WO2019085171A1 - 智能流量监控装置及系统 - Google Patents
智能流量监控装置及系统 Download PDFInfo
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- WO2019085171A1 WO2019085171A1 PCT/CN2017/116014 CN2017116014W WO2019085171A1 WO 2019085171 A1 WO2019085171 A1 WO 2019085171A1 CN 2017116014 W CN2017116014 W CN 2017116014W WO 2019085171 A1 WO2019085171 A1 WO 2019085171A1
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- Prior art keywords
- base body
- flow
- monitoring device
- intelligent
- microprocessor
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 17
- 239000007788 liquid Substances 0.000 claims abstract description 34
- 238000004891 communication Methods 0.000 claims abstract description 32
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- 230000005540 biological transmission Effects 0.000 claims description 17
- 238000001514 detection method Methods 0.000 claims description 10
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- 238000003745 diagnosis Methods 0.000 abstract description 4
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- 201000011040 acute kidney failure Diseases 0.000 description 3
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- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 3
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- WHXSMMKQMYFTQS-UHFFFAOYSA-N Lithium Chemical compound [Li] WHXSMMKQMYFTQS-UHFFFAOYSA-N 0.000 description 1
- 210000001124 body fluid Anatomy 0.000 description 1
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- 229940044683 chemotherapy drug Drugs 0.000 description 1
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Images
Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01F—MEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
- G01F1/00—Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow
- G01F1/56—Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using electric or magnetic effects
- G01F1/58—Measuring the volume flow or mass flow of fluid or fluent solid material wherein the fluid passes through a meter in a continuous flow by using electric or magnetic effects by electromagnetic flowmeters
Definitions
- the present invention relates to the field of medical device technology, and in particular to an intelligent flow monitoring device and system.
- Embodiments of the present invention provide an intelligent flow monitoring device including a fixed base and a flow detecting module, the fixed base including a base body and a cover plate, wherein the first side of the base body is concavely formed a accommodating groove along the extending direction of the base body, the cover plate is movably fixed on the base body, the cover plate is coverable to the accommodating groove, and is configured to be fixedly received a flow sensor or a conduit for accommodating the slot;
- the flow detection module includes a flow sensor, a microprocessor, and a wireless communication unit, the microprocessor and the wireless communication unit are disposed in the base body, and the wireless communication The unit is electrically connected to the microprocessor, the flow sensor is disposed in the accommodating slot, and configured to detect real-time flow of liquid, the base body is provided with a data transmission port, and the flow sensor passes the The data transmission port is mated to be electrically connected to a microprocessor inside the base body.
- the base body is provided with a mounting hole movably connected to the rotating shaft of the cover plate, and the cover plate is rotatable relative to the base body, so that the cover plate can cover the receiving body
- the groove is fixed, and the flow sensor or the catheter housed in the accommodating groove is fixed.
- the second side of the base body is provided with a plurality of blocks, and one end of the cover plate away from the rotating shaft is provided with a card slot that cooperates with the block, and the cover plate is away from the One end of the rotating shaft is snap-connected to the second side of the base body by the cooperation of the card slot and the block.
- the cover plate is L-shaped, and a plane where the first side is located is perpendicular to a plane where the second side is located.
- the intelligent flow monitoring device further includes a battery, the battery is disposed in the base body, the battery is electrically connected to the microprocessor, and is configured to provide power to the microprocessor.
- the battery is a rechargeable battery
- the base body is embedded with a charging port
- the charging port is electrically connected to the rechargeable battery, and is configured to connect an external power source to the rechargeable battery. Charging.
- the flow sensor is a contact flow sensor
- the contact flow sensor is disposed in the accommodating groove
- the contact flow sensor includes an inflow end and an outflow end
- the inflow end is configured to connect the duct to Receiving the liquid to be detected
- the outflow end is configured to connect the conduit to expel the detected liquid.
- the contact flow sensor further includes a data interface configured to be electrically connected to the microprocessor to send the detected liquid flow data to the microprocessor.
- the base body is provided with a slot, the slot is electrically connected to the data transmission port, and the data interface cooperates with the slot to implement the flow sensor and the microprocessor Electrical connection.
