclosure of Invention
Based on this, the utility model aims at providing a vital sign monitoring devices aims at solving current vital sign monitoring process, because the physical examination storehouse seals and leads to the user to breathe not smooth and easy problem.
A vital sign monitoring device comprises a cabin body, a support bed, a sign monitoring assembly, a massage mattress, an oxygen generation assembly and a music playing assembly, wherein the support bed, the sign monitoring assembly, the massage mattress, the oxygen generation assembly and the music playing assembly are arranged in the cabin body, the sign monitoring assembly comprises a blood pressure detector, an oxyhemoglobin saturation collector and a heart measurer, the blood pressure detector and the oxyhemoglobin saturation collector are arranged on the inner wall of the cabin body, a bearing box is arranged at the bottom of the support bed, a measurement sleeve of the blood pressure detector and a measurement probe of the oxyhemoglobin saturation collector are arranged in the bearing box, the massage mattress is arranged on the support bed, the oxygen generation assembly comprises a pipeline arranged at the periphery of the support bed and an oxygen generator connected with the pipeline, the pipeline is annularly arranged at the periphery of the support bed, the oxygen generator is used for conveying oxygen to the pipeline, a plurality of, oxygen in the pipeline flows to the periphery of the support bed through the through hole, the music playing assembly comprises a music player and a voice sensor, the voice sensor is electrically connected with the player, the music player and the voice sensor are both arranged on the support bed, and the voice sensor is used for controlling the music player to play music.
Above-mentioned vital sign monitoring devices through the design of sign monitoring subassembly, has ensured the sign monitoring efficiency to the user, and the setting up of massage mattress is convenient can make the user be fit for can massaging through the massage mattress at the rest, so can make the user more comfortable, promotes user experience. The arrangement of the oxygen generator and the pipeline can convey clean oxygen into the cabin, so that the user can breathe fresh oxygen, the user is more comfortable, and the condition of oxygen deficiency or unsmooth breathing cannot occur. The music can be broadcast in the setting of music broadcast subassembly, so alleviate user's catastrophe through the music when the user is nervous, can also promote vital sign monitoring devices's monitoring degree of accuracy when promoting user experience.
Further, the vital sign detection device further comprises a massage chair, and the massage chair is arranged in the cabin body.
Further, the pipeline is made of stainless steel.
Further, vital sign monitoring devices still includes the environmental monitoring subassembly, the environmental monitoring subassembly is including locating the temperature sensor on the internal wall of cabin respectively, humidity transducer, carbon monoxide sensor, the carbon dioxide sensor, the formaldehyde sensor, the methane sensor, smoke transducer and the evaporimeter of locating the removal inductive pick-up that supports the bed bottom and being connected with humidity transducer, the temperature regulator who is connected with temperature sensor, the carbon monoxide absorber who is connected with carbon monoxide sensor, the carbon dioxide clarifier of being connected with carbon dioxide sensor, the formaldehyde absorber who is connected with the formaldehyde sensor, the methane absorber who is connected with the methane sensor, the smoke receiver who is connected with smoke transducer and the light that removes inductive pick-up and be connected.
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 cabin door of the cabin body, and the weight detector is arranged at the bottom of the cabin door.
Further, vital sign monitoring devices includes lighting assembly, lighting assembly with voice sensor electric connection, lighting assembly is used for the cabin body provides illumination, voice sensor is used for controlling lighting assembly works.
Further, the lighting assembly comprises an illuminating lamp, a reading lamp, a night lamp and an RGB lamp belt.
Further, a ventilation fan is arranged on the top of the inner wall of the cabin body and electrically connected with the voice sensor, and the voice sensor is used for controlling the ventilation fan to be turned on and off.
Further, vital sign monitoring devices still includes environmental purification subassembly, environmental purification subassembly includes ozone generator and negative oxygen ion generator.
Further, vital sign monitoring devices still includes main control chip, main control chip respectively with the vital sign monitoring subassembly the environmental monitoring subassembly music broadcast subassembly the system oxygen subassembly with environmental purification subassembly electric connection.
