技术领域technical field
本发明涉及寝具技术领域,特别是涉及一种睡眠仓、应用该睡眠仓的促进睡眠的方法及具有储存功能的装置。The invention relates to the technical field of bedding, in particular to a sleep cabin, a method for promoting sleep using the sleep cabin, and a device with a storage function.
背景技术Background technique
随着科学技术的迅速发展,人们生活水平的提高,人们对睡眠质量的要求也越来越高,尤其对工作比较忙的或者工作任务比较繁重的或者生活工作压力大的或者睡眠质量不好的人群,噪音环境或者户外环境对人们的睡眠产生影响,延长了人们进入睡眠的时间,降低睡眠质量,如此,创造一个安静舒适的睡眠环境,并缩短人们进入睡眠的时间是急需解决的问题。With the rapid development of science and technology and the improvement of people's living standards, people's requirements for sleep quality are getting higher and higher, especially for those who are busy at work or have heavy work tasks or those who are under great pressure or have poor sleep quality. Crowds, noise environment or outdoor environment have an impact on people's sleep, prolong the time for people to fall asleep, and reduce the quality of sleep. Therefore, creating a quiet and comfortable sleeping environment and shortening the time for people to fall asleep is an urgent problem to be solved.
发明内容Contents of the invention
本发明主要解决的技术问题是提供一种睡眠仓,其旨提供一种能够缩短仓体内用户进入睡眠的时间的睡眠仓。The main technical problem to be solved by the present invention is to provide a sleep cabin, which aims to provide a sleep cabin that can shorten the time for a user in the cabin to go to sleep.
为解决上述问题,本发明提供一种睡眠仓,该睡眠仓包括仓体、氧气浓度调整模块、控制模块,所述仓体能够开启和闭合,所述氧气浓度调整模块用于调整所述仓体内的氧气浓度;以及所述控制模块与所述氧气浓度调整模块电性耦接;所述控制模块能够控制所述氧气浓度调整模块调整所述仓体内的氧气浓度,至少S0min后其浓度为N1mol/kL,所述仓体内的氧气浓度保持在N1mol/kL至少S1min;调整后的所述仓体内的氧气浓度N1低于调整前的所述仓体外的氧气浓度至少1%。In order to solve the above problems, the present invention provides a sleep chamber, which includes a chamber body, an oxygen concentration adjustment module, and a control module, the chamber body can be opened and closed, and the oxygen concentration adjustment module is used to adjust the oxygen concentration in the chamber body. and the control module is electrically coupled with the oxygen concentration adjustment module; the control module can control the oxygen concentration adjustment module to adjust the oxygen concentration in the chamber, and its concentration after at least S0 min is N1 mol/kL, the oxygen concentration in the chamber is maintained at N1 mol/kL for at least S1 min; the adjusted oxygen concentrationN in the chamber is lower than the oxygen concentration outside the chamber before adjustment by at least 1%.
其中,睡眠仓还包括氧气浓度监测模块,所述氧气浓度监测模块与所述控制模块电性耦接;所述氧气浓度监测模块包括第一氧气浓度监测模块和第二氧气浓度监测模块,所述第一氧气监测模块用于监测所述仓体外氧气浓度,所述第二氧气监测模块用于监测所述仓体内氧气浓度;所述控制模块能够根据所述第一氧气浓度监测模块和所述第二氧气浓度监测模块监测到所述仓体内外的氧气浓度,控制所述氧气浓度调整模块实时修正所述仓体内的氧气浓度。Wherein, the sleep cabin also includes an oxygen concentration monitoring module, the oxygen concentration monitoring module is electrically coupled with the control module; the oxygen concentration monitoring module includes a first oxygen concentration monitoring module and a second oxygen concentration monitoring module, the The first oxygen monitoring module is used to monitor the oxygen concentration outside the chamber, and the second oxygen monitoring module is used to monitor the oxygen concentration inside the chamber; the control module can be based on the first oxygen concentration monitoring module and the second The second oxygen concentration monitoring module monitors the oxygen concentration inside and outside the chamber, and controls the oxygen concentration adjustment module to correct the oxygen concentration in the chamber in real time.
其中,调整后的所述仓体内的氧气浓度N1低于调整前的所述仓体外的氧气浓度的1.1%~10%之间任一值。Wherein, the adjusted oxygen concentrationN1 inside the chamber is lower than any value between 1.1% and 10% of the oxygen concentration outside the chamber before adjustment.
其中,所述S0min为0.01min至10min之间任一值。Wherein, the S0 min is any value between 0.01 min and 10 min.
其中,所述S1分钟为0min至60min之间任一值。Wherein, said S1 minute is any value between 0min and 60min.
其中,调整所述仓体内的氧气浓度保持在N1mol/kL至少S1min之后,调整所述仓体内的氧气浓度保持在N2mol/kL至少S2分钟;Wherein, after adjusting the oxygen concentration in the chamber to maintain N1 mol/kL for at least S1 min, adjust the oxygen concentration in the chamber to maintain N2 mol/kL for at least S2 minutes;
调整后的所述仓体内的氧气浓度N2高于所述仓体外的氧气浓度至少1%。The adjusted oxygen concentrationN2 inside the chamber is at least 1% higher than the oxygen concentration outside the chamber.
其中,调整后的所述仓体内的氧气浓度N2高于调整前的所述仓体内的氧气浓度1.1%~10%,所述S2分钟大于等于1min。Wherein, the oxygen concentrationN2 in the chamber after adjustment is 1.1%-10% higher than the oxygen concentration in the chamber before adjustment, and theS2min is greater than or equal to 1min.
其中,至少S0min后所述仓体内的氧气浓度为N1mol/kL时,所述仓体内的气压低于调整前的所述仓体外气压。Wherein, when the oxygen concentration in the chamber is N1 mol/kL after at least S0 min, the air pressure in the chamber is lower than the air pressure outside the chamber before adjustment.
本发明还提出一种用于睡眠仓的促进睡眠的方法,所述睡眠仓包括控制模块和氧气浓度调整模块,所述氧气浓度调整模块用于调整所述仓体内的氧气浓度,且所述控制模块与所述氧气浓度调整模块电性耦接,所述控制模块能够控制所述氧气浓度调整模块调整所述仓体内的氧气浓度,至少S0min后其浓度为N1mol/kL,并所述仓体内的氧气浓度保持在N1mol/kL至少S1min;The present invention also proposes a method for promoting sleep in a sleep cabin, the sleep cabin includes a control module and an oxygen concentration adjustment module, the oxygen concentration adjustment module is used to adjust the oxygen concentration in the cabin, and the control The module is electrically coupled with the oxygen concentration adjustment module, and the control module can control the oxygen concentration adjustment module to adjust the oxygen concentration in the chamber. After at least S0 min, the concentration is N1 mol/kL, and the The oxygen concentration in the chamber is kept at N1 mol/kL for at least S1 min;
其中,调整后的所述仓体内的氧气浓度N1低于调整前的所述仓体外的氧气浓度至少1%。Wherein, the adjusted oxygen concentrationN1 inside the chamber is at least 1% lower than the oxygen concentration outside the chamber before adjustment.
其中,所述睡眠仓还包括氧气浓度监测模块,所述氧气浓度监测模块与所述控制模块电性耦接,所述氧气浓度监测模块包括第一氧气浓度监测模块和第二氧气浓度监测模块,所述第一氧气浓度监测模块用于监测所述仓体内氧气浓度,所述第二氧气浓度监测模块用于监测所述仓体外氧气浓度;Wherein, the sleep cabin also includes an oxygen concentration monitoring module, the oxygen concentration monitoring module is electrically coupled to the control module, and the oxygen concentration monitoring module includes a first oxygen concentration monitoring module and a second oxygen concentration monitoring module, The first oxygen concentration monitoring module is used to monitor the oxygen concentration inside the chamber, and the second oxygen concentration monitoring module is used to monitor the oxygen concentration outside the chamber;
其中,所述控制模块能够根据所述第一氧气浓度监测模块和所述第二氧气浓度监测模块监测到的所述仓体内外的氧气浓度,控制所述氧气浓度调整模块实时修正所述仓体内的氧气浓度。Wherein, the control module can control the oxygen concentration adjustment module to correct the oxygen concentration in the chamber in real time according to the oxygen concentration inside and outside the chamber monitored by the first oxygen concentration monitoring module and the second oxygen concentration monitoring module. oxygen concentration.
