CN1307954C - Pressure-controllable multiple balloon snoring apnea therapeutic pillow and device - Google Patents

Pressure-controllable multiple balloon snoring apnea therapeutic pillow and device Download PDF

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CN1307954C
CN1307954C CN 200410039501 CN200410039501A CN1307954C CN 1307954 C CN1307954 C CN 1307954C CN 200410039501 CN200410039501 CN 200410039501 CN 200410039501 A CN200410039501 A CN 200410039501A CN 1307954 C CN1307954 C CN 1307954C
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airbag
pillow
pressure
sensor
balloon
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CN 200410039501
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Chinese (zh)
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CN1557270A (en )
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王宏山
俞梦孙
杨军
王玲
成奇明
金璋瑞
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中国人民解放军空军第四研究所
北京泰达新兴医学工程技术有限公司
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Abstract

多气囊打鼾呼吸暂停治疗枕至少由左、右、顶、颈气囊及填充物组成,各气囊互不相通,并各设有气管。 Multi airbag apnea snore pillow treatment by at least left, right, top, and filling the balloon neck composed, through the respective bladders different, and are each provided with the trachea. 治疗枕装置由微处理器根据传感器信号控制压力模块,按设定程序对各气囊充或放气。 Therapeutic pillow apparatus module according to the control pressure sensor signal, according to set procedures for each filling or deflating the balloon by the microprocessor. 传感信号表征打鼾呼吸暂停,可以是鼾声和体位传感器组合;鼾声、呼吸波、血氧饱和度组合和睡眠PSG等中一种或几种提供。 Characterization apnea snore sensing signals, and a position sensor may be a combination of snoring; of one snoring, breathing waves, blood oxygen saturation, etc., or a combination of several PSG sleep and provided. 其中呼吸、体位传感器可以是分区充气囊式床垫传感器或传感带式床垫传感器。 Wherein the respiration, posture sensor may be partitioned balloon mattress mattress sensor or sensing with the sensor. 当检测到鼾声或呼吸暂停时,通过左右气囊充/放气或通过顶、颈气囊充/放气使睡者改变睡姿,或在使相对位置的气囊交替充/放气来唤醒睡者,可以有效中止打鼾和呼吸暂停。 When detecting snoring or apnea, left and right bag by charging / discharging air through a top or neck balloon charge / discharge air so that the sleeping person change their position, or alternately charging / discharging air to wake the sleeper in the relative position of the airbag, can effectively suspend snoring and apnea.

Description

压力可控多气囊打鼾呼吸暂停治疗枕及治疗装置 Pressure controlled multi-balloon snoring and apnea pillow therapy treatment device

技术领域 FIELD

本发明涉及医疗器械领域,更具体地,涉及压力可控多气囊打鼾呼吸暂停治疗枕及治疗装置。 The present invention relates to the field of medical devices, and more particularly, relates to a pressure controlled multiple airbag snoring and apnea treatment pillow treatment device.

背景技术 Background technique

阻塞性睡眠呼吸暂停综合征(OSAS Obstructive Sleep ApneaSyndrome)患者100%都有睡眠时打鼾的症状。 Obstructive sleep apnea symptoms are snoring 100% of patients with sleep syndrome (OSAS Obstructive Sleep ApneaSyndrome). 呼吸暂停更是夜间猝死的主要原因之一。 Apnea is one of the main reasons of sudden death at night. 也有打鼾者无呼吸暂停,但很多无睡眠呼吸暂停的打鼾者由于缺乏深睡、频繁小醒,有着与睡眠呼吸暂停者相同的症状,如白天嗜睡、乏力、注意力不集中、头痛、工作能力下降等。 There snorers without apnea, but snoring a lot of no sleep apnea due to lack of deep sleep, frequent small wake up, have the same symptoms of sleep apnea, such as daytime sleepiness, fatigue, difficulty concentrating, headaches, ability to work decline and so on. 近20年来的研究证实,睡眠中的呼吸暂停(SAS Sleep Apnea Syndrome)与人类的许多疾病的发生、发展有密切关系,对其机理也已大致有了解:睡眠性呼吸暂停(SAS)其病理和生理改变均表现为睡眠时反复发生低血糖、高碳酸血症、血液PH值下降失代偿,此三种现象在睡眠中反复发生会导致身体中一系列生理、病理变化。 The past 20 years of research confirms that sleep apnea (SAS Sleep Apnea Syndrome) and the occurrence and development is closely related to many diseases in humans, its mechanism has roughly understand: sleep apnea (SAS) and its pathology repeated hypoglycemia showed physiological changes in sleep, hypercapnia, blood PH value decreased decompensation, this three phenomena occur repeatedly during sleep can cause a range of physiological and pathological changes in the body. SAS可定义为:同时具备口和鼻气流停止时间>10s;每小时发生次数>5;并伴有血氧饱和度(SaO2)下降值超过4%。 SAS may be defined as: oral and nasal airflow along with a stop time> 10s; number of occurrences per hour> 5; and with oxygen saturation (SaO2) value fell more than 4%. 夜间睡眠性低通气是睡眠呼吸障碍的另一种形式,它是指口、鼻通气量振幅低于平常量的50%,且伴有4%的SaO2下降。 Nocturnal sleep hypopnea is another form of sleep-disordered breathing, it refers to oral, nasal ventilation amplitude of less than 50% of the usual amount, and with 4% of SaO2 decline. 长时间的睡眠性呼吸暂停引发如心脑血管系统疾病、内分沁系统、免疫系统、神经系统等的疾病。 Prolonged sleep apnea caused by brain diseases such as cardiovascular, or endocrine system, immune system, nervous system diseases. 研究表明,常打鼾而无OSAS的人在40岁后,发生OSAS的比率为60%。 Studies have shown that regular snoring without OSAS people after the age of 40, the occurrence of OSAS ratio was 60%.

治疗打鼾我们有必要了解睡觉打鼾的发生原因。 Treatment of snoring we need to understand the causes of snoring. 人们入睡后,口咽部位的软组织松弛,使气道部分受阻,呼吸的气流振动咽腔的软腭或悬雍垂,因而随着呼吸产生了鼾声。 After people sleep, oropharynx soft tissue relaxation, so that the airway partially hindered, the air stream vibrating pharyngeal soft palate or uvula breathing, snoring and therefore with respiration. 当软组织过分松弛而完全阻塞气道时,还可以出现短暂的不能呼吸的现象,医学上称之为阻塞性睡眠呼吸暂停。 When the soft tissue too loose and complete obstruction of the airway, can also be short-lived phenomenon can not breath, medically known as obstructive sleep apnea.