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.
Description of the symbols of the main elements
Vital | 100 | | 10 |
| 11 | | 12 |
| 13 | | 15 |
Blood | 16 | Heart | 17 |
| 18 | | 19 |
| 20 | | 21 |
| 22 | | 23 |
| 24 | | 25 |
| 26 | | 27 |
Negative | 28 | | 29 |
| 32 | | 34 |
| 35 | | 39 |
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.
Referring to fig. 1 to 4, an embodiment of the present invention provides a vital sign monitoring device 100, which includes a cabin 10 and a support bed 11 disposed in the cabin 10, a sign monitoring assembly, a massage mattress, an oxygen generation assembly 35 and a music playing assembly 39, wherein the sign monitoring assembly includes a blood pressure detector 15, an oxyhemoglobin saturation collector 16 and a heart measurer 17, the blood pressure detector 15 and the oxyhemoglobin saturation collector 16 are disposed on an inner wall of the cabin 10, a carrying box is disposed at the bottom of the support bed 11, the measuring cuff of the blood pressure detector 15 and the measuring probe of the oxyhemoglobin saturation collector 16 are disposed in the carrying box, the massage mattress is disposed on the support bed 11, the oxygen generation assembly 35 includes a pipeline disposed at the periphery of the support bed 11 and an oxygen generator connected to the pipeline, the pipeline is disposed at the periphery of the support bed 11 in an annular manner, the oxygen generator is used for delivering oxygen to the pipeline, the pipeline is provided, oxygen in the pipeline flows to the periphery of the support bed 11 through the through hole, the music playing component 39 comprises a music player and a voice sensor 34, the voice sensor 34 is electrically connected with the player, the music player and the voice sensor are both arranged on the support bed 11, and the voice sensor is used for controlling the music player to play music.
Above-mentioned vital sign monitoring devices 100 through the design of sign monitoring subassembly, has ensured the sign monitoring efficiency to the user, and the setting up of massage mattress is convenient can make the user be fit for can massaging through the massage mattress at the rest, so can make the user more comfortable, promotes user experience. The arrangement of the oxygen generator and the pipeline can convey clean oxygen into the cabin body 10, so that the user can breathe fresh oxygen, the user is more comfortable, and the situation of oxygen deficiency or unsmooth breathing is avoided. Music can be broadcast in the setting of music broadcast subassembly 39, like this alleviates user's catastrophe through the music when the user is nervous, can also promote vital sign monitoring devices 100's monitoring degree of accuracy when promoting user experience.
The cabin body 10 can be made of ABS (acrylonitrile (A), butadiene (B), terpolymer of three kinds of monomers of styrene (S)) plastics, the ABS plastics are easy to obtain and the price is low, the mass production of the vital sign monitoring device is facilitated, moreover, the ABS plastics have strong impact resistance, high hardness and high friction resistance coefficient, so the condition that the cabin body 10 is damaged by external objects can be prevented, and the service life of the vital sign monitoring device can be prolonged. Of course, the vital signs monitoring device may not only be made of ABS plastic. Can be made of different materials according to different situations. For example, the enclosure 10 may also be made of polycarbonate. The specific material of the cabin 10 is not limited herein.
Further, all paste on the internal wall of cabin 10 and be equipped with sound insulation material, so make the user in the cabin 10 can not influenced by the noise of external noisy. A quiet and comfortable environment is created for the user, and the user experience is improved.
Furthermore, the blood pressure monitor 15 can be classified into an embedded type and a wrist type according to different application scenarios, an electronic part of the embedded type blood pressure monitor 15 is installed in the middle of the interlayer of the cabin 10, and a measuring cuff is extended from the bedside position of the support bed 11, and the operation of the blood pressure monitor 15 can be performed 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 is 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.