其中,调整所述仓体内的氧气浓度保持在N1mol/kL至少S1min之后,调整所述仓体内的氧气浓度保持在N2mol/kL至少S2min;Wherein, after adjusting the oxygen concentration in the chamber to maintain N1 mol/kL for at least S1 min, adjust the oxygen concentration in the chamber to maintain N2 mol/kL for at least S2 min;
调整后的所述仓体内的氧气浓度N2高于调整前的所述仓体内的氧气浓度至少1%,所述S2min大于等于1min;The oxygen concentration N2 in the chamber after adjustment is at least 1% higher than the oxygen concentration in the chamber before adjustment, and the S2 min is greater than or equal to 1 min;
其中,所述S0min可以为0.01min至10min之间任一值,所述S1min 可以为0min至3min之间任一值。Wherein, the S0 min can be any value between 0.01 min and 10 min, and the S1 min can be any value between 0 min and 3 min.
本发明还提出一种具有储存功能的装置,用于存储有程序数据,所述程序数据被执行时能够实现如上所述的方法。The present invention also proposes a device with a storage function, which is used to store program data, and the program data can implement the above-mentioned method when executed.
以上方案,本发明的氧气浓度调整模块通过控制模块对仓体内的氧气浓度进行调节,当氧气浓度调整模块接收控制模块发出的降低氧气浓度的控制信号后,控制仓体内的氧气浓度逐渐降低,使得用户更容易产生困觉,并保持在一定时间,进而缩短了仓体内用户进入睡眠的时间,从而提高了用户的睡眠质量。In the above solution, the oxygen concentration adjustment module of the present invention adjusts the oxygen concentration in the chamber through the control module, and when the oxygen concentration adjustment module receives the control signal for reducing the oxygen concentration sent by the control module, the oxygen concentration in the control chamber gradually decreases, so that The user is more prone to drowsiness and keeps it for a certain period of time, thereby shortening the time for the user to fall asleep in the cabin, thereby improving the sleep quality of the user.
附图说明Description of drawings
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图示出的结构获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained according to the structures shown in these drawings without creative effort.
图1是本发明睡眠仓的一实施例的结构示意图;Fig. 1 is a schematic structural view of an embodiment of the sleep chamber of the present invention;
图2是本发明睡眠仓的一实施例的结构示意图;Fig. 2 is a schematic structural view of an embodiment of the sleep chamber of the present invention;
图3是本发明睡眠仓的一实施例的结构示意图;Fig. 3 is a schematic structural view of an embodiment of the sleep chamber of the present invention;
图4是本发明睡眠仓的硬件结构示意图;Fig. 4 is a schematic diagram of the hardware structure of the sleep chamber of the present invention;
图5是本发明应用睡眠仓的睡眠方法结构示意图;Fig. 5 is a schematic structural diagram of a sleep method using a sleep chamber in the present invention;
图6是本发明睡眠仓的一实施例的结构示意图。Fig. 6 is a structural schematic diagram of an embodiment of the sleep chamber of the present invention.
具体实施方式Detailed ways
下面结合附图和实施方式对本发明进行详细说明。The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.
本发明的一实施中公开一种睡眠仓100。An implementation of the present invention discloses a sleep cabin 100 .
本发明的睡眠仓100可以应用于家庭、酒店、车站、机场等环境中,亦可以广泛应用于学生宿舍,职工宿舍等人多密集型场所,避免在吵杂等不适宜睡眠的环境中休息而影响睡眠。The sleep cabin 100 of the present invention can be applied in environments such as families, hotels, stations, and airports, and can also be widely used in crowded places such as student dormitories and staff dormitories, so as to avoid resting in noisy and unsuitable sleeping environments. affect sleep.
请结合参照图1至图3,该睡眠仓100包括仓体、控制模块、氧气浓度调整模块,仓体能够开启和闭合,氧气浓度调整模块用于调整仓体内的氧气浓度,控制模块与环境调整模块电性耦接;Please refer to Fig. 1 to Fig. 3, the sleep chamber 100 includes a chamber body, a control module, and an oxygen concentration adjustment module. The chamber body can be opened and closed. The oxygen concentration adjustment module is used to adjust the oxygen concentration in the chamber body. module electrical coupling;
其中,仓体闭合后或者用户进入仓体后或者其他需要进行控制的睡眠情况,如用户进入进行两个小时后进行控制,控制模块接收控制信号后,进行分析并控制氧气浓度调整模块降低调整仓体内的氧气浓度至少 S0分钟后,仓体内的氧气浓度为N1mol/kL,仓体内的氧气浓度保持在 N1mol/kL至少S1分钟;Among them, after the chamber body is closed or after the user enters the chamber body or other sleep conditions that need to be controlled, such as the user enters and performs control after two hours, after the control module receives the control signal, it analyzes and controls the oxygen concentration adjustment module to lower the adjustment chamber. After the oxygen concentration in the body is at least S0 minutes, the oxygen concentration in the chamber is N1 mol/kL, and the oxygen concentration in the chamber is kept at N1 mol/kL for at least S1 minute;
其中,调整后的仓体内的氧气浓度N1mol/kL低于调整前的所述仓体外的氧气浓度至少1%。Wherein, the oxygen concentration N1 mol/kL inside the chamber after adjustment is at least 1% lower than the oxygen concentration outside the chamber before adjustment.
在本发明中,控制模块向氧气浓度调整模发出降低仓体内氧气浓度的控制信号,氧气浓度调整模块接收控制信号并控制仓体内氧气浓度逐渐降低至少S0分钟后,且仓体内的氧气浓度保持在N1mol/kL至少S1分钟,由于仓体内的氧气浓度降低,仓体内的用户吸入氧气的含量减少,使得用户进入血液中的氧气减少,从而导致用户体的血氧浓度降低,进而使得血液提供给脑部的氧气含量降低,用户更容易产生疲惫和困觉,促进用户快速进入睡眠状态,进而缩短了用户进入睡眠的时间,提高了用户的睡眠质量。In the present invention, the control module sends a control signal to the oxygen concentration adjustment module to reduce the oxygen concentration in the chamber, and the oxygen concentration adjustment module receives the control signal and controls the oxygen concentration in the chamber to gradually decrease for at leastS0 minutes, and the oxygen concentration in the chamber remains constant. At N1 mol/kL for at least S1 minute, as the oxygen concentration in the chamber decreases, the content of oxygen inhaled by the user in the chamber decreases, which reduces the oxygen entering the blood of the user, which leads to a decrease in the blood oxygen concentration of the user, which in turn causes The oxygen content provided by the blood to the brain is reduced, and the user is more prone to fatigue and drowsiness, which promotes the user to quickly fall asleep, thereby shortening the time for the user to fall asleep and improving the user's sleep quality.
当然,降低仓体内氧气浓度的同时,也可以降低仓体内气体压力,仓体内用户肺内氧分压降低,从而导致用户体的血氧浓度降低,提高用户产生困倦效果,进而缩短了用户进入睡眠的时间,提高了用户的睡眠质量,仓体可以通过门体10进行开合,当然也可以通过其他方式的开合,如上盖与下盖扣合形成的仓体等。Of course, while reducing the oxygen concentration in the cabin, the gas pressure in the cabin can also be reduced, and the partial pressure of oxygen in the user's lungs in the cabin will decrease, resulting in a decrease in the blood oxygen concentration of the user, increasing the drowsiness effect of the user, and shortening the user's sleep. time, improving the sleep quality of the user, the bin body can be opened and closed through the door body 10, of course, it can also be opened and closed by other means, such as the bin body formed by buckling the upper cover and the lower cover.
