WO2018023503A1

WO2018023503A1 - Control device based on airway humidification pump

Info

Publication number: WO2018023503A1
Application number: PCT/CN2016/093133
Authority: WO
Inventors: 刘芳
Original assignee: 刘芳
Priority date: 2016-08-03
Filing date: 2016-08-03
Publication date: 2018-02-08

Abstract

A control device based on an airway humidification pump comprises an airway humidification pump (101), a controller (102), a display device (103), and a power supply circuit (104). The airway humidification pump (101) is provided with a drive control device; the controller (102) is respectively connected to a drive control device and a display apparatus (103); and the power supply circuit (104) is respectively connected to the drive control device, the controller (102), and the display apparatus (103). The technical solution can accurately control the titration time and flow rate of a medicinal solution, improving the titration accuracy of the airway humidification pump (101).

Description

一种基于气道湿化泵的控制装置Control device based on airway humidification pump

技术领域Technical field

本实用新型涉及医学设备技术领域，尤其涉及一种数据采集器。The utility model relates to the technical field of medical equipment, in particular to a data collector.

背景技术Background technique

气管切开患者的上呼吸道被导管所代替，破坏了呼吸道的正常解剖结构和生理功能，上呼吸道的自主加温、湿化、过滤和咳嗽功能丧失，防御能力减弱，吸入气体必须全部由下呼吸道来加温和湿化；若气道湿化不够，易造成下呼吸道失水，气道干燥，纤毛运动抑制或丧失，分泌物变黏稠，易形成痰痂或血痂，导致排痰不畅、气管堵塞、缺氧，引发肺不张和继发下呼吸道感染，严重时甚至危及生命。The upper airway of the tracheotomy is replaced by a catheter, which destroys the normal anatomy and physiological function of the respiratory tract. The autonomous warming, humidification, filtration and cough function of the upper respiratory tract are lost, the defense ability is weakened, and the inhaled gas must be completely from the lower respiratory tract. To warm and humidify; if the airway is not humidified enough, it is easy to cause the lower respiratory tract to lose water, the airway is dry, the ciliary movement is inhibited or lost, the secretion becomes sticky, and it is easy to form sputum or blood stasis, resulting in poor drainage. Tracheal obstruction, hypoxia, causing atelectasis and secondary lower respiratory tract infections, and even life-threatening in severe cases.

目前，气道湿化泵主要是依靠气囊充气来调节滴液速度，实现长时间持续湿化。但是，气囊型湿化泵依靠人工充气来控制湿化液流速，这对医护人员的操作要求极高。否则会产生输液误差，而且在输液渐渐减少时，由于储液囊的压强变化，会导致湿化液流速改变，不利于持续稳定的输出湿化液。At present, the airway humidification pump mainly relies on airbag inflation to adjust the drip speed to achieve long-term continuous humidification. However, the airbag type humidification pump relies on manual inflation to control the humidification fluid flow rate, which is extremely demanding for the medical personnel. Otherwise, an infusion error will occur, and when the infusion is gradually reduced, the pressure of the reservoir will change due to the pressure change of the reservoir, which is not conducive to the continuous and stable output of the humidification solution.

发明内容Summary of the invention

本实用新型所要解决的技术问题是，提供一种基于气道湿化泵的控制装置，能准确控制药水的滴定时间和流速，提高气道湿化泵的滴定准确性。The technical problem to be solved by the utility model is to provide a control device based on an airway humidification pump, which can accurately control the titration time and flow rate of the syrup, and improve the titration accuracy of the airway humidification pump.

为解决以上技术问题，本实用新型实施例提供一种基于气道湿化泵的控制装置，包括：气道湿化泵、控制器、显示设备和电源电路；In order to solve the above technical problem, an embodiment of the present invention provides a control device based on an airway humidification pump, comprising: an airway humidification pump, a controller, a display device, and a power supply circuit;

其中，所述气道湿化泵设置有驱动控制装置；Wherein the airway humidification pump is provided with a drive control device;

所述控制器分别与所述驱动控制装置、显示设备连接；The controller is respectively connected to the driving control device and the display device;

所述电源电路分别与所述驱动控制装置、控制器、显示设备连接。The power supply circuit is respectively connected to the drive control device, the controller, and the display device.