Furthermore, the heart measuring device 17 is designed to be wearable, light, thin and small, and can be worn on the body at any time, particularly during sleep, and electrocardiogram data and heartbeat state data are output in real time. In the embodiment, through the design of the bearing box, the radiation shielding effect is effectively achieved, and the high-power electronic equipment is intensively arranged in the metal box body, so that the radiation of the electronic equipment is prevented to the maximum extent.
Further, the vital sign detection device further comprises a massage chair, and the massage chair is arranged in the cabin 10.
The setting of massage armchair makes the user can sit and massage on the massage armchair and relax when need not lying down, gives the user one more selection to promote user experience.
Further, the pipeline is made of stainless steel.
Stainless steel has high hardness and high corrosion resistance. The pipeline adopts stainless steel to support can promote the service life of pipeline effectively. So that the user does not need to change the pipeline frequently. The number of times of changing the pipeline is reduced, the service life of the vital sign monitoring device is prolonged, the vital sign monitoring device is more economical, and the mass production of the vital sign monitoring device is facilitated. It will be appreciated that the pipe may be made of more than just fine steel. The material of the pipe may be arranged according to different situations. For example, the pipe may be made of a metal material such as copper or iron. For another example, the conduit may be made of a non-metallic material such as plastic. The specific material of the pipe is not limited herein.
Referring to fig. 4, further, the vital sign monitoring device further includes an environment monitoring assembly, wherein the environment monitoring assembly includes a temperature sensor 19, a humidity sensor 18, a carbon monoxide sensor 20, a carbon dioxide sensor 21, a formaldehyde sensor 22, a methane sensor 23, a smoke sensor 24, a mobile induction sensor 26 disposed at the bottom of the support bed 11, an evaporator connected to the humidity sensor 18, a temperature regulator connected to the temperature sensor 19, a carbon monoxide absorber connected to the carbon monoxide sensor 20, a carbon dioxide purifier connected to the carbon dioxide sensor 21, a formaldehyde absorber connected to the formaldehyde sensor 22, a methane absorber connected to the methane sensor 23, a smoke receiver connected to the smoke sensor 24, and a lighting lamp connected to the mobile induction sensor 26, which are respectively disposed on the inner wall of the cabin 10.
The temperature sensor 19 can be used to monitor the temperature within the enclosure 10 and to regulate the temperature within the enclosure 10 by a temperature regulator when the temperature is too high or too high. The temperature regulator may be an air conditioner disposed in the cabin 10. The temperature sensor 19 stores proper temperature data, and when the temperature sensor 19 identifies that the temperature in the cabin 10 is higher than the temperature data, the air conditioner is controlled to start the refrigeration mode to cool the cabin 10. When the temperature sensor 19 recognizes that the temperature in the cabin 10 is lower than the temperature data, the air conditioner is controlled to start the heating mode to heat the cabin 10. This allows the cabin 10 to be maintained in a suitable temperature environment at all times. And the user experience is improved.
The humidity sensor 18 is used to monitor the humidity inside the cabin 10, and the humidity inside the cabin 10 is adjusted by the evaporator when the humidity is too high or too low. The operating principle of the humidity sensor 18 is substantially the same as that of the temperature sensor 19. This is not repeated herein.
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 state stipulates a long-time working place, and the concentration of carbon monoxide in the air cannot exceed 24ppm, so when the content of carbon monoxide in the air in the cabin reaches 24ppm, the carbon monoxide sensor 20 controls the carbon monoxide absorber to work, and absorbs the carbon monoxide gas in the air, so that the carbon monoxide concentration in the control is maintained in a proper interval.
Carbon dioxide (CO 2) is a carbon oxide, and is colorless and tasteless or colorless and odorless and slightly sour at normal temperature and pressure, and when carbon dioxide is small, it is harmless to human body, but when it exceeds a certain amount, it increases the carbonic acid concentration in blood, increases acidity, and produces acidosis, feeling stuffy, dizziness, palpitation, unconsciousness, and gradual cessation of breathing, resulting in 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% (400 PPM), 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 0PPM, 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 in the environment in the cabin reaches 0PPM, the carbon dioxide sensor 21 controls the carbon dioxide purifier to work, so as to absorb the carbon dioxide in the air, and the carbon dioxide in the air is in a proper range.