- the flow sensor is a non-contact flow sensor, and the non-contact flow sensor is embedded in the receiving groove.
- the intelligent flow monitoring device further includes an indicator light electrically connected to the microprocessor and configured to display an operating state of the flow detection module and the battery.
- the wireless communication unit is a Bluetooth module, a GPRS module, and a narrowband Internet of Things (NB-IoT) Module, infrared module or WiFi module.
- NB-IoT narrowband Internet of Things
- the base body is provided with a fixing hole configured to fix the intelligent flow monitoring device to other objects by a buckle or a bolt.
- An embodiment of the present invention further provides an intelligent flow monitoring device including a fixed base and a flow detecting module, the fixed base including a base body and a cover plate, wherein the first side of the base body is concavely formed a accommodating groove along the extending direction of the base body, the cover plate is movably connected to the base body, the cover plate covers the accommodating groove, and is configured to be fixedly received a flow sensor or a conduit in the receiving tank;
- the flow detecting module includes a flow sensor, a microprocessor, and a wireless communication unit, the microprocessor and the wireless communication unit are disposed in the base body, the wireless The communication unit is electrically connected to the microprocessor, the flow sensor is disposed in the accommodating slot, and configured to detect real-time flow of the liquid, the base body is provided with a data transmission port, and the flow sensor passes through The data transmission port cooperates to realize electrical connection with the microprocessor inside the base body.
- An embodiment of the present invention further provides an intelligent traffic monitoring system, where the intelligent traffic monitoring system includes a user terminal and the above intelligent traffic monitoring device, and the intelligent traffic monitoring device is communicably connected to the user terminal, and the smart traffic is The monitoring device is configured to monitor real-time traffic data of the liquid to transmit the real-time traffic data to the user terminal for display.
- the present invention has the following beneficial effects:
- the intelligent flow detecting device provided by the invention can detect the liquid flow in real time and send the liquid flow in real time, has a small volume, is smaller than the conventional liquid metering device, and realizes automatic metering and sending, and the medical staff can pass the device.
- Real-time understanding of the amount of urine in each period of the patient, for the disease Diagnosis and treatment can play a positive role.
- FIG. 1 is a first perspective view of an intelligent flow monitoring device provided by the present invention
- FIG. 2 is a second perspective view of an intelligent flow monitoring device provided by the present invention.
- Figure 3 shows a schematic structural view of a cover plate
- Figure 4 is a block diagram showing the structure of the flow detecting module
- FIG. 5 is a schematic diagram showing a third perspective of an intelligent flow monitoring device provided by the present invention.
- FIG. 6 is a fourth perspective view of an intelligent flow monitoring device provided by the present invention.
- Figure 7 shows a schematic view of a flow sensor
- Figure 8 shows a schematic block diagram of an intelligent traffic monitoring system.
- Icon 10-Intelligent flow monitoring device; 100-fixed base; 110-base body; 111-first side; 113-second side; 1131-block; 114-receiving slot; 130-cover; - first end; 132 - second end; 133 - shaft; 134 - card slot; 140 - fixed hole; 200 - flow detection module; 210 - microprocessor; 220 - power supply; 230 - wireless communication unit; 240 - flow Sensor; 241 - inflow end; 242 - outflow end; 243 - data interface; 250 - indicator light; 260 - charging port; 261 - switch button; 20 - intelligent flow monitoring system; 30 - user terminal; 40 - server.
- the terms “set”, “install”, “connected”, and “connected” are to be understood broadly, and may be fixed connections, for example, unless otherwise specifically defined and defined. It can also be a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be directly connected or indirectly connected through an intermediate medium, and can be internal communication between the two elements.
- FIG. 1 is a schematic diagram of a first perspective of the intelligent traffic monitoring device 10 according to the embodiment.
- the intelligent flow monitoring device 10 is configured to detect the flow of liquid in real time, for example, when the intelligent flow monitoring device 10 is applied to the medical field, it can be configured to detect the amount of urine of the intubated patient.
- the intelligent flow monitoring device 10 includes a fixed base 100 and a flow detecting module 200.