其中,氧气浓度定义为单位体积所含氧气分子的摩尔数mol/kL;Among them, the oxygen concentration is defined as the number of moles of oxygen molecules contained in a unit volume mol/kL;
其中,N1mol/kL为可以使得人们快速进入睡眠的氧气浓度范围,并对人体健康没有损害,氧气浓度调整模块调节仓体内的氧气浓度N1 mol/kL的范围可以为4.46mol/kL-11.16mol/kL之间的任一值,如 4.48mol/k、5mol/k、6mol/kL、6.56mol/kL、7mol/kL、8mol/kL、9mol/kL、 9.6mol/kL、10mol/kL、11mol/kL等;当然N1mol/kL也可以是其他能够对人无损害的氧气浓度,如对于高原用户,N1mol/kL可以为小于 4.46mol/kL的范围,如N1mol/kL为4.45mol/kL、4.43mol/kL、4.4mol/kL、 4mol/kL或3mol/kL等。对于不同环境生活的用户,生活氧气浓度不用,符合对人体不损害的情况下,使得N1mol/kL的范围也不同,根据具体需要进行设定和调节。Among them, N1 mol/kL is the oxygen concentration range that can make people fall asleep quickly, and has no harm to human health. The oxygen concentration adjustment module can adjust the range of oxygen concentration N1 mol/kL in the chamber to 4.46mol/kL- Any value between 11.16mol/kL, such as 4.48mol/k, 5mol/k, 6mol/kL, 6.56mol/kL, 7mol/kL, 8mol/kL, 9mol/kL, 9.6mol/kL, 10mol/kL , 11mol/kL, etc.; of course, N1 mol/kL can also be other oxygen concentrations that are harmless to humans, such as for plateau users, N1 mol/kL can be less than 4.46mol/kL, such as N1 mol/ kL is 4.45 mol/kL, 4.43 mol/kL, 4.4 mol/kL, 4 mol/kL or 3 mol/kL, etc. For users who live in different environments, the concentration of oxygen in life is different, and the range of N1 mol/kL is also different under the condition that it does not harm the human body. Set and adjust according to specific needs.
其中,平原的氧气体积百分比约为20.95%,,氧气的单位摩尔数约为9.352mol/kL,高海拔地区空气稀薄,其氧气含量较低,低海拔地区氧气含量较高,海拔大约3000米处氧气含量约为平原70%(6.546mol/kL) 海拔5500米处氧气含量约为平原50%(10.475mol/kL),睡眠仓100可以用于平原、高原等环境中,对其氧气浓度进行调节,同时对于平原的用户在高原环境中生活,可以进入睡眠仓100内调节适宜的氧气浓度,降低用户的高原反应。本发明中,控制模块可以通过人进行控制调节仓体内氧气的浓度和保持时间,如平原用户去高原环境后,可以进入置于高原环境中的睡眠舱,调高仓体内氧气浓度,可以与平原氧气浓度近似,有利于减少用户的高原反应,可以通过逐渐降低仓体内的氧气浓度至与仓体外高原氧气浓度一致或大致一致,提高用户适用度,避免出现不良反应。Among them, the volume percentage of oxygen in the plain is about 20.95%, and the unit mole of oxygen is about 9.352mol/kL. The air in high-altitude areas is thin, and the oxygen content is low. The oxygen content in low-altitude areas is high, and the altitude is about 3000 meters. The oxygen content in the plain is about 70% (6.546mol/kL) and the oxygen content in the plain is about 50% (10.475mol/kL) at an altitude of 5,500 meters. The sleep cabin 100 can be used in plains, plateaus and other environments to adjust its oxygen concentration At the same time, for users living in a plateau environment on a plain, they can enter the sleep cabin 100 to adjust the appropriate oxygen concentration and reduce the altitude sickness of the user. In the present invention, the control module can be controlled and adjusted by people to adjust the oxygen concentration and retention time in the cabin. For example, after a plain user goes to a plateau environment, he can enter a sleep cabin placed in a plateau environment and increase the oxygen concentration in the cabin, which can be compared with the plain environment. The oxygen concentration is similar, which is beneficial to reduce the user's altitude sickness. By gradually reducing the oxygen concentration in the chamber to the same or roughly the same as the plateau oxygen concentration outside the chamber, the user's applicability can be improved and adverse reactions can be avoided.
其中,在本发明中,S0分钟后是调节仓体内的氧气浓度所需时间, S1是仓体内的氧气浓度保持在N1mol/kL的时间;S0min可以是0.011min 至10min之间任一值,如0.01min、0.02min、1min、1.5min、1.6min、 1.7min、2min、2.1min、2.2min、2.4min、2.6min、2.8min、2.9min、3min 等,S1可以为0.001min至60.1min之间任一值,如0.00111min、0.02min、1min、1.5min、1.6min、1.7min、2min、2.1min、2.2min、2.4min、2.6min、2.8min、2.9min、3min、4min、5min、6min、7min、8min、9min、10 min、11min、12min、13min、14min、15min、16min、20min、30min、 40min、50min、60min等。Wherein, in the present invention, S0 minutes later is the time required to adjust the oxygen concentration in the chamber, S1 is the time for the oxygen concentration in the chamber to be kept at N1 mol/kL; S0 min can be between 0.011min and 10min Any value in between, such as 0.01min, 0.02min, 1min, 1.5min, 1.6min, 1.7min, 2min, 2.1min, 2.2min, 2.4min, 2.6min, 2.8min, 2.9min, 3min, etc.,S1 can be Any value between 0.001min and 60.1min, such as 0.00111min, 0.02min, 1min, 1.5min, 1.6min, 1.7min, 2min, 2.1min, 2.2min, 2.4min, 2.6min, 2.8min, 2.9min, 3min , 4min, 5min, 6min, 7min, 8min, 9min, 10min, 11min, 12min, 13min, 14min, 15min, 16min, 20min, 30min, 40min, 50min, 60min, etc.
S0分钟为0.01min至10min之间任一值,如1min、2min、3min、 4min、5min、6min、6.5min、7min、8min、9min、9.1min、10min等;S0 minutes is any value between 0.01min and 10min, such as 1min, 2min, 3min, 4min, 5min, 6min, 6.5min, 7min, 8min, 9min, 9.1min, 10min, etc.;
控制模块、氧气浓度调整模块可以是包括至少一个处理器在内的电路,亦可以是包括至少一个单片机在内的电路,也可以为多种电路或者芯片的组合形式,只要可以实现相应的控制功能即可。单片机 (Microcontrollers)是一种集成电路芯片,是采用超大规模集成电路技术把具有数据处理能力的中央处理器CPU、随机存储器RAM、只读存储器ROM、多种I/O口和中断系统、定时器/计数器等功能(可能还包括显示驱动电路、脉宽调制电路、模拟多路转换器、A/D转换器等电路) 集成到一块硅片上构成的一个小而完善的微型计算机系统,具有高集成度,体积小,高可靠性、控制功能强,提高了氧气浓度调整模块控制性能的稳定性,进而提高睡眠仓100的使用性能。可以理解的是,对于本领域技术人员来说,控制模块还可以为常见的由放大器、比较器、三极管、MOS管等组合起来的电路以纯粹硬件方式实现相应功能。The control module and the oxygen concentration adjustment module can be a circuit including at least one processor, or a circuit including at least one single-chip microcomputer, or a combination of various circuits or chips, as long as the corresponding control functions can be realized That's it. Single-chip microcomputer (Microcontrollers) is an integrated circuit chip, which uses VLSI technology to integrate a central processing unit CPU with data processing capabilities, random access memory RAM, read-only memory ROM, various I/O ports and interrupt systems, and timers. /Counter and other functions (may also include display drive circuit, pulse width modulation circuit, analog multiplexer, A/D converter and other circuits) integrated into a silicon chip to form a small and complete microcomputer system, with high The degree of integration, small size, high reliability, and strong control function improve the stability of the control performance of the oxygen concentration adjustment module, thereby improving the performance of the sleep chamber 100 . It can be understood that, for those skilled in the art, the control module can also be a common circuit composed of amplifiers, comparators, triodes, MOS transistors, etc. to realize corresponding functions in a purely hardware manner.