Formaldehyde (HCHO) is a toxic gas. When the formaldehyde reaches a certain concentration indoors, people feel uncomfortable. Formaldehyde concentrations greater than 0.08mg/m may cause redness, itching of the eye, discomfort or pain in the throat, hoarseness, sneezing, chest distress, asthma, dermatitis, etc. The newly decorated room has high formaldehyde content and is the main cause of many diseases. Therefore, when the formaldehyde sensor 22 recognizes that the formaldehyde concentration in the cabin 10 is greater than 0.08mg/m, the formaldehyde sensor 22 controls the formaldehyde absorber to work to absorb formaldehyde in the cabin 10 so as to maintain the formaldehyde concentration in the cabin 10 in an appropriate range.
Methane (CH 4) is a flammable gas and can also cause physical changes to the user. When the methane content in the air reaches 25% -30%, headache, dizziness, asthenia, inattention, acceleration of respiration and heartbeat, and ataxia can be caused. If not kept away in time, asphyxia can occur. Skin contact with liquefied methane can cause frostbite. When the methane sensor 23 recognizes that the methane concentration in the cabin 10 exceeds 25%, the methane sensor 23 controls the methane absorber to absorb the methane in the cabin 10 so as to maintain the methane concentration in the cabin 10 in a suitable range.
Too high smoke concentration may affect the user's visual field, and may lead to a user falling due to poor visibility. When the smoke sensor 24 recognizes that the smoke concentration in the cabin 10 is too high, the smoke sensor 24 controls the smoke absorber to work to absorb the smoke in the cabin 10 so as to maintain the smoke in the cabin 10 in a suitable range.
The motion-sensitive sensor 26 is 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.
Of course, the sensors in the vital signs monitoring device are not only the temperature sensor 19, the humidity sensor 18, the carbon monoxide sensor 20, the carbon dioxide sensor 21, the formaldehyde sensor 22, the methane sensor 23, the smoke sensor 24 and the motion sensor 26, but other sensors can be arranged in the vital signs monitoring device according to different situations. For example, an illumination sensor or the like may also be provided in the vital signs monitoring device. The specific type of sensor in the vital signs monitoring device is not limited herein.
Referring to fig. 4, further, the physical sign monitoring assembly further includes a height detector 13 and a weight detector 12, the height detector 13 is disposed at the top of the cabin 10, and the weight detector 12 is disposed at the bottom of the cabin.
The height detector 13 uses 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 according to the transmission speed and time of the sound waves in the air, and the height value of the human body can be obtained by subtracting the measurement distance from the total height from the top to the bottom. Of course, the height detector 13 may employ not only the ultrasonic ranging technique. The measurement mode of the height detector 13 can be set according to different situations. The specific measurement mode of the height detector 13 is not limited herein.
The ultrasonic sensor of weight detector 12 and height detector 13 aligns from top to bottom, so the user can also measure the height in the lump when measuring the weight, has promoted measuring efficiency, and the load-bearing panel that weighs imbeds cabin body 10 bottom, with cabin body 10 baseplane parallel and level, sensor and electronic components hide in the cabin wall intermediate layer. When the weight is measured, the user can stand to the installation position. In this embodiment, the weight detector 12 is a resistance strain sensor, when a person stands on the load-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, thereby calculating the weight value on the load-bearing panel, through the design of the weight detector, the need of finding a special weighing device when measuring is needed is eliminated, the measuring process can be completed as long as the person slightly pauses when walking, or the measuring process can be automatically completed when passing through an access door, the load-bearing panel is designed to be flush with the bottom plane of the cabin 10, the person is prevented from kicking during the walking process, and meanwhile, no space is occupied in the cabin 10.