大部分打鼾者只要改变睡姿就可以停止打鼾,纠正呼吸暂停。 Most snorers change their position, as long as you can stop snoring, apnea correct.

以往多数的思路是发现打鼾后,给予某种外界刺激,使人醒觉,自主改变睡姿。 Most of the previous thinking snoring was found to give some kind of external stimuli, people wake up, change their position independent. 短暂的醒觉对人的睡眠影响不大,但是过频的觉醒会影响人的睡眠质量。 Little short of sleep affects people's awareness on, but too frequent awakening will affect the quality of sleep people. 对于严重呼吸暂停患者则主要通过持续正压呼吸(CPAPContinuous Positive Airway Pressure)治疗。 For patients with severe apnea is continuous positive airway pressure, mainly through breathing (CPAPContinuous Positive Airway Pressure) therapy. 对于有轻度或偶发呼吸暂停的人使用CPAP睡眠并不方便,使用者常会抱怨影响正常的睡眠。 For mild or occasional apnea using a CPAP sleep is not easy, users often complain about normal sleep.

鉴于此,希望能够检测打鼾或者呼吸暂停和低通气,并在检测到此种情形后,通过改变睡姿,改变呼吸道的受阻情况来解决呼吸暂停和低通气的发生。 In view of this, hoping to detect snoring or apnea and hypopnea, and upon detecting such a situation, by changing the sleeping position, the situation changes airway obstruction occurs to resolve the apnea and hypopnea. 整个过程应是可控和轻缓的。 The whole process should be controlled and gentle.

发明内容 SUMMARY

本发明要解决的技术问题是提供一种多气囊打鼾呼吸暂停治疗枕,及利用此治疗枕的压力可控多气囊打鼾呼吸暂停治疗装置,在检测打鼾、呼吸暂停、低通气、体动等等表征睡眠中生理参数条件同时,不使睡眠受到干扰的情况下,由该装置对所述治疗枕的各个气囊的充气和放气及充/放气速度通过微处理器控制和协调,使人能够在睡眠中不知不觉地改变睡姿。 The present invention is to solve the technical problem of providing a multi-balloon therapy apnea snore pillow, pillow such treatment and the use of a pressure controlled multiple airbag apnea snore treatment device, the detection of snoring, apnea, hypopnea, body movement and the like characterized in a case where the sleep conditions are physiological parameters, without sleep disturbed by the respective means to said treatment balloon inflation and deflation of pillow and the charge / discharge air speed by a microprocessor control and coordination, a person to unknowingly change their position during sleep. 若改变睡姿没有使睡者停止打鼾时,可通过交替快速改变气囊压力唤醒睡者。 If there is no change their position so that the stop snoring sleeper, the sleeper may wake up quickly by alternately changing the cuff pressure.

本发明的技术解决方案是:多气囊打鼾呼吸暂停治疗枕,其特征是在枕头平面上至少包括左、右气囊、顶气囊、颈气囊共四个气囊及填充物;左、右气囊对枕中央左右对称,其枕侧边处宽,枕中央侧窄,顶气囊在枕头平面上部,颈气囊在枕头平面下部,各与所述左、右气囊交界;在睡者的背部位置还设有对称的左、右背部气囊;各气囊间互相隔离不相通;各气囊上设供装置气管的口。 Technical solutions of the present invention are: multi-balloon therapy apnea snore pillow, the pillow characterized in that the plane includes at least the left and right airbags, airbag top, a total of four airbags and airbag neck filler; left, center and right occipital airbag symmetrical, its wide sides of the pillow, the pillow central narrow side, the upper plane at the top of the balloon pillows, neck pillows airbag in a lower plane, each of the right boundary of the left airbag; in the back position of the sleeper is also provided symmetrically left and right rear balloon; not separated from each other between respective bladders in communication; windpipe means provided for each balloon.

利用上述治疗枕的治疗装置的技术方案是:压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是包括传感器接入部1,传感信号前处理器2,微处理器3,气囊压力控制模块6及治疗枕7及显示器4;所述治疗枕在枕头平面上至少包括左、右气囊、顶气囊、颈气囊共四个气囊及填充物;左、右气囊对枕中央左右对称,其枕侧边处宽,枕中央侧窄,顶气囊在枕头平面上部,颈气囊在枕头平面下部,各与所述左、右气囊交界,各气囊间互相隔离不相通;各气囊上设供装置气管的口;所述治疗枕各气管口连接气管,管道上连接并列的充气和放气电磁阀及压力传感器,各设有充气电磁阀的管路并列后与气泵相接,设有放气电磁阀的管路并列后与大气相通;在睡者的背部位置还设有对称的左、右背部气囊,联有气管和电磁阀,由微处理器控制充/放气,改变所述气 With the above treatment regimen pillow art apparatus are: a pressure controlled multiple airbag apnea snore pillow therapy treatment device, characterized in that the access unit includes a sensor 1, before the sensing signal processor 2, a microprocessor 3, balloon pressure the control module 6 and a display 7 and treatment pillow 4; the therapeutic pillow includes at least the left and right airbags, airbag top, a total of four bladder neck and bladder filling in the pillow plane; left and right symmetrically to the central airbag pillow which wide pillow side edges, a lower side of the central narrow pillow, a pillow at the upper plane of the top of the airbag, the airbag in the neck pillow a plane, each of the left and right bag-junction, separated from each other between respective bladders do not communicate; pipe means provided for the respective bladders mouth; each of the therapeutic pillow tracheal tube connector port, a parallel pipe connections inflation and deflation solenoid valve and a pressure sensor, each provided with a pneumatic line in parallel with the solenoid valve after the pump in contact with the discharge gas solenoid valve after the line parallel to the atmosphere; in the back position of the sleeper is also provided with symmetrical left and right rear balloon, with trachea and solenoid valve controlled by a microprocessor charging / discharging air, changing the air 囊的压力,辅助所述枕头各气囊的动作;所述接入部1接收来自传感器的传感信号,由前处理器2滤波放大和A/D变换后输入微处理器3,微处理器控制所有气囊压力,所述控制模块按工作程序操作电磁阀及泵以对各气囊充/放气,调节各气囊的压力,对睡者做改变睡姿或摇醒动作。 Bladder pressure, the secondary balloon pillows of each operation; after the access unit receives a sensing signal from the sensor 1 is amplified by the processor before the second filter and A / D conversion input to the microprocessor 3, microprocessor control All balloon pressure, the control module according to the working program operating solenoid valve and the pump to the balloon for each charge / discharge gas, adjusting the pressure of the respective bladders, are made to change their position or sleep shake operation.