- the flow detecting module 200 is disposed on the fixed base 100.
- the fixed base 100 includes a base body 110 and a cover plate 130.
- the cover plate 130 is disposed on the base body 110, and the cover plate 130 is rotatable relative to the base body 110.
- the base body 110 includes a first side surface 111 and a second side surface 113.
- the first side surface 111 and the second side surface 113 are adjacent two sides.
- a receiving groove 114 is formed in the first side surface 111.
- the receiving groove 114 extends in the direction of the base body 110 and is configured to receive the flow sensor 240 or a conduit for transferring liquid.
- the base body 110 has a rectangular parallelepiped shape, and the accommodating groove 114 extends along the length thereof. In other embodiments, the base body 110 may also have a cylindrical shape, and the accommodating groove 114 may be along the height direction thereof. extend.
- the base body 110 is provided with a mounting hole (not shown) configured to connect the cover plate 130.
- the cover plate 130 is an L-shaped cover plate 130. Referring to FIG. 3, the cover plate 130 includes a first end 131 and a second end 132 formed by bending. The first end 131 is provided with a rotating shaft 133 , and the rotating shaft 133 is disposed on the base body 110 .
- the mounting hole, the rotating shaft 133 is mounted on the mounting hole, so that the cover plate 130 can be rotated relative to the mounting hole to cover the receiving groove 114.
- the second end 132 is formed by bending. Covered on the second side 113.
- the second end 132 of the base plate 110 is slidably coupled to the second side 113 of the base body 110.
- the second side 113 of the base body 110 is provided with a plurality of latches 1131, a cover plate.
- the second end 132 of the 130 is provided with a plurality of latching slots 134 for engaging with the latching block 1131.
- the cover panel 130 covers the receiving slot 114
- the latching slot 134 of the second end 132 is engaged with the latching block 1131, thereby making the cover
- the plate 130 is fastened to the base body 110 to fix the flow sensor 240 or the conduit received in the receiving groove 114 to the receiving groove 114.
- FIG. 4 shows a schematic block diagram of the traffic detection module 200.
- the flow detection module 200 includes a microprocessor 210, a power source 220, a wireless communication unit 230, a flow sensor 240, and an indicator light 250.
- the power source 220, the wireless communication unit 230, the flow sensor 240, and the indicator light 250 are all electrically connected to the microprocessor 210.
- the power source 220, the wireless communication unit 230, and the microprocessor 210 are disposed inside the hollow base body 110, and the flow sensor 240 is disposed in the receiving slot 114.
- the power source 220 is configured to be powered by the microprocessor 210.
- the power source 220 is a battery, such as a rechargeable battery.
- the base body 110 is embedded with a charging port 260 for charging.
- Port 260 is coupled to an internal rechargeable battery, and charging port 260 is configured to connect an external power source to charge the rechargeable battery.
- a rechargeable battery can be used with a lithium battery.
- the charging port 260 can be a USB interface, a Micro USB interface or a Type-C interface, etc., but not Limited to this, it can also be the remaining general interface.
- the indicator light 250 is embedded on one side of the base body 110.
- the indicator light 250 is electrically connected to the microprocessor 210, and is configured to indicate the intelligent flow monitoring device by different colors of light or blinking frequency under the control of the microprocessor 210. 10 working status. For example, when the power supply 220 is insufficiently powered, the indicator light 250 displays red light, and when the power supply 220 is seriously insufficient, the indicator light 250 displays a flashing red light.
- the flow sensor 240 is a contact type flow sensor 240 , and the contact type flow sensor 240 is received in the accommodating groove 114 .
- the contact type flow sensor 240 includes an inflow end 241 and an outflow end. 242 and data interface 243, the inflow end 241 is configured to connect a conduit to receive the liquid to be detected, and the outflow end 242 is configured to connect the conduit to expel the detected liquid.
- Data interface 243 is configured to be electrically coupled to microprocessor 210 to transmit detected liquid flow data to microprocessor 210.
- the base body 110 is provided with a data transmission port (not shown), and the data transmission port is electrically connected to the microprocessor 210.
- the data interface 243 of the contact type flow sensor 240 passes through the data transmission port and the base.
