CN218165269U - Wireless electrocardiogram monitoring system in perioperative period - Google Patents

Abstract

Translated fromChinese

本实用新型公开了围手术期无线心电监测系统，包括袖带和安装在袖带上的主机，其特征在于：所述的主机上设置有显示屏、心电图导线、体温导线、氧饱和度导线，在主机侧壁上设置有连接端口，并在主机内设置有信号转换模块、控制模块、储存模块、无线传输模块、锂电池，所述的心电图导线上设置有贴片，所述的体温导线穿入袖带内，并在体温导线上设置有测温探头，所述的氧饱和度导线一端上设置有氧饱和度监测夹。本实用新型将心电图导线、体温导线、氧饱和度导线均采用一次性结构，使患者从入院到手术到出院可以每人只采用一套干净的心电图导线、体温导线，大大减低因为监护线重复使用导致的患者交叉感染。

The utility model discloses a perioperative wireless ECG monitoring system, which comprises a cuff and a host installed on the cuff. , a connection port is arranged on the side wall of the host, and a signal conversion module, a control module, a storage module, a wireless transmission module, and a lithium battery are arranged in the host, a patch is arranged on the electrocardiogram wire, and a patch is arranged on the body temperature wire It is inserted into the cuff, and a temperature measuring probe is arranged on the body temperature wire, and an oxygen saturation monitoring clip is arranged on one end of the oxygen saturation wire. The utility model adopts a disposable structure for electrocardiogram wires, body temperature wires, and oxygen saturation wires, so that each patient can only use a set of clean electrocardiogram wires and body temperature wires from hospital admission to operation to discharge, which greatly reduces the need for repeated use of monitoring wires. patient cross-infection.

Description

Translated fromChinese

围手术期无线心电监测系统Perioperative Wireless ECG Monitoring System

技术领域technical field

本实用新型涉及医疗技术领域，具体是围手术期无线心电监测系统。The utility model relates to the field of medical technology, in particular to a perioperative wireless electrocardiogram monitoring system.

背景技术Background technique

在手术室里，现有对患者生命体征监测的设备都是采用有线监测系统，首先，但是由于手术床和麻醉监护仪的有限距离，各种线路常环绕，非常凌乱，术中手术床因为患者病情需要进行各种调动时，线路常常被意外扯断或者扯掉，对患者生命体征的监测造成了安全隐患，常需要中止手术去调节线路；其次，现有的有线监测生命手段，手术完毕的病人在手术结束后需要拆掉所有的监护，送到恢复室后再重新连接新的监护，在送往病房之前，又需要拆掉有线监护回病房后再次连接监护仪的各种线路，给医生和护士造成了极大的工作量，并且在患者拆掉监护进行运输的过程中风险也很高，不能持续监测患者的生命体征变化；第三，现在临床工作中，患者进行生命体征监测后，各种心电监测线路牵拉环绕，对患者的各种行动造成了不便，患者如有需要下床活动，例如外出做检查、吃饭、上厕所等，身体上的监测线路尤为不便，如果暂时断开监护仪线路，患者因活动引起的生命体征无法监测，如有危机出现时，如患者晕倒，医生无法及时发现监护仪患者的生命体征信息，在判断患者病情时，可能会耽误患者的抢救时机；另一方面，患者由于各种导线线路的监护限制了自由，只能平躺在病床上，心理压力大，也不利于患者的康复，基于此，我们设计一种无线监测系统，如果采用无线监护系统，患者可以只接受一次安装监护，并且随时随地都可以通过无线系统的接收来监护患者，极大的提高了患者的生命安全。In the operating room, the existing equipment for monitoring the vital signs of patients adopts a wired monitoring system. First of all, due to the limited distance between the operating bed and the anesthesia monitor, various lines often surround and are very messy. When the condition requires various adjustments, the line is often accidentally torn or torn off, which causes a safety hazard to the monitoring of the patient's vital signs, and it is often necessary to suspend the operation to adjust the line; After the operation, the patient needs to remove all the monitors, send them to the recovery room, and then reconnect the new monitors. Before sending them to the ward, they need to remove the wired monitors and go back to the ward to connect the various lines of the monitors again. It caused a huge workload for nurses and nurses, and the risk was high when the patient was removed from the monitor for transportation, and the changes in the patient's vital signs could not be continuously monitored; third, in clinical work, after the patient's vital signs are monitored, Various ECG monitoring lines are pulled around, causing inconvenience to the patient's various actions. If the patient needs to get out of bed for activities, such as going out for examinations, eating, going to the toilet, etc., the monitoring lines on the body are particularly inconvenient. When the monitor line is turned on, the patient’s vital signs cannot be monitored due to activities. If a crisis occurs, such as the patient faints, the doctor cannot find the patient’s vital signs information on the monitor in time. When judging the patient’s condition, the patient’s rescue may be delayed. Timing; on the other hand, the patient can only lie flat on the hospital bed due to the monitoring of various wires, which is not conducive to the recovery of the patient. Based on this, we design a wireless monitoring system. With the wireless monitoring system, the patient can only receive monitoring once installed, and the patient can be monitored anytime and anywhere through the reception of the wireless system, which greatly improves the life safety of the patient.