本发明治疗枕装置通过对枕头各个气囊的充气和放气及其速度的控制和协调,使人能够在睡眠中不知不觉地改变睡姿,从而停止打鼾,纠正呼吸暂停,防止由此产生身体致病的一系列生理、病理变化,防止引发各种疾病。 The present invention is by treating pillow apparatus for controlling and coordinating the pillow and each air bag inflation and deflation speeds, a person to sleep unconsciously changes in sleeping position to stop snoring, apnea corrected, thereby preventing the generation of the body a series of physiological and pathological changes pathogenic to prevent lead to various diseases.

通过对枕头的颈和顶气囊的充、放气控制,控制睡者仰卧时的角度,及侧卧时枕头的高度,保护头和颈椎不受剪切力,使睡眠更为舒适。 By charging for pillows neck and top of the balloon, deflate control, control the angle at which those who sleep supine, lateral and height of the pillow to protect the head and cervical spine from shear forces, the more comfortable sleep.

通过本发明治疗枕装置进一步的变形方案,增加背部气囊,可辅助翻身和侧转头部。 By treatment of the present invention further variant pillow apparatus, the back of the airbag increases, and the rotor may turn the auxiliary head.

附图说明 BRIEF DESCRIPTION

图1是本发明治疗枕装置实施例的构成框图。 FIG 1 is a configuration block diagram of the present invention for the treatment apparatus of the embodiment of the pillow.

图2是本发明治疗枕装置实施例中枕头构成的平面示意图。 FIG 2 is a plan view schematically illustrating configuration of the pillow therapeutic pillow apparatus embodiment of the present invention. 图2(a)是图2的BB剖视图。 FIG 2 (a) is a BB cross-sectional view of FIG. 图2(b)是图2的AA剖视图。 FIG 2 (b) is an AA cross-sectional view of FIG.

图3是本发明治疗枕装置实施例中枕头侧视的各构成部分关系放大的示意图。 FIG 3 of the present invention is a therapeutic pillow apparatus embodiment pillow schematic side view of an enlarged portion of the relationship between each component.

图4是本发明治疗枕头的充/放气管路一个例子的示意图。 FIG 4 is a schematic diagram of the charge / discharge air line of an example of the present invention for the treatment of the pillow.

图5是本发明治疗装置的工作流程图。 FIG 5 is a flowchart of the treatment apparatus of the present invention.

图6是本发明治疗装置向右翻身程序流程图。 FIG 6 is a flowchart illustrating the treatment apparatus of the present invention is a program right turn.

图7是本发明治疗装置向左翻身程序流程图。 FIG. 7 is a left turn treatment device according to the present invention is a program flow chart.

图8是本发明治疗装置顶气囊充气程序流程图。 FIG 8 is a flowchart of a program airbag inflator apparatus of the present invention is a top treatment.

图9是本发明治疗装置颈气囊充气程序流程图。 FIG 9 is a program flow chart neck airbag inflator device of the present invention.

图10是本发明治疗装置振荡唤醒程序流程图。 FIG 10 is a flowchart of a program wakeup oscillation treatment device according to the present invention.

图11是本发明治疗装置缓慢恢复程序流程图。 FIG 11 is a flowchart of a program slow recovery treatment apparatus of the present invention.

图12(a)、(b)是分区充气囊式床垫传感器结构示意图。 FIG. 12 (a), (b) are schematic structural partitions sensor capsule inflatable mattress.

图13(a)、(b)、(c)是传感带式床垫传感器结构示意图。 FIG 13 (a), (b), (c) is a schematic view of the sensing strip mattress sensor structure.

具体实施方式 detailed description

以下结合附图详细叙述实施例。 The following detailed description of embodiments in conjunction with the accompanying drawings.

图1是本发明治疗枕装置实施例的构成框图。 FIG 1 is a configuration block diagram of the present invention for the treatment apparatus of the embodiment of the pillow. 本例的装置中包括有传感器接入部1接入传感信号,作为传感信号前期处理的滤波放大和A/D转换等的前处理器2,微处理器3,微处理器3通过气囊压力控制模块6对治疗枕头7进行控制。 The apparatus of the present embodiment includes a sensor sensing the access signal receiving part 1, as filtered sensor signal pre-processing of amplification and A / D conversion and the like of the preprocessor 2, a microprocessor 3, the microprocessor 3 via balloon pressure control module 6 controls the treatment pillow 7. 另外,可以将显示器4和微处理器3连接作实时监视。 Further, the display may be connected to the microprocessor 3 and 4 for real-time monitoring. 还可以有由微处理器3将输出的结果送向输出设备5,例如打印机、笔录仪,作打印或记录输出。 The results can also be output by the microprocessor 3 is sent to the output device 5, such as a printer, meter record, as the print or recording output. 微处理器应包括存储本发明装置的工作程序、处理信息的存储器、接口、控制器和运算器等微计算机基本构成,不必赘述,所述控制模块6按工作程序操作电磁阀及泵以对各气囊充/放气,调节各气囊的压力,对睡者做改变睡姿或摇醒动作。 The microprocessor shall work including a program storage apparatus of the present invention, the processing memory, an interface, a controller, etc. and computing the microcomputer basic configuration information, do not repeat, the control module 6 by the solenoid valve operation and procedures for each pump balloon charge / discharge air pressure was adjusted to the respective bladders, are made to change their position or sleep shake operation.

所述枕头7的结构示意图见图2、3。 The structure is shown in Figure 7, the pillow 2 and 3. 其中图2是其构成示意图,图2(a)是图2中的BB剖视图。 Wherein FIG. 2 is a schematic configuration, FIG. 2 (a) is a sectional view BB of Figure 2. 图2(b)是图2中的AA剖视图。 FIG 2 (b) is a sectional view AA in FIG 2. 图3是枕头侧视各构成部分关系放大的示意图。 FIG 3 is a schematic side view of the pillow portion of an enlarged constituent relationship. 所述枕头是一个多气囊打鼾呼吸暂停治疗枕,至少由四个气囊组成,依图2上下方向为宽向。 The balloon is a multi-snoring pillow apnea treatment pillow, consisting of at least four airbags, by the vertical direction in FIG. 2 is a widthwise. 枕头是由左右对称的、两边宽、中间窄的左气囊111和右气囊112,上部的顶气囊114,和下部的颈气囊113,以及填充物115构成一个整体的枕头,枕头中央处顶气囊宽度可稍大于颈气囊。 Pillow is symmetrical, both sides of the wide, narrow in the middle of the left airbag 111 and a right airbag 112, the top of the airbag upper portion 114, and the lower neck of the airbag 113, and a filler 115 composed of an integral pillow top bag width pillow center It may be slightly larger than the neck of the airbag. 左、右气囊与颈气囊的交界线所呈弧线,其曲率半径可大于左、右气囊与顶气囊交界线所呈弧线的曲率半径。 Left and right airbag bladder neck boundary line arc shape, the radius of curvature may be greater than the left and right bag-arc radius of curvature of the top boundary of the balloon was. 所述各气囊充气后的高度可以根据不同人的感受调节。 The height of each of the inflated airbag can be adjusted according to different people's feelings. 根据需要,所述各气囊可以再分隔得更细,那样,气囊数将更多。 If necessary, the respective bladders can be subdivided more finely, as will be more number of airbag.