Referring to fig. 4, the vital signs monitoring device 100 further includes an illumination assembly 29 electrically connected to the voice sensor 34, the illumination assembly 29 is used for providing illumination to the cabin 10, and the voice sensor 34 is used for controlling the operation of the illumination assembly 29.
The illumination assembly 29 is capable of illuminating the interior of the cabin 10. Therefore, the interior of the cabin 10 is brighter, and the user experience is not influenced by insufficient brightness in the cabin 10. The voice sensor 34 is connected to the lighting assembly 29 to facilitate user manipulation of the lighting assembly 29. The user does not need to press a switch to control the lighting assembly 29. The user can control the operation of the lighting assembly 29 by voice through the voice sensor 34. The process that the user controls the lighting assembly 29 through the switch is reduced, and the user experience is improved.
Further, the lighting assembly 29 includes an illumination lamp, a reading lamp, a night lamp, and an RGB lamp strip.
A variety of lights are provided to facilitate use of the lighting assembly 29 by a user. The user can select different kinds of lamps according to the demand of oneself, promotes user experience.
Further, a ventilation fan is disposed on the top of the inner wall of the cabin 10, the ventilation fan is electrically connected to the voice sensor 34, and the voice sensor 34 is used for controlling the opening and closing of the ventilation fan.
The ventilation fan can make the air in the cabin 10 fresher, so that the user can breathe fresh air.
Further, the vital signs monitoring device further comprises an environmental purification assembly comprising an ozone generator 27 and a negative oxygen ion generator 28.
The ozone generator 27 is designed to be installed at the top of the cabin 10, and decomposes and polymerizes part of oxygen in the air into ozone (O3) by using a high-pressure ionization method, which is an allotropic transformation process of oxygen. Because the relative molecular mass of ozone is much larger than the average molecular mass of air, the concentration of ozone ionized by the ozone generator is relatively high and is in a descending diffusion state in the air, and the ozone generator 27 is arranged at the top and can cover the whole cabin space to comprehensively sterilize the air environment, articles, the cabin 10, bedding and the like in the cabin 10. The negative oxygen ion generator 28 is installed at the top of the cabin 10 to improve the living environment in the cabin more effectively, because the relative molecular mass of the negative oxygen ions is slightly higher than the average relative molecular mass of the air and is in a descending state in the air, the negative oxygen ions generated by the negative oxygen ion generator are installed at the top and can slowly descend and diffuse to cover the whole space of the cabin 10. 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 sign monitoring devices 100 still includes main control chip 25, and main control chip 25 respectively with sign monitoring subassembly, environmental monitoring subassembly, music broadcast subassembly 39, system oxygen subassembly 35 and environmental purification subassembly electric connection.
The main control chip 25 can obtain data measured by the physical sign monitoring component, the environmental monitoring component and the environmental purification component.
In other embodiments, the vital sign monitoring device includes a display screen 32 disposed in the cabin 10, the display screen 32 is connected to the main control chip 25, and the display screen 32 is used for displaying data collected by the main control chip 25.
Specifically, the display screen 32 may be an LED (light emitting diode) display screen. The LED display screen has high brightness and high definition, and the display screen 32 is convenient for users to watch. It will be appreciated that the display screen 32 may be implemented as an LED display screen. The type of display screen 32 may be set according to different situations. For example, the display screen 32 may also be an LCD display screen. The specific type of display screen 32 is not limited herein.
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 10 can be effectively and synchronously monitored by the design of the temperature and humidity sensor 18, 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, the sign monitoring efficiency aiming at a user is ensured by the design of the sign monitoring component, and the design of the environment purification component is adopted, the environment of the cabin 10 can be effectively purified, the environment of the user in the monitoring process is improved, and the user experience is improved.