其中,睡眠仓100可以通过设置门体10,以供用户的出入,门体 10与仓体可以采用滑动连接方式,使门体10通过滑动方式实现门体10 的开合,睡眠仓100也可以采用其他形式实现睡眠仓100的开启闭合,如仓体设有的上盖和底座活动连接,实现睡眠仓100开启和闭合,占用空间小,使用方便,只要能够实现用户进入离开睡眠仓100相应的开合功能即可。仓体闭合后内部形成可以休息的空间,可以有效防止外界的噪音、废气、粉尘等,以创造一个适合休息的舒适空间,提高用户体验。Wherein, the sleep compartment 100 can be provided with a door body 10 for the user to enter and exit, the door body 10 and the compartment body can adopt a sliding connection mode, so that the door body 10 can realize the opening and closing of the door body 10 in a sliding manner, and the sleep compartment 100 can also be Adopt other forms to realize the opening and closing of the sleep compartment 100, such as the upper cover provided with the compartment body and the base movable connection, realize the opening and closing of the sleep compartment 100, occupy a small space, and are easy to use, as long as the user can enter and leave the sleep compartment 100 correspondingly The opening and closing function is enough. After the warehouse body is closed, a space for rest is formed inside, which can effectively prevent external noise, exhaust gas, dust, etc., so as to create a comfortable space suitable for rest and improve user experience.
在本实施例中,睡眠仓100可以通过如下方式实现,不限于如下方式,氧气浓度调整模块可以还包括与控制模块电性耦接的空气分离装置和排气装置,空气分离装置用于将空气中的氧气和氮气分离并通过接收控制模块的控制信号控制氧气和氮气流入仓体的量,来实现仓体内氧气浓度的调节,仓体开设有入风口和排风口,空气分离装置的进气孔与入风口相通,排气装置用于将排风口附近的气体排出仓体,实现仓体内空气的换气使得氧气浓度达到所需的氧气浓度,空气分离装置和排气装置分别设在仓体的外侧,避免空气分离装置工作和排气装置工作产生噪音或异响对仓体内需要休息的用户造成影响或干扰,同时有利于空气分离装置和排气装置散热,进而提高空气分离装置和排气装置散热使用性能和寿命。In this embodiment, the sleep cabin 100 can be realized in the following ways, but not limited to the following ways, the oxygen concentration adjustment module can also include an air separation device and an exhaust device electrically coupled with the control module, the air separation device is used to extract the air The oxygen and nitrogen in the tank are separated and the amount of oxygen and nitrogen flowing into the warehouse is controlled by receiving the control signal from the control module to realize the adjustment of the oxygen concentration in the warehouse. The warehouse is equipped with an air inlet and an air outlet. The hole communicates with the air inlet, and the exhaust device is used to discharge the gas near the air outlet out of the warehouse, so as to realize the ventilation of the air in the warehouse so that the oxygen concentration reaches the required oxygen concentration. The air separation device and the exhaust device are respectively installed in the warehouse The outer side of the body, to avoid the noise or abnormal noise caused by the work of the air separation device and the exhaust device, which will affect or interfere with the users who need to rest in the warehouse, and at the same time, it is conducive to the heat dissipation of the air separation device and exhaust device, thereby improving the performance of the air separation device and exhaust. The heat dissipation performance and life of the gas device.
其中,入风口和排风口分别开设于两相对的仓体侧壁上,入风口位于仓体侧壁的上部,排风口位于另一仓体侧壁下部,形成近似呈Z型或 S型的排气风道,有利于入风口进入的气体充分扩散到仓体内,进而挤压推动原来仓体内的空气从排风口排出,有效保证仓体内产生的二氧化碳或者需要排出的气体充分从排风口排出,进而实现仓体内氧气浓度的变化达到需要的氧气浓度标准。Among them, the air inlet and the air outlet are respectively opened on the side walls of the two opposite warehouses, the air inlet is located at the upper part of the side wall of the warehouse, and the air outlet is located at the lower part of the side wall of the other warehouse, forming an approximately Z-shaped or S-shaped The exhaust air duct is conducive to the full diffusion of the gas entering the air inlet into the chamber, and then squeezes and pushes the air in the original chamber to be discharged from the air outlet, effectively ensuring that the carbon dioxide generated in the chamber or the gas that needs to be discharged is fully exhausted. The outlet is discharged, and then the change of the oxygen concentration in the chamber can be realized to meet the required oxygen concentration standard.
其中,空气分离装置包括管道、空气分离装置本体,管道的一端开口与仓体的入风口相通,另一端与空气分离装置本体固定连接,仓体通过排风口与排气装置相通,空气分离装置将分离出的氧气和氮气流经管道分别储存在空气分离装置设有的两个存储容器中,再通过氧气存储容器和氮气存储容器向管道中释放氧气和氮气,并氧气和氮气进行混合经过入风口进入仓体内,管道可以多处设有自动阀控制氧气存储容器和氮气存储容器相通或隔开,控制空气分离装置本体分离出的氧气和氮气进入各自的存储容器中,控制氧气和氮气进入管道内的比例,自动阀的开合控制采用智能控制,当然,空气分离装置具有多种类型,只要能够满足本发明的功能即可,如加入氧气比仓体内氧气浓度小的气体进行控制氧气能到等。Wherein, the air separation device includes a pipeline and an air separation device body. One end opening of the pipeline communicates with the air inlet of the warehouse body, and the other end is fixedly connected with the air separation device body. The warehouse body communicates with the exhaust device through the air outlet, and the air separation device The separated oxygen and nitrogen are stored in the two storage containers provided by the air separation device through the pipeline, and then the oxygen and nitrogen are released into the pipeline through the oxygen storage container and the nitrogen storage container, and the oxygen and nitrogen are mixed. The tuyere enters the chamber, and the pipeline can be equipped with automatic valves at multiple places to control the connection or separation of the oxygen storage container and the nitrogen storage container, to control the oxygen and nitrogen separated from the air separation device body into their respective storage containers, and to control the oxygen and nitrogen to enter the pipeline. The ratio in the internal ratio, the opening and closing control of the automatic valve adopts intelligent control. Of course, the air separation device has many types, as long as it can meet the functions of the present invention, such as adding oxygen gas with a lower oxygen concentration than the chamber body to control the oxygen can reach Wait.
氧气浓度调整模块接收控制模块降低仓体内氧气浓度为N1mol/kL 的控制信号,进而控制空气分离装置通过管道分离的氧气和氮气分别从相应的存储容器中按照氧气浓度N1mol/kL或者氧气浓度高于N1mol/kL 的一定比例释放到管道中,进而混合的氮气和氧气沿着管道释放到仓体内,随着氧气浓度N1mol/kL进入仓体内使得仓体内原来气体的排出保证仓体内氧气浓度逐渐接近N1mol/kL,直至仓体内氧气浓度达到N1 mol/kL。The oxygen concentration adjustment module receives the control signal from the control module to reduce the oxygen concentration in the chamber to N1 mol/kL, and then controls the air separation device to separate the oxygen and nitrogen through the pipeline from the corresponding storage container according to the oxygen concentration N1 mol/kL or A certain proportion of the oxygen concentration higher than N1 mol/kL is released into the pipeline, and then the mixed nitrogen and oxygen are released into the chamber along the pipeline, and the original gas in the chamber is discharged as the oxygen concentration N1 mol/kL enters the chamber Ensure that the oxygen concentration in the chamber gradually approaches N1 mol/kL until the oxygen concentration in the chamber reaches N1 mol/kL.