参见图4,各气囊之间互相隔离不相通,每个气囊上设通往空气泵31的管,管上设充/放气双向电磁阀24-27、通大气的放气电磁阀28和压力传感器29。 Referring to FIG 4, the isolation between the airbag does not communicate with each other, the air pump 31 is provided in the pipe leading to each balloon, provided the charge / discharge air pipe bidirectional solenoid valve 24-27, the atmosphere open solenoid valve 28 and the discharge gas pressure sensor 29. 或者,作为充/放气电磁阀的替代方案,通到一个气囊的管子可设为分别带通空气泵31的充气单向电磁阀和通大气的放气单向电磁阀并列的二路来代替原来一个双向电磁阀以及共用的放气阀28,因为容易理解,此替代方案没有图示。 Alternatively, as the charging / discharging alternative gas solenoid valve, opens into a bladder tube can be set separately bandpass pneumatic air pump 31 through the one-way solenoid valve and air bleed air way solenoid valve instead of juxtaposed Road had a two-way solenoid valve 28, and a common discharge, as easily understood, this alternative is not shown. 由微处理器3控制各对应电磁阀通/断及空气泵31的运行/停止来控制各气囊的充气/放气,从而使气囊或鼓或泄,促成睡者的头或侧转或仰或抬起,例如左气囊111鼓,右气囊112泄,将使头向右气囊一边侧转。 Controlled by the microprocessor 3 controls the operation of the solenoid valves corresponding to the respective on / off the air pump 31 and / stop of each balloon inflated / deflated so that the balloon or drum or the vent, or contributed to the sleeping person's head or overhead or side rotor raised, for example, the left airbag drum 111, drain 112 and right airbags, side airbags will head to the right side rotor. 又,顶气囊114泄,头将仰。 Further, the top 114 of the airbag vent, Yang head. 图4以对顶气囊充/放气为例说明顶气囊充/放气的运行。 FIG 4 is a top of the charge and the balloon / balloon deflation as an example a top charge / deflation operation. 图中实黑线箭头表示充气路线,虚线箭头为放气路线。 The solid black arrows represent the pneumatic line, a dotted arrow line is deflated. 以微处理器为核心构成的控制系统控制枕头的充放气的过程将在下面叙述。 Microprocessor core configuration of the process control system controls the inflation-deflation pillow will be described below. 气囊压力控制模块6控制所述泵31和四个充气双向电磁阀和放气电磁阀的驱动器件,调节各个气囊的气体压力,任何一种能达到此功能的硬件构成都可使用,它们已为人熟悉,无需细交代。 Balloon pressure control module 6 controls the drive means of the pump 31 and the four two-way solenoid valve and the pneumatic bleed solenoid valve, regulating the gas pressure in each air bag, to achieve any of the hardware configuration of this feature can be used, they are well familiar, no small account.

所述传感器接入部1可以接入传感器,包括:鼻气流、鼾声传感器,心电和/或胸呼吸传感器,腹呼吸传感器,体动、体位传感器,脑电传感器,眼动电传感器,肌电传感器,血氧、脉搏波传感器以及睡眠监护仪(睡眠PSG)等。 The sensor unit 1 can access the access sensor, comprising: a nasal airflow, snoring sensor, an ECG, and / or thoracic breathing sensor, a breathing sensor abdomen, body motion, body position sensor, an EEG sensor, an electric eye sensor, EMG sensors, blood oxygen, pulse wave sensor and monitor sleep (sleep PSG) and the like. 其中鼻气流、鼾声和/或呼吸、体位、血氧等传感信号是基本的,这几种传感器中有市售产品的,对其结构将不再作描述。 Wherein the nasal airflow, snoring and / or respiration, posture, oximetry sensor signal is essential, these types of sensors are commercially available products, its structure will not be described.

现在首先以假设接入鼾声和体位信号的传感器为例结合作为相应例子的图5-11流程图说明本发明枕头和治疗装置的工作。 Now the sensor is first assumed that the access position and snoring signal as respective examples in conjunction with an example of a flowchart for explaining the work of FIG. 5-11 and pillows treatment device of the present invention.

由图5,S1-S3为初始化及设定阈值步骤,S4读传感信号值,读取鼾声值及判断是否超出阈值(S4,S5),在S5当鼾声低于阈值时,进入启动缓慢恢复程序S18(图11),将四个气囊的压力到达设定值(S181,S182),然后返回主程序,鼾声超出阈值时在S6判断体位是否左侧卧,如是,在S7启动右侧翻身程序(图6),在S71逐步充气左气囊,在S72逐步放气右气囊,然后在S73返回主程序,S10-S13继续判断是否已改为右侧卧(S13),或是否鼾声小于阈值(S11),鼾声小了,就进入缓慢恢复程序(S18),如已改为右侧卧,但充/放气仍未达到最大设定次数N(n<N=,且鼾声仍大,将在S15作仰头操作的颈部充气程序(图9),否则将启动振荡程序S16(图10),唤醒睡者,阻止其继续打鼾,振荡程序是在S161-S168中作左、右气囊交替充/放气,相当于左右摇动睡者。达到最大次数以后,返回主程序S4,继续监测 FIG. 5, S1-S3 and the threshold value is set to the initialization step, S4 reads the sensing signal value, and determines whether the read value of snoring exceeds a threshold value (S4, S5), at the time when the snoring is below a threshold S5, enter the slow start recovery program S18 (FIG. 11), the four pressure of the airbag reaches the set value (S181, S182), then returns to the main routine, snoring exceeds a threshold value is determined in S6 whether the left lateral position, and if so, start the program at the right turn S7 (FIG. 6), and gradually inflated left airbag in S71, in S72 the right airbag gradually deflated, and then return to the main routine S73, S10-S13 judges whether to continue lying right (S13), whether snoring or less than a threshold (S11 ), snoring small, slow recovery procedure proceeds to (S18), as has been changed to right side, but the charge / discharge gas has not reached the set maximum number of times N (n <N =, and snoring is still large, and in S15 for inflatable neck upward operation procedure (FIG. 9), the program would otherwise start the oscillation S16 (FIG. 10), wake up the sleeping person, which continues to prevent snoring, is a program for oscillations in S161-S168 in the left and right airbags are alternately charged / after deflation, equivalent to about shaking the sleeping person. the maximum number of returns to the main S4, continue to monitor 鼾状态。 Snore state.

