1、This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller
2、and DS18B20 temperature sensor.护理综合实训急救及气道管理 技能李善超This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core com
3、ponents of the system are AT89C51 microcontroller and DS18B20 temperature sensor.心肺复苏基础生命支持心肺复苏基础生命支持任务二This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sens
4、or DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.1950 1960 1966封闭式胸部心脏按压与人工呼吸相结合,心肺复苏术诞生ZOLL提出电击除颤,和人工呼吸胸外按压构成了现代心肺复苏术强调了心肺复苏术中脑和神经系统功能的恢复,诞生了心肺脑复苏的新标准200020052010美国的 Peter Safar和James Elam医生开始采用人工呼吸来复苏病人1985发展为心肺复
5、苏学, 每隔 5年更新心肺复苏指南心肺复苏的发展历史This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system ar
6、e AT89C51 microcontroller and DS18B20 temperature sensor.心脏骤停分类1 心室颤动 ( Ventricular Fibrillation)最常见( 77-84%)常见于急性心肌梗死,复苏成功率高。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus di
7、gital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.心脏骤停分类2 无脉室速( Pulseless Ventricular Tachycardia)This paper mainly introduces the design of an intelligent temperature control system which real
8、izes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.心脏骤停分类3 心搏停顿 ( Asystole)较常见( 16-26%)多见于麻醉、手术意外和过敏性休克其心脏应激性降低,复苏成
9、功率低。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontrol
10、ler and DS18B20 temperature sensor.心脏骤停分类4 心电机械分离 ( pulseless electrical activity)极少( 5-8%)常为终末期心脏病,心泵衰竭心脏应激性极差,复苏十分困难。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital t
11、emperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor. 3秒钟 - 黑朦 5-10秒钟 - 意识丧失,晕厥 15秒钟 - 昏厥或抽搐 45秒钟 - 呼吸停止、瞳孔散大 1-2分钟 - 瞳孔固定 6分钟 - 脑细胞死亡 8分钟 -“ 脑死亡 /植物状态 ”黄金 八分钟心脏骤停的严重后果以秒计算This paper mainly introduces th
12、e design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.
13、时间就是生命心搏骤停 后 CPR开始的 时间与 CPR成功率关系:“ 黄金黄金 8分钟分钟 ”1分钟 内 903分钟 内 754分钟 内 505分钟 内 256分钟 内 158分钟 内 4This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20
14、 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.谁可能在 8分钟内进行 CPRThis paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using
15、 single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.定义 心肺复苏 ( Cardio-Pulmonary Resuscitation CPR )是一系列提高心脏骤停后生存机会的救命措施主要包括:1、基础生命支持 (basic life support, BLS)2、高级心血管生命支持 (advanced ca
16、rdiovascular life support, ACLS)This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the sys
17、tem are AT89C51 microcontroller and DS18B20 temperature sensor.基础生命支持 BLSBLS是心脏骤停后挽救生命的基础,主要是指徒手实施 CPR。 BLS的基本内容包括识别心脏骤停、呼叫急救系统、尽早开始 CPR、迅速使用除颤器 AED除颤This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and contro
18、l by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.高级心血管生命支持 ACLS指由专业急救、医护人员应用急救器材和药品所实施的一系列复苏措施,主要包括人工气道的建立、机械通气、循环辅助仪器、药物和液体的应用、电除颤、病情和疗效评估、复苏后脏器功能的维持等。This paper mainl
19、y introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temp
20、erature sensor.确定环境 安全叫 叫C A B D心脏按压心脏按压 开放气道开放气道 人工呼吸人工呼吸 电击除颤电击除颤CPR-BLS 操作This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip
21、microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.一叫:判断有无意识拍打双肩,凑近耳边大声呼唤: “ 喂!你怎么了? ” 如均无反应,则确定为意识丧失轻拍重喊This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measuremen
22、t and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.婴儿意识判断 方法拍打婴儿足底拍打婴儿足底观察有无反应观察有无反应This paper mainly introduces the design of an intelligent temperature cont
23、rol system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.一叫:判断有无意识 医务人员 在检查患者反应时,同时快速检查呼吸,如果没有或不能正常呼
24、吸(即无呼吸或仅仅是喘息)则施救者应怀疑发生心脏骤停。医务人员This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the syst
25、em are AT89C51 microcontroller and DS18B20 temperature sensor.二叫:呼救,拨打急救电话来人呐!救命啊!1. 意外发生地点;2. 呼救电话;3. 发生事件、受伤人数;4. 伤员情况;5. 正在进行的急救措施。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using singl
26、e bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.判断循环触摸颈动脉搏动 1、颈动脉位置: 气管与颈部胸锁乳突肌之间的沟内。2、方法:一手食指和中指并拢,置于患者气管正中部位,男性可先触及喉结然后向一旁滑移约 2-3cm,至胸锁乳突肌内侧缘凹陷处。This paper mainly introduces the des
27、ign of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.注意要领
28、按压体位 按压部位 按压深度 按压频率 按压手法 按压姿势有力、连续、快速有力、连续、快速This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core componen
29、ts of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C1 按压体位1. 呼救同时 ,迅速将病人摆成 仰卧位;2. 解开病人衣领、领带以及拉链;3. 摆放于地面或硬板床;4. 身体平直,无扭曲;5. 脊柱外伤病人 整体转动 ,保护颈部;6. 救护者体位:跪于病人 右侧。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of
30、temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.体位摆放方法整体 翻转,轴线翻身This paper mainly introduces the design of an intelligent temperature
31、 control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C2 按压部位1. 部位:胸骨下段或双乳头与前正中线交界处2. 定位:用手指
32、触到靠近施救者一侧的胸廓肋缘,手指向中线滑动到剑突部位,取剑突上两横指 。This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of th
33、e system are AT89C51 microcontroller and DS18B20 temperature sensor.This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomp
34、uter. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C3 按压深度1. 胸骨下陷 最少 5cm2. 有效标准 :能 触摸到颈或股动脉搏动This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by usin
35、g single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C4 按压频率1. 至少 100次 /分2. 压 下与松开的时间基本相等 This paper mainly introduces the design of an intelligent temperature control system which
36、realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C5 按压手法1. 以掌根按压2. 两手手指跷起 (扣在一起 ),离开胸壁This paper mainly intro
37、duces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature
38、 sensor.1. 上半身前倾,腕、肘、肩关节伸直2. 以髋关节为支点,腰部挺直,用上半身重量往下 压 按压后使胸廓完全回弹3. 手掌根部始终紧贴胸骨 ,保持正常位C6 按压姿势This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and
39、 single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.C6 按压姿势This paper mainly introduces the design of an intelligent temperature control system which realizes the function of temperature measurement and control by using single bus digital temperature sensor DS18B20 and single chip microcomputer. The core components of the system are AT89C51 microcontroller and DS18B20 temperature sensor.