实用新型内容Utility model content

本实用新型的目的是克服现有患者生命体征监测设备线路较多易发生混乱导致中止手术、在患者转移过程中需要多次对患者进行拆装监测设备、监测设备线路过多不便患者活动的问题，提供一种结构设计合理、不会因线路混乱导致手术中止、不需在患者转移过程中拆装监测设备、方便患者活动的、避免监测仪器重复使用发生交叉感染的围手术期无线心电监测系统。The purpose of this utility model is to overcome the problems that the existing patient's vital sign monitoring equipment has too many lines and is prone to confusion, which leads to the suspension of the operation, the need to disassemble and assemble the monitoring equipment for the patient many times during the patient transfer process, and the inconvenience of the patient's activities due to too many monitoring equipment lines. , to provide a perioperative wireless ECG monitoring with reasonable structural design, no interruption of surgery due to line confusion, no need to disassemble and assemble monitoring equipment during patient transfer, convenient patient activities, and avoiding cross-infection caused by repeated use of monitoring instruments system.

本实用新型解决的技术问题所采取的技术方案为：The technical scheme that the technical problem that the utility model solves takes is:

围手术期无线心电监测系统，包括袖带和安装在袖带上的主机，其特征在于：所述的主机上设置有显示屏、心电图导线、体温导线、氧饱和度导线，在主机侧壁上设置有连接端口，并在主机内设置有信号转换模块、控制模块、储存模块、无线传输模块、锂电池，所述的心电图导线上设置有贴片，所述的体温导线穿入袖带内，并在体温导线上设置有测温探头，所述的氧饱和度导线一端上设置有氧饱和度监测夹。The perioperative wireless ECG monitoring system includes a cuff and a host installed on the cuff. A connection port is arranged on the main body, and a signal conversion module, a control module, a storage module, a wireless transmission module, and a lithium battery are arranged in the host computer. The electrocardiogram wire is provided with a patch, and the body temperature wire is inserted into the cuff , and a temperature measuring probe is arranged on the body temperature wire, and an oxygen saturation monitoring clip is arranged on one end of the oxygen saturation wire.

优选地，所述的袖带上设置有魔术扣，使袖带能够调节大小，将袖带采用现有的血压计式袖带，能够根据不同患者的手臂调整袖带的大小，使袖带牢牢固定在患者手臂上，进而提高主机在使用过程中的稳定性。Preferably, the cuff is provided with a magic button, so that the cuff can be adjusted in size, and the cuff adopts an existing sphygmomanometer cuff, which can adjust the size of the cuff according to the arms of different patients, so that the cuff is firmly It is firmly fixed on the patient's arm, thereby improving the stability of the host during use.