以上描述的是左侧卧时的过程,如不是左侧卧,则检测是否仰卧还是右侧卧(S61,S62),由于其过程相似于以上所说的左侧卧时,从图5中可清楚看到,这里不再作文字叙述。 Described above is the process when the left side lying, if not left lying, it is detected whether or supine lying right (S61, S62), due to the process similar to the above mentioned lay the left in FIG. 5 may be clear that this is no longer for narrative.

由以上过程可知,姿势的调整包括头的左侧、右侧位的改变,仰卧位的头的仰卧角度(许多打鼾者在打鼾时会有张嘴呼吸的习惯,纠正了张嘴呼吸就能制止打鼾)以及以上两种基本方式的组合方式。 From the above process, posture adjustments include the left side of the head, change to the right position, sit-angle head of the supine position (many snorers snore when there mouth breathing habits, correcting mouth breathing can stop snoring) and a combination of two or more basic ways. 顶、颈气囊除了改变仰卧时角度外,还兼有在侧卧时改变枕头的高度,使睡姿更符合人的自然生理结构,使枕的高度接近半肩宽。 Top, except for changing the bladder neck supine angle, but also to change both the height of the pillow in the lateral the sleeping position more in line with human natural physiological structure, close to half the height of the pillow shoulder. 人在仰卧时枕头(即头枕)的理想高度应为4-6厘米。 In people over the pillow (i.e., headrest) supine height should be 4-6 cm. 颈枕的直径应是8-13厘米。 Occipital diameter should be 8-13 cm. 侧卧时的枕头的高度应是一侧的肩宽,一般是12厘米左右。 When the height of the pillow lateral side of the shoulder should be generally about 12 cm.

本例的构成中除气囊枕头外,还可以在睡者背部部位设对称的左、右背部气囊各一个,联有气管和电磁阀,同样受控于微处理器作充/放气动作,起到辅助翻身和侧(转)头的作用。 The configuration of the present embodiment except the balloon pillows may also be provided in the back portion of the sleeper symmetrical left and right rear balloon one each associated with a pipe and solenoid valve, controlled by the same microprocessor as the charging / discharging operation of gas, from and a side effect to the auxiliary turn (rotation) of the head. 引起打鼾和阻塞型呼吸暂停和低通气的气道解剖结构原因有不同的特点,因而,可因人定制枕头各组成气囊的大小和初始压力,或者制定不同的气囊压力控制程序,使得枕头的形状改变能够确实的避免气道阻塞。 Airway anatomical structural reasons due to snoring and obstructive apneas and hypopneas have different characteristics, therefore, may be due to human custom pillow constituent size and the initial pressure of the airbag, or for different balloon pressure control routine, so that the shape of the pillow changes can indeed avoid airway obstruction.

以上使用本发明枕头及治疗装置能够达到检测及纠正睡姿及打鼾状态,使睡者能够在不打鼾的睡姿下睡眠。 Pillows and treatment using the above apparatus of the present invention can achieve detection and correction and snoring sleeping state, the sleep able to sleep without snoring sleeping position.

以上实施例是在检测鼾声和体位的基础上进行的,增加呼吸传感信号可以辅之以呼吸暂停的监测。 The above embodiment is performed on the basis of the detection of snoring and upper position, a sensing signal may be complemented by increased respiratory apnea monitoring. 传统的体动、体位、呼吸等传感器都必需在睡者的身体上绑、贴各式电极来达到,这将妨碍患者的睡眠状况,本申请人等已开发二种床垫式传感器可以做到在不绑、贴电极的条件下检测睡者的体位及呼吸状况,可以更符合睡者真正自然的睡眠条件,此二种床垫式传感器已申请专利,正在审批中,其申请号为03153923.8和03153508.9。 Traditional body motion, body position, breathing sensors are required in the body of the sleeping person tied, all kinds of electrode paste to achieve, which will interfere with the patient's sleep, the present applicant has developed two kinds of mattresses and other sensors can be done detection without tied, affixed to the electrode position conditions and respiratory condition the sleeping person, who can sleep more in line with real natural sleep condition, the two kinds of mattress sensor has been patented, pending, which is application No. 03153923.8 and 03153508.9. 它们可在本发明中作为体位、呼吸传感器,该二申请文件的内容将作为本发明的传感器内容,下面简要描述其要点:所述第一种床垫传感器是分区充气囊式床垫传感器,其构成的示意图见图12(a)、(b)。 They may be used as in the present invention, the posture, respiration sensor, the contents of which application two documents as a sensor of the present invention, a brief description of the gist of the following: said first sensor is a partition balloon mattress mattress sensor is shown in Figure 12 (a) configuration, (b). 这是一种床垫式的传感装置,传感装置的构成中8是床垫形式的垫,由从里到外为橡胶床垫芯、包裹床垫芯的透气棉和床垫套组成,本例中橡胶床垫芯顺睡者躺卧的纵向被分隔成互相隔离的多个区,在对应于睡者的头部、胸部、臀部、和腿部位置设置时为四个区,至少在头和/或胸部位置应该设置。 This is a type of mattress sensing device, the sensing device 8 constituting the mattress is in the form of pads, from the inside out by the rubber mattress core, the mattress core wrapped mattress cover consisting of cotton and breathable, in the present embodiment the rubber mattress core lying along the sleeper longitudinal region is partitioned into a plurality of mutually isolated, corresponding to the head of the sleeping person, when the breasts, buttocks, and legs to the position of four zones, at least in head and / or chest position should be set. 各区有四周边和底限定,顶面向上开启。 There are four zones and the periphery defining the bottom, the open top surface. 每个区内设有流体囊81,内充规定压力的流体,另设导孔82穿过流体囊81和区壁连通到区外,有导管83,每个导管的一端封接在导孔82上,另一端连接对应的微压/电量变换器84。 Each zone is provided with fluid bladder 81, filled with a predetermined fluid pressure, the guide hole 82 through separate fluid communication with the balloon 81 and the wall region to the outer region, the conduit 83 has one end of each conduit is sealed to the guide hole 82 and the other end connected to the corresponding micro-pressure / power converter 84. 床垫各区的顶面通过所包裹的透气棉、床垫套等将流体囊约束在对应的区内,睡者躺在床垫面上,头、胸、臀、和腿分别隔床垫套等加压给流体囊,在此基础上身体的各种微动(例如呼吸)和体动使身体相应部位施加的压力上叠加小变化,反映为流体囊81内压力在头、胸、臀、腿各部的基本压力上叠加小的压力变化,此变化将顺所述导管83传递给所述变换器84。 The top surface of the mattress zones by a gas-permeable wrapping cotton, mattress covers and other constraints in the fluid bladder corresponding to the region, the sleeper mattress lying surface, head, chest, buttocks, legs and the like, respectively mattress cover spacer the pressurized fluid to the bladder, on the basis of various body microswitch (e.g. respiration) and the corresponding movable body parts of the body pressure exerted on the superimposed small changes, as reflected in the fluid pressure within the bladder 81 in the head, chest, buttocks, legs small pressure variations superimposed on each part of the base pressure, this variation along the conduit 83 will be transferred to the converter 84. 所述导管选用医用橡胶管或硅胶管,其内容积不易因内压变化而变化。 The selection of the medical catheter tube or silicone rubber tube, which volume is not easy to internal pressure changes. 每个所述气囊沿床垫横向还可以分隔成多个分气囊,检测该分气囊的表征体重的压力变化将能检测体位的变化。 Each mattress lateral direction of the airbag may also be divided into a plurality of partial airbags, airbag characterizing points detected weight pressure change will be detected posture change.