进一步的，所述气道湿化泵还包括：活塞盖、药水池、可移动活塞、微量滴定泵和药水出口； Further, the airway humidification pump further comprises: a piston cover, a medicine pool, a movable piston, a micro titration pump and a medicine water outlet;

其中，所述可移动活塞设置在所述药水池中；Wherein the movable piston is disposed in the medicine pool;

所述药水池的一端与所述活塞盖连接，所述药水池的另一端通过药水通道与所述微量滴定泵连接；One end of the medicine pool is connected to the piston cover, and the other end of the medicine pool is connected to the micro titration pump through a syrup channel;

所述微量滴定泵通过所述药水通道分别与所述药水出口、所述驱动控制装置连接；The microtiter pump is respectively connected to the medicinal water outlet and the driving control device through the syrup channel;

进一步的，所述驱动控制装置包括：电动马达和控制***；Further, the drive control device includes: an electric motor and a control system;

所述电动马达通过所述药水通道与所述微量滴定泵连接；The electric motor is connected to the micro titration pump through the syrup channel;

所述控制***与所述电动马达连接。The control system is coupled to the electric motor.

进一步的，所述气道湿化泵还包括：药水注入口及开关；Further, the airway humidification pump further includes: a medicine injection port and a switch;

所述药水注入口及开关与所述药水通道连接。The syrup injection port and the switch are connected to the syrup channel.

进一步的，所述电源电路包括：可充电池和电源开关；Further, the power circuit includes: a rechargeable battery and a power switch;

所述电源电路通过所述电源开关分别与所述驱动控制装置、控制器、显示设备连接。The power circuit is respectively connected to the drive control device, the controller, and the display device through the power switch.

进一步的，所述显示设备为液晶显示屏或触摸显示屏。Further, the display device is a liquid crystal display or a touch display.

可见，本实用新型实施例提供的基于气道湿化泵的控制装置，包括气道湿化泵、控制器、显示设备和电源电路；其中，气道湿化泵设置有驱动控制装置；控制器分别与驱动控制装置、显示设备连接；电源电路分别与驱动控制装置、控制器、显示设备连接。相比于现有技术需要人工充气操作来调节滴定速度，本实用新型通过在气道湿化泵中设置驱动控制装置，用户只需通过显示设备输入相应的滴定速度，控制器就会向该驱动控制装置发出相应的控制指令，以使驱动控制装置控制气道湿化泵以输入的滴定速度进行滴定，实现准确控制药水的滴定时间和流速，提高气道湿化泵的滴定准确性。It can be seen that the control device based on the airway humidification pump provided by the embodiment of the present invention comprises an airway humidification pump, a controller, a display device and a power supply circuit; wherein the airway humidification pump is provided with a drive control device; They are respectively connected to the drive control device and the display device; the power supply circuit is respectively connected to the drive control device, the controller, and the display device. Compared with the prior art, the manual inflation operation is required to adjust the titration speed. By setting the drive control device in the airway humidification pump, the user only needs to input the corresponding titration speed through the display device, and the controller will drive to the drive. The control device issues a corresponding control command to enable the drive control device to control the airway humidification pump to titrate at the input titration speed, to accurately control the titration time and flow rate of the syrup, and to improve the titration accuracy of the airway humidification pump.

附图说明DRAWINGS

图1是本实用新型提供的基于气道湿化泵的控制装置的一种实施例的结构示意图；1 is a structure of an embodiment of a control device for an airway humidification pump provided by the present invention schematic diagram;

图2是本实用新型提供的气道湿化泵的一种实施例的结构示意图。2 is a schematic structural view of an embodiment of an airway humidification pump provided by the present invention.

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。The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the drawings in the embodiments of the present invention.

参见图1，是本实用新型提供的基于气道湿化泵的控制装置的一种实施例的结构示意图。该控制装置包括：气道湿化泵101、控制器102、显示设备103和电源电路104。其中，气道湿化泵101设置有驱动控制装置。控制器102分别与驱动控制装置、显示设备103连接。电源电路104分别与驱动控制装置、控制器102、显示设备103连接。Referring to FIG. 1 , it is a schematic structural view of an embodiment of a control device based on an airway humidification pump provided by the present invention. The control device includes an airway humidification pump 101, a controller 102, a display device 103, and a power supply circuit 104. Among them, the airway humidification pump 101 is provided with a drive control device. The controller 102 is connected to the drive control device and the display device 103, respectively. The power supply circuit 104 is connected to the drive control device, the controller 102, and the display device 103, respectively.

参见图2，图2是本实用新型提供的气道湿化泵的一种实施例的结构示意图。如图2所示，该气道湿化泵101还包括：活塞盖1、药水池2、可移动活塞3、微量滴定泵6、药水出口7和驱动控制装置。驱动控制装置包括：电动马达8和控制***9。Referring to FIG. 2, FIG. 2 is a schematic structural view of an embodiment of an airway humidification pump provided by the present invention. As shown in FIG. 2, the airway humidification pump 101 further includes a piston cover 1, a medicinal pool 2, a movable piston 3, a micro-titration pump 6, a medicinal water outlet 7, and a drive control device. The drive control device includes an electric motor 8 and a control system 9.