- the microprocessor 210 inside the body 110 is electrically connected.
- the base body 110 is provided with a slot, and the data interface 243 of the contact type flow sensor 240 cooperates with the slot to be electrically connected to the microprocessor 210.
- the flow sensor 240 may also be a non-contact flow sensor 240.
- the non-contact flow sensor 240 is embedded in the bottom of the accommodating groove 114.
- the non-contact flow sensor 240 is not in direct contact with the liquid, but rather detects the flow of liquid by contact with the conduit.
- the non-contact flow sensor 240 has a good effect in certain specific fields, such as the medical field, and can greatly improve the safety performance of medical equipment.
- the microprocessor 210 is configured to receive data transmitted by the flow sensor 240 and control the flow sensor 240, the operation of the wireless communication unit 230 and the indicator light 250, and the like.
- the wireless communication unit 230 is electrically coupled to the microprocessor 210 and configured to transmit traffic data to a designated terminal under the control of the microprocessor 210.
- the wireless communication unit 230 may be a Bluetooth module, or may be another wireless communication unit 230, such as a GPRS module, an infrared module, a WiFi module, a narrowband Internet of Things (NB-IoT) module, or the like.
- NB-IoT narrowband Internet of Things
- the base body 110 is further provided with a switch button 261.
- the switch button 261 is electrically connected to the microprocessor 210.
- the switch button 261 is configured to control the startup or shutdown of the flow monitoring intelligent flow monitoring device 10.
- the base body 110 is further provided with a fixing hole 140, and the fixing hole 140 is configured to fix the intelligent flow monitoring device 10.
- the intelligent flow monitoring device 10 can be fixed to an object on a wall surface, a hanging rod or a region by a buckle or a bolt. .
- the intelligent flow monitoring device 10 provided in this embodiment is used for detecting the urine volume of the intubated patient. In other embodiments, it can be applied as long as the traffic can be monitored.
- intelligent flow monitoring can be set.
- Device 10 monitors the liquid.
- the intelligent flow monitoring device 10 can be installed in a hospital or in a home or other care.
- the intelligent flow monitoring device 10 is generally used in the medical field.
- the device can also be monitored by installing the device.
- the intelligent traffic monitoring device 10 in this embodiment can effectively monitor the traffic.
- the microprocessor 210 can further delineate the specific state of the flow (such as conduit blockage, air bubbles in the pipe, and the like by analyzing the flow rate change rule). Pulse, etc.) and monitor.
- This embodiment provides an intelligent traffic monitoring system 20.
- the intelligent traffic monitoring system 20 includes a user terminal 30 and the intelligent traffic monitoring device 10 of the first embodiment.
- the intelligent traffic monitoring device 10 is connected to the user terminal 30 via a network communication, and is configured to transmit traffic data to the user terminal 30 for display.
- the intelligent traffic monitoring system 20 may further include a server 40.
- the server 40 is communicably connected to the plurality of user terminals 30 and the plurality of intelligent traffic monitoring devices 10 through the network, and the server 40 is configured to process data, including but It is not limited to the flow data transmitted by the intelligent traffic monitoring device 10 and the basic information of the user terminal 30 corresponding to the intelligent traffic monitoring device 10.
- User terminal 30 may be, but is not limited to, a smartphone, a tablet, a PDA, and the rest of the smart device.
- the intelligent flow monitoring device 10 can transmit the urine output of the intubated patient to the mobile phone of the medical staff or the patient's family through the server 40, so that the medical staff or the patient's family can be real-time to the patient.
- the server 40 can transmit the urine output of the intubated patient to the mobile phone of the medical staff or the patient's family through the server 40, so that the medical staff or the patient's family can be real-time to the patient.
- urine volume which is beneficial to the patient. Targeted treatment.
- the present invention provides an intelligent flow monitoring device and system configured to detect liquid flow in real time.
- the intelligent flow monitoring device has a fixed base and a flow detecting module.
- the fixed base comprises a base body and a cover plate.
- the base body comprises a receiving groove, and the cover plate is movably connected to the base body, and the cover plate can cover the receiving groove.