变换器84的电输出经滤波、放大器及A/D变换器变换后成为对应于头部、胸部、臀部、和腿部记录信号,从这些信号由微处理器对不同频率段的信号分离、提取,可获得呼吸波及体位、体动,进而提取出呼吸参数,制作出表征呼吸暂停事件的列表和睡眠结构图。 Filtered electrical output converter 84, the amplifier and the A / D converter converted into corresponding head, chest, buttocks, legs, and the recording signal from the signal generated by the microprocessor for signal separation of different frequency, extracting obtained spread breathing posture, body movement, and then extract the respiratory parameters, and make a list of sleep apnea characterize structural diagram of the event. 对于本案治疗打鼾和呼吸暂停的装置感兴趣的可能是呼吸波、体位和呼吸暂停事件。 For this case the treatment of snoring and apnea are interested in the wave may be breathing, posture and apnea events.

第二种床垫传感器是人体自然状态下睡姿的动态检测传感装置,它是一种设有传感带的床垫,图13(a)是其俯视示意图,图13(b)是其左侧视示意图。 The second sensor is a dynamic mattress sleeping position detecting sensor means in the body's natural state, it is a mattress provided with the sensor strip, FIG. 13 (a) is a schematic plan view thereof, FIG. 13 (b) which is left side view of FIG. 它是一个在铺垫物上经粘贴布置的传感带,所述铺垫物,是一种柔软的棉褥子,可供铺在床垫上。 It is a via paste disposed on the bedding of the sensor strip, the bedding was a soft cotton mattress, for laying on the mattress. 传感带是长条形,长度和床褥宽相当,底部为基座,由聚酰亚胺材料做成,是一种厚度仅0.3cm宽2-3cm的传感条,在其内设置一系列传感元件,这些传感元件至少包括薄片式触力传感器91,见图13(c)。 The sensor strip is elongated, the length of the mattress, and a considerably wider, bottom base, made of a polyimide material, a thickness of only 0.3cm wide 2-3cm sensor strip is provided therein a series sensing element, the sensing element comprises at least such a sheet-type contact force sensor 91, shown in Figure 13 (c).

使用的触力传感器是一种尺寸为约高3mm的传感压力的传感元件,选自市售的,例如honeywell FSL系列的商品,每个这样的传感器是长4cm宽3cm厚0.3cm大小,安排多个此种触力传感器,例如8-16个,于作为基座的聚酰亚胺带上形成有长度和褥子宽度相当的传感带,相邻触力传感器之间的间隙中还可以安置温度传感器92,例如市售honeywellTD系列的硅基电阻温度传感器,各传感元件间还存在的空隙填以柔软填充物,例如和铺垫物(棉褥)相同的物质。 Contact force sensor uses a sensing element size of approximately 3mm high pressure sensing, selected from commercially available, e.g. honeywell FSL series of goods, each such sensor is 0.3cm thick 3cm 4cm long width size, arranging a plurality of such contact force sensors, e.g. 8-16, the polyimide tape as a base mat formed with a length and width corresponding to the sensor strip, the gap between adjacent contact force sensor may also be the temperature sensor 92 is disposed, for example, commercially available silicon honeywellTD series resistance temperature sensor, each sensing element is also present between the gap filled with a soft filling, for example, and the bedding (cotton mattress) of the same material. 如此形成的传感带是一个半柔性的长条形。 Sensor strip thus formed is a semi-flexible elongated.

每个传感元件,包括触力的和温度的,依次编号引出信号线供检测其传感信号。 Each sensing element comprises a contact force and temperature are numbered signal lead line for sensing signals detected.

传感带安排在躺在褥子上的人体大致上胸部位置处身下较好,褥子上不妨照样盖上床单,褥子铺在床垫上成为和普通床具一样,被测人体身上没有任何携带物,像平常一样睡眠。 The sensor strip arrangements better, still covered with sheets on the bed might in the human body at a position substantially chest lying on the mattress, the mattress laid on the mattress and become an ordinary bed, as measured human body without any belongings, As usual sleep.

所述触力和温度传感器都是随压力或温度改变而改变其参量,例如电阻值,因此,其输出信号是一个该参量(例如电阻)随被传感量变化的变化量,用任何一种相应的测量仪器和方法可以记录此变化,即被传感的触力和温度的变化。 The contact force and the temperature sensor is a pressure or temperature change with changing its parameters, for example the resistance value, so that the output signal is a parameter (e.g., resistance) is the amount of change with the amount of change of the sensing, by any corresponding measuring instruments and methods may record this variation, i.e. variation in the contact force of the sensing and temperature.

现说明触力传感器的作用,触力传感器传感压力,即躺在床上的人体压向传感器的份量,微处理器可接受各编号的压力传感信号,给出按传感器排列位置对压力的曲线,传感宽度较宽,最高压力较小,是仰卧时的特征,随着睡姿改变,一些编号传感器压力释放,另一些编号传感器着力,曲线位置改变,受压传感宽度变小,最高压力值增大,是侧卧。 Description is now acting contact force sensor, force sensor sensing contact pressure, i.e. the pressure of the bed body weight sensor, the pressure sensor signals of each microprocessor acceptable numbers, arrangement positions of the sensor is given by the pressure profile , the wider the width of the sensor, the maximum pressure is small, when the feature is supine sleeping position changes with some pressure sensors release number, other numbers focus sensors, position change curve, the width of the pressure sensor becomes smaller, the maximum pressure value increases, is lateral. 这样的曲线表征了睡姿。 This curve characterizes the sleeping position. 随着人体的呼吸,压力曲线随时间有频率较低的起伏变化,此放大、分离出来的低频的随时间变化压力线是呼吸波形,同样,随心搏,压力曲线有一随时间而频率较高的起伏变化,放大、分离出此较高频率的随时间变化的压力脉冲是心搏波形。 As the body's respiratory pressure curves over time fluctuation low frequency variation, this amplification, the separated low frequency time-varying line pressure respiration waveform, similarly, heart stroke, a pressure curve over time and a higher frequency ups and downs, amplification, this higher frequency of the separated time-varying pressure pulses are heartbeat waveform.