其中,睡眠仓100还包括二氧化碳供应装置,二氧化碳供应装置与空气分离装置的管道可以开合连接,进而使得空气分离装置的管道可以混入适量的二氧化碳气体,例如,二氧化碳供应装置释放出的二氧化碳气体进入控制空气分离装置的管道中,并混合到仓体内的二氧化碳气体的体积百分比小于1%,可以刺激用户的呼吸。Wherein, the sleep cabin 100 also includes a carbon dioxide supply device, the carbon dioxide supply device and the pipeline of the air separation device can be opened and closed, so that the pipeline of the air separation device can be mixed with an appropriate amount of carbon dioxide gas, for example, the carbon dioxide gas released by the carbon dioxide supply device enters Control the volume percentage of the carbon dioxide gas in the pipeline of the air separation device and mixed into the chamber to be less than 1%, which can stimulate the user's breathing.
其中,睡眠仓100还包括空气净化装置,空气净化装置能够净化空气分离装置的管道内的气体,能够去除管道内混合的氧气和氮气中的杂质、其他有毒气体等,以免污染的空气进入仓体内,有效保证洁净的混合气体进入仓体内,有利于仓体内用户睡眠并保证其健康。Wherein, sleep cabin 100 also comprises air purification device, and air purification device can purify the gas in the pipeline of air separation device, can remove the impurity in the oxygen and nitrogen mixed in pipeline, other poisonous gas etc., in order to avoid polluted air to enter in the cabin body , to effectively ensure that the clean mixed gas enters the chamber, which is conducive to the sleep of users in the chamber and ensures their health.
其中,睡眠仓100还包括熏香装置,熏香装置通过空气分离装置的管道进入仓体内,熏香装置能够在内部装有的植物精在空气分离装置的管道内的混合气体进入仓体内过程中,熏香装置雾化的气体与氧气和氮气充分均匀扩散到仓体内,进一步提高了仓体内环境的舒适度,植物精油包括薰衣草、柠檬、海风、桂花、洋甘菊、百合、茉莉、玫瑰、紫罗兰、檀香、茶树、香橙、康乃馨、雪莲、姜花、薄荷、森林、郁金香、玉兰花、风信子等天然植物精油,可以理解地,添加到香薰装置中的植物精油可以是薰衣草、柠檬、海风、桂花、洋甘菊、百合、茉莉、玫瑰、紫罗兰、檀香、茶树、香橙、康乃馨、雪莲、姜花、薄荷、森林、郁金香、玉兰花、风信子其中的一种,或者两种或两种以上的混合精油,如熏香装置加入熏衣草精油,熏衣草的清新花香,帮助睡眠,使人镇静,促使新陈待谢,具有杀菌消炎的功效,使得熏衣草的清新花香散发到仓体内,有助于仓体内的用户的睡眠。其中,香薰装置还包括雾化机构,使得香薰装置内的植物精油雾化并挥发出香薰装置,当然,香薰装置也可以通过物理反应挥发到空气中,在此不做一一限定。Wherein, the sleep cabin 100 also includes an incense device, which enters the cabin body through the pipeline of the air separation device, and the fragrance device can enter the process of the mixed gas of the plant essence in the pipeline of the air separation device entering the cabin body. , the gas atomized by the incense device, oxygen and nitrogen diffuse fully and evenly into the cabin, further improving the comfort of the cabin environment. Plant essential oils include lavender, lemon, sea breeze, osmanthus, chamomile, lily, jasmine, rose, violet, Natural plant essential oils such as sandalwood, tea tree, orange, carnation, snow lotus, ginger flower, peppermint, forest, tulip, magnolia flower, hyacinth, etc. It is understandable that the plant essential oils added to the aromatherapy device can be lavender, lemon, sea breeze , osmanthus, chamomile, lily, jasmine, rose, violet, sandalwood, tea tree, orange, carnation, snow lotus, ginger, mint, forest, tulip, magnolia, hyacinth, or two or two The above mixed essential oils, such as adding lavender essential oil to the incense device, the fresh floral fragrance of lavender, helps sleep, calms people, promotes metabolism, has the effect of sterilization and anti-inflammatory, and makes the fresh floral fragrance of lavender spread to the world. Inside the compartment, it helps the user in the compartment to sleep. Wherein, the aromatherapy device also includes an atomizing mechanism, so that the plant essential oil in the aromatherapy device is atomized and volatilized out of the aromatherapy device. Of course, the aromatherapy device can also volatilize into the air through a physical reaction, which is not limited here.
其中,熏香装置可以更靠近仓体的入风口,保证熏香装置雾化的气体充分进入到仓体内,空气分离装置、熏香装置及空气净化装置设置在仓体外,有效避免空气分离装置、熏香装置及空气净化装置工作时产生的声响对仓体内环境的影响,进而避免影响仓体内用户的休息,同时有利于管理者对熏香装置进行添加植物精油或其他液体,当然,熏香装置可以采用其他的安装方式,如,熏香装置放置于仓体内。Among them, the incense device can be closer to the air inlet of the warehouse body to ensure that the atomized gas of the incense device fully enters the warehouse body, and the air separation device, incense device and air purification device are arranged outside the warehouse body to effectively prevent the air separation device, The sound produced by the incense device and the air purification device will affect the environment in the warehouse, thereby avoiding affecting the rest of the users in the warehouse. At the same time, it is beneficial for the manager to add plant essential oils or other liquids to the incense device. Of course, the aroma device Other installation methods can be adopted, for example, the incense device is placed in the chamber.
进一步地,睡眠仓100还设有与控制模块电性耦接的氧气浓度监测模块,氧气浓度监测模块包括第一氧气浓度监测模块和第二氧气浓度监测模块,第一氧气监测模块用于监测仓体外氧气浓度,第二氧气监测模块用于监测仓体内氧气浓度,控制模块能够根据第一氧气浓度监测模块和第二氧气浓度监测模块监测到仓体内外的氧气浓度,控制氧气浓度调整模块实时修正仓体内的氧气浓度。Further, the sleep cabin 100 is also provided with an oxygen concentration monitoring module electrically coupled with the control module, the oxygen concentration monitoring module includes a first oxygen concentration monitoring module and a second oxygen concentration monitoring module, the first oxygen monitoring module is used for monitoring the cabin In vitro oxygen concentration, the second oxygen monitoring module is used to monitor the oxygen concentration in the chamber, the control module can monitor the oxygen concentration inside and outside the chamber according to the first oxygen concentration monitoring module and the second oxygen concentration monitoring module, and control the oxygen concentration adjustment module to correct in real time Oxygen concentration in the chamber.