其中，可移动活塞3设置在药水池2中。药水池2的一端与活塞盖1连接，药水池2的另一端通过药水通道5与微量滴定泵6连接。微量滴定泵6通过药水通道5分别与药水出口7、驱动控制装置连接。驱动控制装置用于控制微量滴定泵6以预设的滴定速度执行滴定，以使可移动活塞3随着药水池2中药水量的减少，向药水池2的另一端移动。电动马达8通过药水通道5与微量滴定泵6连接。控制***9与电动马达8连接。控制***可以但不限于为控制电动马达8的电路板及***。Among them, the movable piston 3 is disposed in the medicinal pool 2. One end of the medicinal pool 2 is connected to the piston cap 1, and the other end of the medicinal pool 2 is connected to the microtiter pump 6 through the syrup channel 5. The microtiter pump 6 is connected to the medicinal water outlet 7 and the drive control device via the syrup channel 5, respectively. The drive control means is for controlling the micro-titration pump 6 to perform titration at a preset titration speed so that the movable piston 3 moves toward the other end of the medicated pool 2 as the amount of syrup in the medicated water tank 2 decreases. The electric motor 8 is connected to the microtiter pump 6 via a syrup channel 5. The control system 9 is connected to the electric motor 8. The control system can be, but is not limited to, a circuit board and system that controls the electric motor 8.

在本实施例中，气道湿化泵还包括：药水注入口及开关4。药水注入口及开关4与药水通道连接，用于开启气道湿化泵，以及向药水池注入药水。In this embodiment, the airway humidification pump further includes: a syrup injection port and a switch 4. The syrup injection port and the switch 4 are connected to the syrup channel for opening the airway humidification pump and injecting the syrup into the medicinal pool.

作为本实施例的一种举例，活塞盖1可以但不限于为多孔活塞盖。多孔活塞盖可以防止注药水过多时，可移动活塞3跑出药水池。另外，注入药水时也可以取下多孔活塞盖和可移动活塞3后，往药水池2进行注药，再把可移动活塞3压向药水池2，使得药水固定在药水池2的右边。As an example of the present embodiment, the piston cover 1 may be, but not limited to, a porous piston cover. The porous piston cap prevents the movable piston 3 from running out of the medicine tank when the injection water is excessive. In addition, when injecting the potion After the porous piston cap and the movable piston 3 can be removed, the medicine tank 2 is injected, and the movable piston 3 is pressed against the medicine tank 2 so that the medicine is fixed to the right side of the medicine tank 2.

在本实施例中，电源电路104包括：可充电池和电源开关。电源电路104通过电源开关分别与驱动控制装置、控制器102、显示设备103连接。In this embodiment, the power supply circuit 104 includes a rechargeable battery and a power switch. The power supply circuit 104 is connected to the drive control device, the controller 102, and the display device 103 via power switches, respectively.

在本实施例中，控制器102可以但不限于为中央处理器或其他类型控制器。In the present embodiment, controller 102 can be, but is not limited to, a central processor or other type of controller.

在本实施例中，显示设备103可以但不限于为液晶显示屏或触摸显示屏。In the present embodiment, the display device 103 can be, but is not limited to, a liquid crystal display or a touch display.

在本实施例中，控制器102还用于在滴定过程中，根据药水池2中剩余的药水量和剩余滴定时间，计算获得滴定调整速度，并向驱动控制装置发送命令，以调整气道湿化泵的滴定速度。In this embodiment, the controller 102 is further configured to calculate the titration adjustment speed according to the remaining amount of the medicine in the medicine pool 2 and the remaining titration time during the titration, and send a command to the drive control device to adjust the airway wet. The titration rate of the pump.

在本实施例中，控制器102还用于显示设备103在第一预设时间内没有获取到用户输入的滴定数据时，控制本装置进入待机状态。控制器102还用于在进入待机状态后，在第二预设时间内没有获取到用户的操作时，自动关机。In this embodiment, the controller 102 is further configured to control the device to enter a standby state when the display device 103 does not acquire the titration data input by the user within the first preset time. The controller 102 is further configured to automatically shut down when the operation of the user is not acquired within the second preset time after entering the standby state.