压力曲线位置的些许变动,表现了被测人的体动。 Little change in position of the pressure curve, the performance of the tested human body motion. 如同分区充气式床垫一样,医护人员可通过设定睡眠分期的阈值结合几条曲线的变化可以判断睡眠深度、睡眠分期等。 As partition inflatable mattress as health care can be determined sleep depth, sleep staging binding curve changes by setting several threshold sleep stage.

由此,通过上述传感带,综合纪录、分析其传感输出信号能够取得睡眠状态下睡姿动态的曲线,分析获得包括睡姿、呼吸、体位、体动等基本生理参数。 Thus, with the above-described sensor, a comprehensive record, Dynamic curve sleeping position sensor output signal in its sleep state can be obtained, to obtain basic physiological parameter comprises analyzing sleeping, breathing, body position, body movement and the like. 因为无需人体身上粘贴或捆绑电极之类物品,也没有引线牵扯,不会影响睡眠状况,无心理负担,较准确反映人体的真正睡眠状态,从而取得较正确的检测结果。 Because no human body tied electrode paste or the like items, nor lead involved, does not affect sleep, no psychological burden, more accurately reflect the true state of the body's sleep, to obtain a more accurate detection results.

所以,上述二种床垫可作体位、体动、呼吸传感的替代传感器。 Therefore, the above two can be used for the mattress position, body movement, respiration sensing sensor substitute. 此二种床垫传感器相比传统体动体位传感器还可以获得胸呼吸、心率参数供参考使用。 The two kinds of sensor compared with traditional mattress body motion position sensor may also be obtained thoracic respiration, heart rate parameters used for reference.

以上实施例是以鼾声和体位传感器提供传感信号基础上来描述的,但此实施例只是示例性的,本发明治疗装置工作原则是建立在检测出鼾声或呼吸暂停的基础上,使本发明的枕头及治疗装置作出反应,使患者改变睡姿,最终达到鼾声停止或呼吸暂停事件中止。 The above embodiments are snoring and position sensor provides a sensor signal based up the description, but is only exemplary embodiments of this exemplary embodiment, the treatment apparatus of the present invention the working principle is based on the detection of the snoring or apnea, of the present invention pillows and equipment to respond to treatment, so that patients change their position, and ultimately achieve stop snoring or apnea events aborted. 在不使用体位传感器的条件下,图5-11的流程图可以相应改变,例如,当用某种传感器检测到鼾声或呼吸暂停事件后可以任意假设头部偏向某侧,通过尝试对枕头的头、颈气囊或左、右气囊进行充或放气,目的是在不检测体位情况下尝试性使头部改变到偏向另一侧,如果不能抑制鼾声或呼吸暂停事件,则作相反的尝试,直到超过预定的改变次数而仍无效,采用振荡程序,否则,用缓慢恢复程序。 In position without using a sensor, a flow chart of FIGS. 5-11 may be changed accordingly, for example, when snoring or apnea is detected in some event sensor may assume any of a head to one side, the head of the pillow by attempting , bladder neck, or left and right balloon deflation or charge, the detection object is not in the position where the head portion is changed to a tentative biased to the other side, if not suppress snoring or apnea event, the attempt in reverse until more than a predetermined number of changes and is still valid, using oscillation procedure, otherwise, with a slow recovery program.

由此可见,基于SAS的定义,作为检测用传感器,除了以上实施例鼾声和体位传感器组合外可以使用于本治疗装置的还有其它传感器组合,例如,鼾声、呼吸波、血氧饱和度组合和睡眠PSG等。 Thus, based on the definition of SAS, as a detecting sensor, in addition to the above embodiments and outer Examples snoring position sensor may be used in combination as well as other sensors combined in the present treatment device, e.g., snoring, breath wave, and a combination of oxygen saturation PSG sleep and so on. 实际上,具备任何检测表征SAS的传感信号,都可以利用于本发明治疗装置治疗打鼾和睡眠呼吸暂停。 Indeed, characterized SAS includes any detected sensor signals, can use the present invention apparatus for the treatment of the treatment of snoring and sleep apnea. 前述实施例,特别是使用了床垫传感器的,其突出优点在于无绑缚电极,使患者的睡眠更接近自然状态。 The foregoing embodiments, especially when using a mattress sensor, which is advantageous in that no protruding bondage electrodes, closer to the patient's natural sleep state.

Claims (9)