在本发明的实施例中,氧气浓度监测模块可以设有氧气浓度传感器,氧气浓度传感器能够监测到环境中氧气的浓度,第一氧气浓度监测模块的第一氧气浓度传感器安设于仓体内,第二氧气浓度监测模块的第二氧气浓度传感器安设于仓体外,用户进入仓体内后,控制模块控制氧气浓度调整模块降低仓体内的氧气浓度,使第一氧气浓度传感器采集到的仓体内的第一氧气浓度低于第二氧气浓度传感器采集到的仓体外的第二氧气浓度,使得控制模块通过第一氧气浓度监测模块和第二氧气浓度监测模块实时控制仓体内氧气浓度,进而实时修正仓体内由于用户呼吸或其他情况引起仓体内氧气浓度的变化,从而保持仓体内氧气浓度在特定范围或有助于用户进入睡眠的特定值,缩短用户进入睡眠时间,睡眠质量也得到提高。In an embodiment of the present invention, the oxygen concentration monitoring module can be equipped with an oxygen concentration sensor, which can monitor the concentration of oxygen in the environment. The first oxygen concentration sensor of the first oxygen concentration monitoring module is installed in the chamber, and the second The second oxygen concentration sensor of the second oxygen concentration monitoring module is installed outside the chamber. After the user enters the chamber, the control module controls the oxygen concentration adjustment module to reduce the oxygen concentration in the chamber so that the first oxygen concentration sensor collects the first oxygen concentration in the chamber. The first oxygen concentration is lower than the second oxygen concentration outside the chamber collected by the second oxygen concentration sensor, so that the control module controls the oxygen concentration in the chamber in real time through the first oxygen concentration monitoring module and the second oxygen concentration monitoring module, and then corrects the oxygen concentration in the chamber in real time. Due to the change of the oxygen concentration in the chamber caused by the user's breathing or other conditions, the oxygen concentration in the chamber is kept within a specific range or a specific value that helps the user to fall asleep, shortens the time for the user to fall asleep, and improves the quality of sleep.
例如,氧气浓度采用百分比进行表达,氧气浓度百分比为氧气所占仓体内总气体体积的百分比,即摩尔数的百分比。调整后的仓体内的氧气浓度19.8%低于调整前的仓体外的氧气浓度1%,第一氧气浓度传感器采集到的仓体内的第一氧气浓度为19.8%±0.3%范围内,第二氧气浓度传感器采集到的仓体外的第二氧气浓度20.9%,控制模块控制氧气浓度调整模块实时修正仓体内的氧气浓度保持在19.8%,进而控制空气分离装置混合到管道中的氧气浓度为19.8%,或者低于19.8%;For example, the oxygen concentration is expressed in percentage, and the oxygen concentration percentage is the percentage of the total gas volume in the chamber occupied by oxygen, that is, the percentage of moles. The oxygen concentration in the chamber after adjustment is 19.8% lower than the oxygen concentration outside the chamber before adjustment by 1%, and the first oxygen concentration in the chamber collected by the first oxygen concentration sensor is within the range of 19.8% ± 0.3%. The second oxygen concentration outside the chamber collected by the concentration sensor is 20.9%. The control module controls the oxygen concentration adjustment module to correct the oxygen concentration in the chamber in real time to maintain 19.8%, and then controls the oxygen concentration mixed into the pipeline by the air separation device to be 19.8%. or less than 19.8%;
其中,调整后的仓体内的氧气浓度N1mol/kL低于调整前的仓体外的氧气浓度1.1%~5%。Wherein, the oxygen concentration N1 mol/kL inside the chamber after adjustment is 1.1%-5% lower than the oxygen concentration outside the chamber before adjustment.
在本发明的实施例中,调整后的仓体内氧气浓度N1mol/kL可以低于调整前的仓体外的氧气浓度1.5%、2%、2.5%、2.7%、3%、4%、4.5%等;In an embodiment of the present invention, the adjusted oxygen concentration N1 mol/kL in the chamber may be lower than the oxygen concentration outside the chamber before adjustment by 1.5%, 2%, 2.5%, 2.7%, 3%, 4%, 4.5% %Wait;
例如,第二氧气浓度监测模块监测到仓体内外的氧气浓度为20.9%,调整后的仓体内的氧气浓度N1mol/kL转化为百分比为19.4%。For example, the second oxygen concentration monitoring module monitors that the oxygen concentration inside and outside the chamber is 20.9%, and the adjusted oxygen concentration N1 mol/kL in the chamber is converted into a percentage of 19.4%.
其中,S0min为0.01min至10min之间任一值;所述S1min为 0.001min至60.1min之间任一值。Wherein, S0 min is any value between 0.01 min and 10 min; said S1 min is any value between 0.001 min and 60.1 min.
例如,调整后的仓体内的氧气浓度N1mol/kL转化为百分比为19%,保持S1分钟为3min,在氧气百分浓度为19%的环境中,可以使得用户逐渐产生困觉,并进入睡眠。For example, the adjusted oxygen concentration N1 mol/kL in the chamber is converted to a percentage of 19%, and keeping S for1 minute is 3 minutes. In an environment with an oxygen percentage concentration of 19%, the user can gradually feel drowsy and enter sleep.
进一步地,当用户进入睡眠后,为了提高用户睡眠,增加仓体内的氧气浓度。调整仓体内的氧气浓度保持在N1mol/kL至少S1分钟之后,调整仓体内的氧气浓度保持在N2mol/kL至少S2分钟;调整后的仓体内的氧气浓度N2高于仓体外的氧气浓度至少1%。Further, when the user falls asleep, in order to improve the user's sleep, the oxygen concentration in the chamber is increased. After adjusting the oxygen concentration in the chamber to maintain at N1mol/kL for at least Sfor 1 minute, adjust the oxygen concentration in the chamber to maintain atN2 mol/kL for at least Sfor 2 minutes; the adjusted oxygen concentration in the chamberN2 is higher than that outside the chamber Oxygen concentration of at least 1%.
在本实施例中,N2mol/kL的氧气百分浓度可以为20%、20.9%、22%、 23%等,且N2大于N1,用户进入睡眠后,氧气浓度调整模块增加仓体内氧气浓度,使用户吸收的氧气增多,进而提高用户的血氧浓度,提高用户的睡眠质量,如,第二氧气浓度监测模块的第二传感器监测仓体外的氧气百分浓度为20.9%,第一氧气浓度监测模块的第一传感器监测调整后的仓体内N2mol/kL转化为氧气百分浓度为21.9%,并高于仓体外的氧气浓度的1%;In this embodiment, the oxygen percentage concentration of N2 mol/kL can be 20%, 20.9%, 22%, 23%, etc., and N2 is greater than N1 , after the user goes to sleep, the oxygen concentration adjustment module increases Oxygen concentration increases the oxygen absorbed by the user, thereby increasing the blood oxygen concentration of the user and improving the sleep quality of the user. For example, the second sensor of the second oxygen concentration monitoring module monitors the oxygen percentage outside the chamber to be 20.9%. The first sensor of the oxygen concentration monitoring module monitors that the adjusted N2 mol/kL in the chamber is transformed into an oxygen percentage concentration of 21.9%, which is higher than 1% of the oxygen concentration outside the chamber;
其中,N2mol/kL为适合人们睡眠或者活动的氧气浓度,且有助于提高用户睡眠质量,N2mol/kL转化的氧气百分浓度为小于50%,氧气百分浓度高于50%会对人体造成伤害。Among them, N2 mol/kL is the oxygen concentration suitable for people’s sleep or activities, and it is helpful to improve the user’s sleep quality. The oxygen percentage concentration converted by N2 mol/kL is less than 50%, and the oxygen percentage concentration is higher than 50%. Can cause harm to the human body.
其中,调整后的所述仓体内的氧气浓度N2mol/kL高于调整前的仓体内的氧气浓度1.1%~15%,所述S2分钟大于等于1min。Wherein, the oxygen concentration N2 mol/kL in the chamber after adjustment is 1.1%-15% higher than the oxygen concentration in the chamber before adjustment, and the S2 minutes is greater than or equal to 1 minute.
S2分钟可以为1min、2min、3min、4min、5min、10min、20min、 30min等,调整后的所述仓体内的氧气浓度N2mol/kL可以高于调整前的仓体内的氧气浓度1.1%、2%、3%、4%、5%、6%、10%、11%、15%等;S2 minutes can be 1min, 2min, 3min, 4min, 5min, 10min, 20min, 30min, etc. The oxygen concentrationN2mol /kL in the chamber after adjustment can be 1.1% higher than the oxygen concentration in the chamber before adjustment , 2%, 3%, 4%, 5%, 6%, 10%, 11%, 15%, etc.;
例如,第一氧气监测模块的第一氧气浓度传感器检测仓体外的氧气百分浓度为20.9%,第二氧气监测模块的第二氧气浓度传感器检测调整后的仓体内的氧气百分浓度为22.5%,并保持S2分钟为10min。For example, the first oxygen concentration sensor of the first oxygen monitoring module detects that the oxygen percentage concentration outside the chamber is 20.9%, and the second oxygen concentration sensor of the second oxygen monitoring module detects that the adjusted oxygen percentage concentration in the chamber is 22.5%. , and keep S for2 minutes for 10min.