优选地，所述的主机与心电图导线、体温导线、氧饱和度导线活动连接，并将心电图导线、体温导线、氧饱和度导线设置为可从主机上更换的结构，将心电图导线、体温导线、氧饱和度导线活动采用一次性结构，使患者从入院到手术到出院可以每人只采用一套干净的心电图导线、体温导线，大大减低因为监护线重复使用导致的患者交叉感染。Preferably, the host is movably connected with the electrocardiogram wire, body temperature wire, and oxygen saturation wire, and the electrocardiogram wire, body temperature wire, and oxygen saturation wire are set as a replaceable structure from the host, and the electrocardiogram wire, body temperature wire, The oxygen saturation lead adopts a disposable structure, so that patients can only use a set of clean ECG leads and body temperature leads from admission to surgery to discharge, which greatly reduces cross-infection of patients caused by repeated use of monitoring lines.

优选地，所述的连接端口可与血压计气泵、血氧饱和度监测设备、呼吸机、输液泵、注射泵、除颤仪、CRRT、PICCO中的任意一种或多种设备连接，将主机与血压计气泵连接，便于对患者进行血压监测，将主机上的连接端口与多种监测设备连接，使主机成为一个具有多种监测功能的设备，使检测设备的线路贴合在患者皮肤上，避免线路悬空后与监测设备连接，不会因线路脱落而导致手术中止，另一方面，主机将多种监测设备收集到的参数传输到终端内，便于医务人员远程了解到患者生命体征，有利于对患者病情精准预判。Preferably, the connection port can be connected to any one or more of the sphygmomanometer air pump, blood oxygen saturation monitoring equipment, ventilator, infusion pump, syringe pump, defibrillator, CRRT, PICCO, and the host Connect with the sphygmomanometer air pump to facilitate blood pressure monitoring of patients. Connect the connection ports on the main unit with various monitoring devices to make the main unit a device with multiple monitoring functions. Avoid connecting the monitoring equipment after the line is suspended, and the operation will not be suspended due to the line falling off. On the other hand, the host transmits the parameters collected by various monitoring equipment to the terminal, which is convenient for medical staff to remotely understand the patient's vital signs, which is beneficial Accurately predict the patient's condition.

优选地，所述的控制模块分别与显示屏、信号转换模块、控制模块、储存模块、无线传输模块、锂电池连接，并将信号转换模块与心电图导线、体温导线、氧饱和度导线、连接端口连接，各种监测设备的监测到的信号传输到信号转换模块内，经过信号转换模块转换成数字或图形后传输到控制模块内，转换后的参数显示在显示屏内、储存在储存模块内，并经过无线传输模块传输到与主机无线连接的终端内，显示屏内显示的各种参数使患者能够直观的看到各种基本生命体征的变化曲线；传输到终端内的基本生命体征参数，便于医务人员远程进行参数采集和分析，提前预防和发现患者危机事件，便于及早进行治疗和抢救。Preferably, the control module is connected to the display screen, signal conversion module, control module, storage module, wireless transmission module, and lithium battery respectively, and the signal conversion module is connected to the electrocardiogram wire, body temperature wire, oxygen saturation wire, and connection port Connection, the monitored signals of various monitoring equipment are transmitted to the signal conversion module, converted into numbers or graphics by the signal conversion module, and then transmitted to the control module. The converted parameters are displayed on the display screen and stored in the storage module. And through the wireless transmission module, it is transmitted to the terminal wirelessly connected to the host. The various parameters displayed on the display screen enable the patient to see the change curve of various basic vital signs intuitively; the basic vital sign parameters transmitted to the terminal are convenient. Medical personnel collect and analyze parameters remotely to prevent and detect patient crisis events in advance, so as to facilitate early treatment and rescue.

优选地，所述的主机通过无线传输模块可以血压计模型显示屏、监护仪、手机或电脑任意一种或多种终端连接，并将主机采集到的监测数据采用无线传输的方式传输到连接的终端内。Preferably, the host can be connected to any one or more terminals of a sphygmomanometer model display screen, a monitor, a mobile phone or a computer through a wireless transmission module, and transmit the monitoring data collected by the host to the connected inside the terminal.