可见，本实用新型实施例提供的基于气道湿化泵的控制装置，包括气道湿化泵101、控制器102、显示设备103和电源电路104；其中，气道湿化泵101设置有驱动控制装置；控制器102分别与驱动控制装置、显示设备103连接；电源电路104分别与驱动控制装置、控制器102、显示设备103连接。相比于现有技术需要人工充气操作来调节滴定速度，本实用新型通过在气道湿化泵101中设置驱动控制装置，用户只需通过显示设备103输入相应的滴定速度，控制器102就会向该驱动控制装置发出相应的控制指令，以使驱动控制装置控制气道湿化泵101以输入的滴定速度进行滴定，实现准确控制药水的滴定时间和流速，提高气道湿化泵的滴定准确性。It can be seen that the control device based on the airway humidification pump provided by the embodiment of the present invention comprises an airway humidification pump 101, a controller 102, a display device 103 and a power supply circuit 104; wherein the airway humidification pump 101 is provided with a drive The controller 102 is connected to the drive control device and the display device 103, respectively; the power supply circuit 104 is connected to the drive control device, the controller 102, and the display device 103, respectively. Compared with the prior art, the manual inflation operation is required to adjust the titration speed. By setting the drive control device in the airway humidification pump 101, the user only needs to input the corresponding titration speed through the display device 103, and the controller 102 will Sending corresponding control commands to the drive control device, so that the drive control device controls the airway humidification pump 101 to titrate at the input titration speed, thereby accurately controlling the titration time and flow rate of the syrup, and improving the titration of the airway humidification pump. Sex.

以上所述是本实用新型的优选实施方式，应当指出，对于本技术领域的普通技术人员来说，在不脱离本实用新型原理的前提下，还可以做出若干改进和润饰，这些改进和润饰也视为本实用新型的保护范围。 The above is a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make several improvements and retouchings without departing from the principles of the present invention. It is also considered as the scope of protection of the present invention.

Claims

一种基于气道湿化泵的控制装置，其特征在于，包括：气道湿化泵、控制器、显示设备和电源电路；A control device based on an airway humidification pump, comprising: an airway humidification pump, a controller, a display device and a power supply circuit;

其中，所述气道湿化泵设置有驱动控制装置；Wherein the airway humidification pump is provided with a drive control device;

所述控制器分别与所述驱动控制装置、显示设备连接；The controller is respectively connected to the driving control device and the display device;

所述电源电路分别与所述驱动控制装置、控制器、显示设备连接。The power supply circuit is respectively connected to the drive control device, the controller, and the display device.
根据权利要求1所述的基于气道湿化泵的控制装置，其特征在于，所述气道湿化泵还包括：活塞盖、药水池、可移动活塞、微量滴定泵和药水出口；The control device for an airway humidification pump according to claim 1, wherein the airway humidification pump further comprises: a piston cover, a medicine pool, a movable piston, a micro titration pump, and a syrup outlet;

其中，所述可移动活塞设置在所述药水池中；Wherein the movable piston is disposed in the medicine pool;

所述药水池的一端与所述活塞盖连接，所述药水池的另一端通过药水通道与所述微量滴定泵连接；One end of the medicine pool is connected to the piston cover, and the other end of the medicine pool is connected to the micro titration pump through a syrup channel;

所述微量滴定泵通过所述药水通道分别与所述药水出口、所述驱动控制装置连接；The microtiter pump is respectively connected to the medicinal water outlet and the driving control device through the syrup channel;
根据权利要求2所述的基于气道湿化泵的控制装置，其特征在于，所述驱动控制装置包括：电动马达和控制***；The airway humidification pump-based control device according to claim 2, wherein the drive control device comprises: an electric motor and a control system;

所述电动马达通过所述药水通道与所述微量滴定泵连接；The electric motor is connected to the micro titration pump through the syrup channel;

所述控制***与所述电动马达连接。The control system is coupled to the electric motor.
根据权利要求2所述的基于气道湿化泵的控制装置，其特征在于，所述气道湿化泵还包括：药水注入口及开关；The airway humidification pump-based control device according to claim 2, wherein the airway humidification pump further comprises: a syrup injection port and a switch;

所述药水注入口及开关与所述药水通道连接。The syrup injection port and the switch are connected to the syrup channel.
根据权利要求1至4任一项所述的基于气道湿化泵的控制装置，其特征在于，所述电源电路包括：可充电池和电源开关；The control device for an airway humidification pump according to any one of claims 1 to 4, characterized in that The power circuit includes: a rechargeable battery and a power switch;

所述电源电路通过所述电源开关分别与所述驱动控制装置、控制器、显示设备连接。The power circuit is respectively connected to the drive control device, the controller, and the display device through the power switch.
根据权利要求1至4任一项所述的基于气道湿化泵的控制装置，其特征在于，所述显示设备为液晶显示屏或触摸显示屏。 The airway humidification pump-based control device according to any one of claims 1 to 4, wherein the display device is a liquid crystal display or a touch display.