请结合参照图4,图4是本发明睡眠仓的硬件结构示意图。Please refer to FIG. 4 in conjunction with FIG. 4 , which is a schematic diagram of the hardware structure of the sleep chamber of the present invention.
该睡眠仓包括仓体、控制模块10、氧气浓度调整模块20,仓体能够开启和闭合,氧气浓度调整模块20用于调整仓体内的氧气浓度,控制模块10与环境调整模块电性耦接;The sleep cabin includes a cabin body, a control module 10, and an oxygen concentration adjustment module 20. The cabin body can be opened and closed. The oxygen concentration adjustment module 20 is used to adjust the oxygen concentration in the cabin body. The control module 10 is electrically coupled to the environment adjustment module;
其中,仓体闭合后或者用户进入仓体后或者其他需要进行控制的睡眠情况,如用户进入进行两个小时后进行控制,控制模块10接收控制信号后,进行分析并控制氧气浓度调整模块20降低调整仓体内的氧气浓度至少S0分钟后,仓体内的氧气浓度为N1mol/kL,仓体内的氧气浓度保持在N1mol/kL至少S1分钟。Wherein, after the chamber body is closed or after the user enters the chamber body or other sleep conditions that need to be controlled, such as the user enters and performs control after two hours, after the control module 10 receives the control signal, it analyzes and controls the oxygen concentration adjustment module 20 to reduce After adjusting the oxygen concentration in the chamber for at least S0 minutes, the oxygen concentration in the chamber is N1 mol/kL, and the oxygen concentration in the chamber is maintained at N1 mol/kL for at least S1 minute.
进一步地,睡眠仓还设有与控制模块10电性耦接的氧气浓度监测模块30,氧气浓度监测模块30包括第一氧气浓度监测模块31和第二氧气浓度监测模块32,第一氧气监测模块用于监测仓体外氧气浓度,第二氧气监测模块用于监测仓体内氧气浓度,控制模块10能够根据第一氧气浓度监测模块31和第二氧气浓度监测模块32监测到仓体内外的氧气浓度,控制氧气浓度调整模块20实时修正仓体内的氧气浓度。Further, the sleep cabin is also provided with an oxygen concentration monitoring module 30 electrically coupled to the control module 10, the oxygen concentration monitoring module 30 includes a first oxygen concentration monitoring module 31 and a second oxygen concentration monitoring module 32, the first oxygen concentration monitoring module For monitoring the oxygen concentration outside the chamber, the second oxygen monitoring module is used for monitoring the oxygen concentration inside the chamber, the control module 10 can monitor the oxygen concentration inside and outside the chamber according to the first oxygen concentration monitoring module 31 and the second oxygen concentration monitoring module 32, The oxygen concentration adjustment module 20 is controlled to correct the oxygen concentration in the chamber in real time.
进一步地,当用户进入睡眠后,为了提高用户睡眠,增加仓体内的氧气浓度。调整仓体内的氧气浓度保持在N1mol/kL至少S1分钟之后,调整仓体内的氧气浓度保持在N2mol/kL至少S2分钟。Further, when the user falls asleep, in order to improve the user's sleep, the oxygen concentration in the chamber is increased. After adjusting the oxygen concentration in the chamber to maintain at N1mol/kL for at least Sfor 1 minute, adjust the oxygen concentration in the chamber to maintain atN2 mol/kL for at least Sfor 2 minutes.
综上所述,用户进入仓体后,仓体闭合,形成相对封闭空间,控制模块接收控制信号后,进行分析并控制氧气浓度调整模块降低调整仓体内的氧气浓度至少S0分钟后,仓体内的氧气浓度降至N1mol/kL,仓体内的氧气浓度保持在N1mol/kL至少S1分钟,S1分钟后用户进入睡眠,控制模块调高所述仓体内的氧气浓度为N2mol/kL,并保持在N2mol/kL 至少S2分钟,保持用户高睡眠状态。To sum up, after the user enters the chamber, the chamber is closed to form a relatively closed space. After the control module receives the control signal, it analyzes and controls the oxygen concentration adjustment module to reduce and adjust the oxygen concentration in the chamber for at least S0 minutes. The oxygen concentration in the chamber drops to N1 mol/kL, and the oxygen concentration in the chamber remains at N1 mol/kL for at least S1 minute. After S1 minute, the user goes to sleep, and the control module increases the oxygen concentration in the chamber to N2 mol/kL, and keep it in N2 mol/kL for at least2 minutes in S to keep the user in a high sleep state.
当然,有的用户由于剧烈运动或暂时不想进行睡觉,可以先通过控制模块不进行降低仓体内氧气浓度,等需要时再通过控制模块进行调节。在本发明中,调节可设定为循环模式,也可以通过间断模式,或进行定时控制等。Of course, some users may not lower the oxygen concentration in the chamber through the control module first because of strenuous exercise or do not want to sleep temporarily, and then adjust it through the control module when necessary. In the present invention, the adjustment can be set in a cyclic mode, or in an intermittent mode, or by timing control.
本发明还提出一种用于睡眠仓的促进睡眠的方法,睡眠仓包括控制模块和氧气浓度调整模块,氧气浓度调整模块用于调整仓体内的氧气浓度,且控制模块与氧气浓度调整模块电性耦接,方法如下:The present invention also proposes a method for promoting sleep in a sleep cabin. The sleep cabin includes a control module and an oxygen concentration adjustment module. The oxygen concentration adjustment module is used to adjust the oxygen concentration in the cabin, and the control module and the oxygen concentration adjustment module are electrically connected Coupling, the method is as follows:
步骤S10,控制模块能够控制氧气浓度调整模块调整仓体内的氧气浓度,至少S0min后其浓度为N1mol/kL;Step S10, the control module can control the oxygen concentration adjustment module to adjust the oxygen concentration in the chamber, and the concentration will be N1 mol/kL after at least S0 min;
步骤S11,仓体内的氧气浓度保持在N1mol/kL至少S1min;Step S11, the oxygen concentration in the chamber is kept at N1 mol/kL for at least S1 min;
其中,调整后的仓体内的氧气浓度N1低于调整前的仓体外的氧气浓度至少1%。Wherein, the oxygen concentrationN1 inside the chamber after adjustment is at least 1% lower than the oxygen concentration outside the chamber before adjustment.
步骤S12,根据仓体的氧气浓度变化进行修正调节仓体内氧气浓度:Step S12, correct and adjust the oxygen concentration in the chamber according to the change of the oxygen concentration in the chamber:
睡眠仓还包括氧气浓度监测模块,氧气浓度监测模块与控制模块电性耦接,氧气浓度监测模块包括第一氧气浓度监测模块和第二氧气浓度监测模块,第一氧气浓度监测模块用于监测仓体内氧气浓度,第二氧气浓度监测模块用于监测仓体外氧气浓度;The sleep cabin also includes an oxygen concentration monitoring module, the oxygen concentration monitoring module is electrically coupled with the control module, the oxygen concentration monitoring module includes a first oxygen concentration monitoring module and a second oxygen concentration monitoring module, and the first oxygen concentration monitoring module is used for monitoring the cabin Oxygen concentration in the body, the second oxygen concentration monitoring module is used to monitor the oxygen concentration outside the chamber;
其中,控制模块能够根据第一氧气浓度监测模块和第二氧气浓度监测模块监测到的仓体内外的氧气浓度,控制氧气浓度调整模块实时修正仓体内的氧气浓度。Wherein, the control module can control the oxygen concentration adjustment module to correct the oxygen concentration in the chamber in real time according to the oxygen concentration inside and outside the chamber monitored by the first oxygen concentration monitoring module and the second oxygen concentration monitoring module.