优选地，所述的无线传输方式WiFi传输、2.4g频段通信或蓝牙任意一种方式传输，通过无线传输，能够将主机将收集到的参数传输到终端内，便于医务人员远程了解到患者生命体征，有利于对患者病情精准预判。Preferably, any one of the wireless transmission methods WiFi transmission, 2.4g frequency band communication or Bluetooth transmission can transmit the parameters collected by the host to the terminal through wireless transmission, so that medical staff can remotely understand the patient's vital signs , which is conducive to accurate prediction of the patient's condition.

优选地，所述的锂电池设置为可从主机内更换的结构，将锂电池设置为可更换的结构，能够为主机的工作提供电能，进一步减少线路的数量。Preferably, the lithium battery is configured as a replaceable structure from the host, and the lithium battery is configured as a replaceable structure, which can provide power for the host to further reduce the number of lines.

有益效果：Beneficial effect:

1.将心电图导线、体温导线、氧饱和度导线活动采用一次性结构，使患者从入院到手术到出院可以每人只采用一套干净的心电图导线、体温导线、氧饱和度导线，大大减低因为监护线重复使用导致的患者交叉感染；1. The electrocardiogram wire, body temperature wire, and oxygen saturation wire are used in a disposable structure, so that patients can only use one set of clean ECG wire, temperature wire, and oxygen saturation wire from admission to surgery to discharge, which greatly reduces the risk of Cross-infection of patients caused by repeated use of monitoring lines;

2.将主机与血压计气泵连接，便于对患者进行血压监测，将主机上的连接端口与多种监测设备连接，使主机成为一个具有多种监测功能的设备，使检测设备的线路贴合在患者皮肤上，避免线路从患者身体悬空后与监测设备连接，不会因线路导致手术中止，另一方面，主机将多种监测设备收集到的参数传输到终端内，便于医务人员远程了解到患者生命体征，有利于对患者病情精准预判；2. Connect the host with the air pump of the sphygmomanometer, which is convenient for blood pressure monitoring of patients, and connect the connection ports on the host with various monitoring equipment, so that the host becomes a device with multiple monitoring functions, and the circuit of the detection equipment is attached to the On the patient's skin, prevent the line from being suspended from the patient's body and then connect to the monitoring equipment, so that the operation will not be suspended due to the line. On the other hand, the host transmits the parameters collected by various monitoring equipment to the terminal, which is convenient for medical staff to remotely understand the patient. Vital signs are conducive to accurate prediction of the patient's condition;

3.各种监测设备的监测到的信号传输到信号转换模块内，经过信号转换模块转换成数字或图形后传输到控制模块内，转换后的参数显示在显示屏内、储存在储存模块内，并经过无线传输模块传输到与主机无线连接的终端内，显示屏内显示的各种参数使患者能够直观的看到各种基本生命体征的变化曲线；传输到终端内的基本生命体征参数，便于医务人员远程进行参数采集和分析，提前预防和发现患者危机事件，便于及早进行治疗和抢救。3. The monitored signals of various monitoring equipment are transmitted to the signal conversion module, converted into numbers or graphics by the signal conversion module, and then transmitted to the control module. The converted parameters are displayed on the display screen and stored in the storage module. And through the wireless transmission module, it is transmitted to the terminal wirelessly connected to the host. The various parameters displayed on the display screen enable the patient to see the change curve of various basic vital signs intuitively; the basic vital sign parameters transmitted to the terminal are convenient. Medical personnel collect and analyze parameters remotely to prevent and detect patient crisis events in advance, so as to facilitate early treatment and rescue.

附图说明Description of drawings

图1是本实用新型的结构示意图。Fig. 1 is the structural representation of the utility model.

图2是本实用新型的部分结构示意图，示意主机的内部结构。Fig. 2 is a partial structure schematic diagram of the utility model, showing the internal structure of the host.