  1. 1.多气囊打鼾呼吸暂停治疗枕,其特征是在枕头平面上至少包括左、右气囊、顶气囊、颈气囊共四个气囊及填充物;左、右气囊对枕中央左右对称,其枕侧边处宽,枕中央侧窄,顶气囊在枕头平面上部,颈气囊在枕头平面下部,各与所述左、右气囊交界;在睡者的背部位置还设有对称的左、右背部气囊;各气囊间互相隔离不相通,各气囊上设供装置气管的口。 1. Multi treating apnea snore pillow airbag, wherein the pillow on a plane including at least the left and right airbags, airbag top, a total of four airbags and airbag neck filler; left and right symmetrically to the central airbag pillow, which pillow side wide side, the narrow side of the lower portion of the central pillow, pillow top plane of the upper airbag, the airbag in the neck pillow a plane, each of the left and right bag-junction; in the back position of the sleeper is also provided with symmetrical left and right back airbag; not isolated from each other among the balloon communication apparatus windpipe provided for each balloon.
  2. 2.根据权利要求1所述多气囊打鼾呼吸暂停治疗枕,其特征是左、右气囊与颈气囊的交界线所呈弧线,其曲率半径大于左、右气囊与顶气囊交界线所呈弧线的曲率半径。 The airbag according to more than one apnea treatment snoring pillow, characterized in that the left and right carotid balloon airbag boundary line was curved, a radius of curvature larger than the left and right airbags and airbag top boundary line was claim arc radius of curvature of the line.
  3. 3.压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是包括传感器接入部(1),传感信号前处理器(2),微处理器(3),气囊压力控制模块(6)及治疗枕(7)及显示器(4);所述治疗枕在枕头平面上至少包括左、右气囊、顶气囊、颈气囊共四个气囊及填充物;左、右气囊对枕中央左右对称,其枕侧边处宽,枕中央侧窄,顶气囊在枕头平面上部,颈气囊在枕头平面下部,各与所述左、右气囊交界,各气囊间互相隔离不相通;各气囊上设供装置气管的口;所述治疗枕各气管口连接气管,管道上连接并列的充气和放气电磁阀及压力传感器,各设有充气电磁阀的管路并列后与气泵相接,设有放气电磁阀的管路并列后与大气相通;在睡者的背部位置还设有对称的左、右背部气囊,联有气管和电磁阀,由微处理器控制充/放气,改变所述气囊的压力,辅助所述枕头各气囊 3. Pressure controllable multi airbag snoring pillow apnea therapy treatment device, characterized in that the access unit includes a sensor (1), before the sensing signal processor (2), the microprocessor (3), pressure control of the airbag module (6 ) and treatment pillow (7) and a display (4); the therapeutic pillow includes at least the left and right airbags, airbag top, a total of four bladder neck and bladder filling in the pillow plane; left and right symmetrically to the central airbag pillow which side edges wide pillow, pillow central narrow sides, a top plane of the upper airbag pillows, neck pillows airbag in a lower plane, each, of the left and right bag-junction, separated from each other between respective bladders do not communicate; is provided for each balloon means windpipe; each of the therapeutic pillow tracheal tube connector port, a parallel pipe connections inflation and deflation solenoid valve and a pressure sensor, each provided with a pneumatic line in parallel with the solenoid valve after the pump in contact with gassing line parallel to the solenoid valve to atmosphere; at the back of the sleeper is also provided with a position symmetrical with the left back and right airbags, and a solenoid valve associated with a pipe, controlled by a microprocessor charging / deflation, the balloon changes pressure, the auxiliary pillow respective bladders 动作;所述接入部(1)接收来自传感器的传感信号,并输入与其连接的前处理器(2),由前处理器(2)滤波放大和A/D变换后输入连接在其后的微处理器(3),微处理器通过连接在其输出端的所述控制模块(6)控制所有气囊压力,所述控制模块按工作程序操作所述电磁阀及泵以对连接在相应的阀和泵上的各气囊充/放气,调节各气囊的压力,对睡者做改变睡姿或摇醒动作;所述显示器(4)连接所述微处理器(3),作实时监视。 Operation; after input of the access unit (1) receives sensor signals from the sensors, before the processor (2) and inputs connected thereto, (2) filtering and amplification by the first processor A / D converter connected thereafter a microprocessor (3), the microprocessor (6) controls all of the air pressure through the control module is connected at its output end, connected to the respective valves in the control module operating according to the working program of the solenoid valve and the pump and each of the pump bladder charging / discharging air pressure was adjusted to the respective bladders, are made to change their position or sleep shake motion; the display (4) connected to the microprocessor (3), for real-time monitoring.
  4. 4.根据权利要求3所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述每个气囊上并列的充气和放气电磁阀以双向电磁阀代替,各气囊的所述双向电磁阀并列后所述电磁阀的一端连接到泵,另一端经一放气电磁阀与大气相通。 3 a controllable pressure according to the multi-balloon therapy apnea snore pillow treatment device, characterized in that each of the parallel balloon inflation and deflation of two-way solenoid valve in the solenoid valve in place, each of said bidirectional claim airbag after the end of the solenoid valve in parallel to the solenoid valve connected to the pump, the other end through a bleed solenoid valve to atmosphere.
  5. 5.根据权利要求3或4所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述与微处理器输出端相连接的有打印机和/或笔录仪。 According to claim 3 or claim 4 Pressure controllable multi airbag snoring pillow apnea therapy treatment device, characterized in that a printer and / or record the instrument connected to the output of the microprocessor.
  6. 6.根据权利要求3或4所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述传感器接入部接入的传感器是下列组合中的一种或几种:鼾声、呼吸波、血氧饱和度传感器组合;睡眠PSG;鼾声、体位传感器组合。 According to claim 3 or 4 controllable pressure plurality airbag snoring pillow apnea therapy treatment device, wherein said sensor is a sensor access to the access portion of the following combinations of one or more of: snoring, breathing wave, oximetry sensor combination; the PSG sleep; snoring, position sensor combination.
  7. 7.根据权利要求6所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述呼吸波传感器是分区充气囊式床垫传感器,所述床垫至少在睡者的头和/或胸部位置各设互相分隔的充气囊,所述所有气囊充以设定压力的气体,并设置压力传感装置,由微处理器分离、检测表征呼吸的压力变化。 7. The method of claim 6 controllable pressure plurality airbag snoring pillow apnea therapy treatment device, characterized in that said respiratory wave sensor is a sensor partitions balloon mattress, the mattress at least in the head of the sleeping person and / or chest positions separated from each other, each with a balloon, the balloon is filled with all the set gas pressure, and a pressure sensing means, separated by the microprocessor, characterized by detecting a change in respiration pressure.
  8. 8.根据权利要求6所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述体位和/或呼吸波传感器是分区充气囊式床垫传感器,所述床垫至少在睡者的头和/或胸部位置各设互相分隔的充气囊,每个所述气囊在床垫横向设置为分隔的多个分气囊,所述所有气囊充以设定压力的气体,并设置压力传感装置,由微处理器分离、检测表征呼吸和/或体位的压力变化。 According to claim 6 controllable pressure plurality airbag snoring pillow apnea therapy treatment device, characterized in that the position and / or respiratory wave sensor is a sensor partitions balloon mattress, the mattress at least in the sleeper head and / or chest position of each balloon disposed separated from each other, each of said lateral airbag mattress set of a plurality of points spaced airbag, the airbag is filled with all the set gas pressure, and a pressure sensor means separated by the microprocessor, characterized by the pressure detected respiration and / or changes in body position.
  9. 9.根据权利要求6所述压力可控多气囊打鼾呼吸暂停治疗枕治疗装置,其特征是所述体位和/或呼吸波传感器是传感带式床垫传感器,所述床垫在睡者胸部位置沿床垫横向一排设置多个压力传感器,所述各压力传感器信号由微处理器分离、检测表征呼吸和/或体位的压力变化。 9. The method of claim 6 controllable pressure plurality airbag snoring pillow apnea therapy treatment device, characterized in that the position and / or respiratory wave sensor is a sensor sensing the tape mattress, the mattress sleeping the chest transverse position along a row of mattresses provided a plurality of pressure sensors, each pressure sensor the signal is separated by a microprocessor, characterized respiration pressure changes and / or position detection.
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