步骤S121,在S1min内,第二氧气浓度监测模块实时采集仓体内的氧气浓度;Step S121, within S1 min, the second oxygen concentration monitoring module collects the oxygen concentration in the chamber in real time;
步骤S122,控制模块根据接收第二氧气浓度监测模块的数据信息进行进行分析判断,仓体内的氧气浓度是否为N1mol/ml;Step S122, the control module analyzes and judges whether the oxygen concentration in the chamber is N1mol/ml according to the data information received from the second oxygen concentration monitoring module;
步骤S123;若否,控制模块控制氧气调节模块调节仓体内的氧气浓度为N1mol/ml,所以此时第二氧气浓度监测模块检测的仓体内的氧气浓度为N1mol/ml;Step S123; if not, the control module controls the oxygen adjustment module to adjust the oxygen concentration in the chamber to N1mol/ml, so the oxygen concentration in the chamber detected by the second oxygen concentration monitoring module is N1mol/ml at this time;
其中,第一氧气浓度监测模块实时采集仓体外的氧气浓度,并上报控制模块。Wherein, the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time and reports it to the control module.
当然,由于仓体外界氧气浓度变化不大,第一氧气浓度监测模块实时采集仓体外的氧气浓度,并上报控制模块。在其他实施例中,在S1min 内,第一氧气浓度监测模块实时采集仓体外的氧气浓度,控制模块判断调整后的所述仓体内的氧气浓度N1是否低于调整前的所述仓体外的氧气浓度至少1%,若否,控制模块控制氧气调节模块调节仓体内的氧气浓度,及时修正。Of course, since the oxygen concentration outside the chamber does not change much, the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time and reports it to the control module. In other embodiments, within S1 min , the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time, and the control module judges whether the adjusted oxygen concentrationN1 in the chamber is lower than that before adjustment. The oxygen concentration outside the body is at least 1%. If not, the control module controls the oxygen adjustment module to adjust the oxygen concentration in the chamber and correct it in time.
步骤S20,调整仓体内的氧气浓度保持在N1mol/kL至少S1min之后,调整仓体内的氧气浓度保持在N2mol/kL至少S2min;Step S20, after adjusting the oxygen concentration in the chamber to be N1 mol/kL for at least S1 min, then adjusting the oxygen concentration in the chamber to be N2 mol/kL for at least S2 min;
调整后的仓体内的氧气浓度N2高于调整前的仓体内的氧气浓度至少1%,S2min大于等于1min;The oxygen concentration N2 in the chamber after adjustment is higher than the oxygen concentration in the chamber before adjustment by at least 1%, and S2 min is greater than or equal to 1 min;
其中,S0min可以为0.01min至10min之间任一值,S1min可以为 0min至3min之间任一值。Wherein, S0 min can be any value between 0.01 min and 10 min, and S1 min can be any value between 0 min and 3 min.
步骤S21,根据仓体的氧气浓度变化进行修正调节仓体内氧气浓度:Step S21, correct and adjust the oxygen concentration in the chamber according to the change of the oxygen concentration in the chamber:
步骤S211,在S2min内,第二氧气浓度监测模块实时采集仓体内的氧气浓度;Step S211, within S2 min, the second oxygen concentration monitoring module collects the oxygen concentration in the chamber in real time;
步骤S212,控制模块根据接收第二氧气浓度监测模块的数据信息进行进行分析判断,仓体内的氧气浓度是否为N2mol/ml;Step S212, the control module analyzes and judges whether the oxygen concentration in the chamber is N2mol/ml according to the data information received from the second oxygen concentration monitoring module;
步骤S213;若否,控制模块控制氧气调节模块调节仓体内的氧气浓度为N2mol/ml,所以此时第二氧气浓度监测模块检测的仓体内的氧气浓度为N2mol/ml;Step S213; if not, the control module controls the oxygen adjustment module to adjust the oxygen concentration in the chamber to N2mol/ml, so the oxygen concentration in the chamber detected by the second oxygen concentration monitoring module is N2mol/ml at this time;
其中,第一氧气浓度监测模块实时采集仓体外的氧气浓度,并上报控制模块。Wherein, the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time and reports it to the control module.
当然,由于仓体外界氧气浓度变化不大,第一氧气浓度监测模块实时采集仓体外的氧气浓度,并上报控制模块。在其他实施例中,在S2min 内,第一氧气浓度监测模块实时采集仓体外的氧气浓度,控制模块判断调整后的所述仓体内的氧气浓度N2是否高于调整前的所述仓体外的氧气浓度至少1%,若否,控制模块控制氧气调节模块调节仓体内的氧气浓度,及时修正。Of course, since the oxygen concentration outside the chamber does not change much, the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time and reports it to the control module. In other embodiments, within S2 min , the first oxygen concentration monitoring module collects the oxygen concentration outside the chamber in real time, and the control module judges whether the adjusted oxygen concentrationN2 in the chamber is higher than that before adjustment. The oxygen concentration outside the body is at least 1%. If not, the control module controls the oxygen adjustment module to adjust the oxygen concentration in the chamber and correct it in time.
本发明还提出一种具有储存功能的装置,具有储存功能的装置存储有程序数据,程序数据被执行时能够实现如上所述的方法。The present invention also proposes a device with a storage function. The device with a storage function stores program data. When the program data is executed, the above-mentioned method can be realized.
以上仅为本发明的优选实施例,并非因此限制本发明的专利范围,凡是在本发明的发明构思下,利用本发明说明书及附图内容所作的等效结构变换,或直接/间接运用在其他相关的技术领域均包括在本发明的专利保护范围内,如本发明中,净化装置的入风口与出风口均可以进风和出风,出风口用于进风,入风口用于出风时,均可以实现过滤气体的目的。The above are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Under the inventive concept of the present invention, the equivalent structural transformation made by using the description of the present invention and the contents of the accompanying drawings, or directly/indirectly used in other Related technical fields are included in the patent protection scope of the present invention, as in the present invention, the air inlet and the air outlet of the purification device can both enter and exit the air, the air outlet is used for air intake, and the air inlet is used for air outlet , can achieve the purpose of filtering gas.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201810142041.2ACN108309639A (en) | 2018-02-11 | 2018-02-11 | Sleep storehouse promotes the method for sleep and the device with storage function |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201810142041.2ACN108309639A (en) | 2018-02-11 | 2018-02-11 | Sleep storehouse promotes the method for sleep and the device with storage function |
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| CN108309639Atrue CN108309639A (en) | 2018-07-24 |
| Application Number | Title | Priority Date | Filing Date |
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| CN201810142041.2APendingCN108309639A (en) | 2018-02-11 | 2018-02-11 | Sleep storehouse promotes the method for sleep and the device with storage function |
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| GB2591750B (en)* | 2020-02-04 | 2024-05-01 | Feisal Jhetam Imraan | A wearable sleeping aid device |
| CN113244498A (en)* | 2020-02-07 | 2021-08-13 | 徐文雄 | High-efficiency sleep optimization auxiliary system |
| CN115235034A (en)* | 2022-07-11 | 2022-10-25 | 广东森林有约空气清洁机器人有限公司 | Purifying machine for supplying oxygen to room |
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| Date | Code | Title | Description |
|---|---|---|---|
| PB01 | Publication | ||
| PB01 | Publication | ||
| SE01 | Entry into force of request for substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| RJ01 | Rejection of invention patent application after publication | ||
| RJ01 | Rejection of invention patent application after publication | Application publication date:20180724 |