图中：1.袖带、2.主机、3.显示屏、4.连接端口、5.心电图导线、6.体温导线、7.氧饱和度导线、8.贴片、9.测温探头、10.氧饱和度监测夹、11.信号转换模块、12.控制模块、13.储存模块、14.无线传输模块、15.锂电池。In the figure: 1. Cuff, 2. Host, 3. Display, 4. Connection port, 5. ECG wire, 6. Body temperature wire, 7. Oxygen saturation wire, 8. Patch, 9. Temperature probe, 10. Oxygen saturation monitoring clip, 11. Signal conversion module, 12. Control module, 13. Storage module, 14. Wireless transmission module, 15. Lithium battery.

具体实施方式detailed description

下面将结合本实用新型实施例中的附图，对本实用新型实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅仅是本实用新型一部分实施例，而不是全部的实施例。The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example.

如附图1-2所示，围手术期无线心电监测系统，包括袖带1和安装在袖带1上的主机2，其特征在于：所述的主机2上设置有显示屏3、心电图导线5、体温导线6、氧饱和度导线7，在主机2侧壁上设置有连接端口4，并在主机2内设置有信号转换模块11、控制模块12、储存模块13、无线传输模块14、锂电池15，所述的心电图导线5上设置有贴片8，所述的体温导线6穿入袖带1内，并在体温导线6上设置有测温探头9，所述的氧饱和度导线7一端上设置有氧饱和度监测夹10。As shown in accompanying drawing 1-2, the perioperative wireless ECG monitoring system includes acuff 1 and ahost 2 installed on thecuff 1, and is characterized in that: thehost 2 is provided with adisplay screen 3, anelectrocardiogram Wire 5, body temperature wire 6, andoxygen saturation wire 7 are provided with a connection port 4 on the side wall of thehost 2, and asignal conversion module 11, acontrol module 12, astorage module 13, awireless transmission module 14,Lithium battery 15, describedelectrocardiogram wire 5 is provided withpatch 8, described body temperature wire 6 penetrates in thecuff 1, and is provided withtemperature measuring probe 9 on body temperature wire 6, describedoxygen saturation wire 7. One end is provided with an oxygensaturation monitoring clip 10.

优选地，所述的袖带1上设置有魔术扣，使袖带1能够调节大小，将袖带1采用现有的血压计式袖带1，能够根据不同患者的手臂调整袖带1的大小，使袖带1牢牢固定在患者手臂上，进而提高主机2在使用过程中的稳定性。Preferably, thecuff 1 is provided with a magic button, so that thecuff 1 can be adjusted in size, and thecuff 1 adopts the existingsphygmomanometer cuff 1, and the size of thecuff 1 can be adjusted according to the arms of different patients , so that thecuff 1 is firmly fixed on the patient's arm, thereby improving the stability of thehost 2 during use.

优选地，所述的主机2与心电图导线5、体温导线6、氧饱和度导线7活动连接，并将心电图导线5、体温导线6、氧饱和度导线7设置为可从主机2上更换的结构，将心电图导线5、体温导线6、氧饱和度导线7活动采用一次性结构，使患者从入院到手术到出院可以每人只采用一套干净的心电图导线5、体温导线6，大大减低因为监护线重复使用导致的患者交叉感染。Preferably, thehost 2 is movably connected to theelectrocardiogram lead 5, the body temperature lead 6, and theoxygen saturation lead 7, and theelectrocardiogram lead 5, the body temperature lead 6, and theoxygen saturation lead 7 are configured to be replaceable from thehost 2 , theelectrocardiogram lead 5, body temperature lead 6, andoxygen saturation lead 7 are movable in a disposable structure, so that patients can only use one set ofclean electrocardiogram lead 5 and body temperature lead 6 from admission to surgery to discharge, greatly reducing the need for monitoring. Patient cross-infection due to thread reuse.