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: comprises a cabin body and a support bed, a sign monitoring component, a massage mattress, an oxygen production component and a music playing component which are arranged in the cabin body, wherein the sign monitoring component comprises a blood pressure detector, an oxyhemoglobin saturation collector and a heart measurer, the blood pressure detector and a body of the oxyhemoglobin saturation collector are arranged on the inner wall of the cabin body, the bottom of the support bed is provided with a bearing box, a measuring sleeve belt of the blood pressure detector and a measuring probe of the oxyhemoglobin saturation collector are arranged in the bearing box, the massage mattress is arranged on the support bed, the oxygen production component comprises a pipeline which is arranged at the periphery of the support bed and an oxygen generator which is connected with the pipeline, the pipeline is annularly arranged at the periphery of the support bed, the oxygen generator is used for conveying oxygen to the pipeline, a plurality of through holes are arranged on the pipeline, and oxygen in the pipeline flows to the periphery of the support bed through the through holes, the music playing assembly comprises a music player and a voice sensor, the voice sensor is electrically connected with the music player, the music player and the voice sensor are both arranged on the support bed, and the voice sensor is used for controlling the music player to play music.
2. The vital signs monitoring device of claim 1, wherein: the vital sign detection device further comprises a massage chair, and the massage chair is arranged in the cabin body.
3. The vital signs monitoring device of claim 1, wherein: the pipeline is made of stainless steel.
4. The vital signs monitoring device of claim 1, wherein: vital sign monitoring devices still includes the environmental monitoring subassembly, the environmental monitoring subassembly is including locating the temperature sensor on the cabin body inner wall respectively, humidity transducer, the carbon monoxide sensor, the carbon dioxide sensor, the formaldehyde sensor, the methane sensor, smoke transducer and the evaporimeter of locating the removal inductive pick-up that supports the bed bottom and being connected with humidity transducer, the temperature regulator who is connected with temperature sensor, the carbon monoxide absorber who is connected with the carbon monoxide sensor, the carbon dioxide clarifier of being connected with the carbon dioxide sensor, the formaldehyde absorber who is connected with the formaldehyde sensor, the methane absorber who is connected with the methane sensor, the smoke receiver who is connected with smoke transducer and the light that the removal inductive pick-up is connected.
5. 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 cabin door of the cabin body, and the weight detector is arranged at the bottom of the cabin door.
6. The vital signs monitoring device of claim 1, wherein: vital sign monitoring devices includes lighting assembly, lighting assembly with voice sensor electric connection, lighting assembly be used for the cabin body provides illumination, voice sensor is used for control lighting assembly works.
7. Vital signs monitoring device according to claim 6, wherein: the lighting assembly comprises a lighting lamp, a reading lamp, a night lamp and an RGB lamp belt.
8. The vital signs monitoring device of claim 1, wherein: the top of the inner wall of the cabin body is provided with a ventilation fan, the ventilation fan is electrically connected with the voice sensor, and the voice sensor is used for controlling the opening and closing of the ventilation fan.
9. Vital signs monitoring device according to claim 4, wherein: the vital sign monitoring device further comprises an environment purification assembly, wherein the environment purification assembly comprises an ozone generator and a negative oxygen ion generator.
10. The vital signs monitoring device of claim 9, 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, the music playing assembly, the oxygen generation assembly and the environment purification assembly in an electric connection mode.
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CN113558617A (en) * | 2021-07-09 | 2021-10-29 | 广东科谷智能科技有限公司 | Comprehensive lighting and nourishing system taking user real-time blood oxygen monitoring value as adjustment quantity |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113558617A (en) * | 2021-07-09 | 2021-10-29 | 广东科谷智能科技有限公司 | Comprehensive lighting and nourishing system taking user real-time blood oxygen monitoring value as adjustment quantity |
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Effective date of registration: 20231017 Address after: 315700 Huang Biao Xiang Gao Ni Cun, Xiangshan County, Ningbo City, Zhejiang Province Patentee after: Ningbo Huayi Health Industry Development Co.,Ltd. Address before: 315700 gaoni village, huangbiao Township, Xiangshan County, Ningbo City, Zhejiang Province Patentee before: Ningbo Huayi Tourism Development Co.,Ltd. |