优选地，所述的连接端口4可与血压计气泵、血氧饱和度监测设备、呼吸机、输液泵、注射泵、除颤仪、CRRT、PICCO中的任意一种或多种设备连接，将主机2与血压计气泵连接，便于对患者进行血压监测，将主机2上的连接端口4与多种监测设备连接，使主机2成为一个具有多种监测功能的设备，使检测设备的线路贴合在患者皮肤上，避免线路悬空后与监测设备连接，不会因线路脱落而导致手术中止，另一方面，主机2将多种监测设备收集到的参数传输到终端内，便于医务人员远程了解到患者生命体征，有利于对患者病情精准预判。Preferably, the connection port 4 can be connected to any one or more devices in the sphygmomanometer air pump, blood oxygen saturation monitoring equipment, ventilator, infusion pump, syringe pump, defibrillator, CRRT, PICCO, Thehost 2 is connected to the air pump of the sphygmomanometer, which is convenient for monitoring the blood pressure of the patient. Connect the connection port 4 on thehost 2 to various monitoring devices, so that thehost 2 becomes a device with multiple monitoring functions, and the lines of the detection equipment are closely connected. On the patient's skin, avoid connecting the line to the monitoring device after the line is suspended in the air, and the operation will not be suspended due to the line falling off. On the other hand, thehost 2 transmits the parameters collected by various monitoring devices to the terminal, which is convenient for medical staff to remotely understand The patient's vital signs are helpful for accurate prediction of the patient's condition.

优选地，所述的控制模块12分别与显示屏3、信号转换模块11、控制模块12、储存模块13、无线传输模块14、锂电池15连接，并将信号转换模块11与心电图导线5、体温导线6、氧饱和度导线7、连接端口4连接，各种监测设备的监测到的信号传输到信号转换模块11内，经过信号转换模块11转换成数字或图形后传输到控制模块12内，转换后的参数显示在显示屏3内、储存在储存模块13内，并经过无线传输模块14传输到与主机2无线连接的终端内，显示屏3内显示的各种参数使患者能够直观的看到各种基本生命体征的变化曲线；传输到终端内的基本生命体征参数，便于医务人员远程进行参数采集和分析，提前预防和发现患者危机事件，便于及早进行治疗和抢救。Preferably, thecontrol module 12 is respectively connected with thedisplay screen 3, thesignal conversion module 11, thecontrol module 12, thestorage module 13, thewireless transmission module 14, and thelithium battery 15, and connects thesignal conversion module 11 with theelectrocardiogram wire 5, body temperature The wire 6, theoxygen saturation wire 7, and the connection port 4 are connected, and the monitored signals of various monitoring equipment are transmitted to thesignal conversion module 11, and then converted into numbers or graphics by thesignal conversion module 11 and then transmitted to thecontrol module 12. The final parameters are displayed in thedisplay screen 3, stored in thestorage module 13, and transmitted to the terminal wirelessly connected with thehost computer 2 through thewireless transmission module 14. The various parameters displayed in thedisplay screen 3 enable the patient to intuitively see The change curve of various basic vital signs; the basic vital sign parameters transmitted to the terminal are convenient for medical staff to collect and analyze parameters remotely, prevent and detect patient crisis events in advance, and facilitate early treatment and rescue.

优选地，所述的主机2通过无线传输模块14可以血压计模型显示屏3、监护仪、手机或电脑任意一种或多种终端连接，并将主机2采集到的监测数据采用无线传输的方式传输到连接的终端内。Preferably, thehost 2 can be connected to any one or more terminals of the sphygmomanometermodel display screen 3, monitor, mobile phone or computer through thewireless transmission module 14, and the monitoring data collected by thehost 2 can be wirelessly transmitted transmitted into the connected terminal.

优选地，所述的无线传输方式2.4g频段通信方式传输，通过无线传输，能够将主机2将收集到的参数传输到终端内，便于医务人员远程了解到患者生命体征，有利于对患者病情精准预判。Preferably, the wireless transmission mode is 2.4g frequency band communication mode transmission. Through wireless transmission, the parameters collected by thehost 2 can be transmitted to the terminal, which is convenient for medical staff to remotely understand the patient's vital signs, and is conducive to accurate diagnosis of the patient's condition. predict.

优选地，所述的锂电池15设置为可从主机2内更换的结构，将锂电池15设置为可更换的结构，能够为主机2的工作提供电能，进一步减少线路的数量。Preferably, thelithium battery 15 is configured as a replaceable structure from thehost 2, and thelithium battery 15 is configured as a replaceable structure, which can provide electric energy for the operation of thehost 2 and further reduce the number of lines.

以上所述仅为本实用新型的较佳实施例而已，并不用以限制本实用新型，凡在本实用新型的精神和原则之内所作的任何修改、等同替换和改进等，均应包含在本实用新型的保护范围之内。The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present utility model shall be included in this utility model. within the scope of protection of utility models.

在本实用新型的描述中，需要理解的是，术语“上”、“下”、“前”、“后”、“左”、“右”、“顶”、“底”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系，仅是为了便于描述本实用新型和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本实用新型的限制。In describing the present utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", The orientation or positional relationship indicated by "outside" is based on the orientation or positional relationship shown in the drawings, which is only for the convenience of describing the utility model and simplifying the description, rather than indicating or implying that the referred device or element must have a specific orientation , are constructed and operated in a specific orientation and therefore cannot be construed as limiting the invention.

本实用新型未涉及部分均与现有技术相同或可采用现有技术加以实现。The parts not involved in the utility model are all the same as the prior art or can be realized by adopting the prior art.

Claims (8)

1. Wireless electrocardio monitoring system of perioperative period includes the sleeve area and installs the host computer on the sleeve area, its characterized in that: the main frame on be provided with display screen, heart electrograph wire, body temperature wire, oxygen saturation wire, be provided with interface on the host computer lateral wall to be provided with signal conversion module, control module, storage module, wireless transmission module, lithium cell in the main frame, the heart electrograph wire on be provided with the paster, the body temperature wire penetrate the cuff, and be provided with temperature probe on the body temperature wire, one of oxygen saturation wire serve and be provided with the oxygen saturation monitoring and press from both sides.

2. The perioperative wireless electrocardiographic monitoring system according to claim 1, wherein: the cuff is provided with a magic buckle, so that the size of the cuff can be adjusted.

3. The perioperative wireless electrocardiographic monitoring system according to claim 1, wherein: the main machine is connected with the electrocardiogram lead, the body temperature lead and the oxygen saturation lead, and the electrocardiogram lead, the body temperature lead and the oxygen saturation lead are arranged into structures which can be replaced from the main machine.

4. The perioperative wireless electrocardiographic monitoring system according to claim 1, wherein: the connection port can be connected with any one or more of a sphygmomanometer air pump, oxyhemoglobin saturation monitoring equipment, a breathing machine, an infusion pump, an injection pump, a defibrillator, a CRRT and a PICCO.

5. The perioperative wireless electrocardiographic monitoring system according to claim 1 or 4, wherein: the control module is respectively connected with the display screen, the signal conversion module, the control module, the storage module, the wireless transmission module and the lithium battery, and the signal conversion module is connected with the electrocardiogram lead, the body temperature lead, the oxygen saturation lead and the connecting port.

6. The perioperative wireless electrocardiographic monitoring system according to claim 5, wherein: the host can be connected with any one or more terminals of a sphygmomanometer model display screen, a monitor, a mobile phone or a computer through the wireless transmission module, and transmits monitoring data acquired by the host into the connected terminals in a wireless transmission mode.

7. The perioperative wireless electrocardiographic monitoring system according to claim 6, wherein: the wireless transmission mode adopts any one of WiFi transmission, 2.4g frequency band communication or Bluetooth transmission.

8. The perioperative wireless electrocardiographic monitoring system according to claim 5, wherein: the lithium battery is arranged into a structure which can be replaced from the main machine.

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