- the flow sensor or the conduit is fixedly disposed in the accommodating groove;
- the flow detecting module includes a flow sensor, a microprocessor and a wireless communication unit, the microprocessor and the wireless communication unit are disposed in the base body, the wireless communication unit and the micro processing
- the device is electrically connected, the flow sensor is disposed in the receiving slot, and is configured to detect real-time flow of the liquid, the base body is provided with a data transmission port, and the flow sensor cooperates with the data transmission port to realize the microprocessor electrical property with the internal body of the base body connection.
- the intelligent flow detecting device provided by the invention can detect the liquid flow in real time and send the liquid flow in real time, has a small volume, is smaller than the conventional liquid metering device, and realizes automatic metering and sending, and the medical staff can pass the device. Real-time understanding of the patient's urine volume at each time period can play a positive role in disease diagnosis and treatment.
- the embodiment provides an intelligent flow monitoring device 10 including a fixed base 100 and a flow detection module 200 .
- the fixed base 100 includes a base body 110 and a cover plate 130.
- the base body 110 has a rectangular parallelepiped shape, and a top portion (first side surface 111) is provided with a receiving groove 114, and the receiving groove 114 is disposed along the base.
- the body 110 extends in the longitudinal direction.
- the cover plate 130 is L-shaped, and includes a first end 131 and a second end 132 formed by bending.
- the first end 131 is provided with a rotating shaft 133, and the rotating shaft 133 cooperates with a mounting hole on the base body 110, thereby A rotational connection of the cover plate 130 to the base body 110 is achieved.
- FIG. 1 in a state, when the cover 130 covers the receiving groove 114, the first end 131 of the cover 130 abuts against the first side 111, and at the same time, the cover The second end 132 of the plate 130 abuts against the second side 113.
- the second side 113 of the base body 110 is provided with two blocks 1131.
- the second end 132 of the cover plate 130 is provided with two card slots 134.
- the cover plate 130 is realized by the cooperation of the card block 1131 and the card slot 134.
- the flow sensor 240 or the catheter located in the accommodating groove 114 is firmly fixed in the accommodating groove 114.
- the flow detection module 200 includes a microprocessor 210, a power source 220, a wireless communication unit 230, a flow sensor 240, and an indicator light 250 that are electrically connected to each other.
- the power source 220 is configured to supply power to the microprocessor 210.
- the light of different colors is emitted or the operating state of the intelligent flow monitoring device 10 is indicated by a different blinking frequency
- the wireless communication unit 230 is configured to transmit the traffic data to the terminal.
- the flow sensor 240 in this embodiment is a contact type flow sensor 240, which includes an inflow end 241, an outflow end 242, and a data interface 243.
- the inflow end 241 is configured to connect the conduit to receive the liquid to be detected, and the outflow end 242.
- the device is configured to connect the conduit to discharge the detected liquid.
- the base body 110 is provided with a slot corresponding to the position of the receiving slot 114.
- the slot is electrically connected to the data transmission port, and the data transmission port and the microprocessor in the base body 110 are disposed.
- 210 is electrically connected, and the data interface 243 is matched with the slot to realize the electrical connection between the flow sensor 240 and the microprocessor 210.
- the top of the base body 110 is a first side 111, the front part is a second side 113, and the left side thereof is provided with a charging port 260, and the charging port 260 is
- the power source 220 is electrically connected.
- the right side of the base body 110 is provided with a switch button 261, and the switch button 261 It is electrically connected to the microprocessor 210.
- the top of the base body 110 is provided with a fixing hole 140 through which an external hanging buckle or a bolt or the like can be suspended from the intelligent flow monitoring device 10 .
- the present invention provides an intelligent flow monitoring device that is small in size, low in production cost, and has an automatic metering and transmitting function.
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Abstract
本发明涉及医疗器材技术领域,具体涉及一种智能流量监控装置及系统,智能流量监控装置包括固定基座及流量监控装置,流量监控装置包括流量传感器、微处理器以及无线通信单元,流量传感器配置成检测液体的实时流量,并传输至微处理器,微处理器将实时流量通过无线通信单元实时发送。本发明可以实时检测插导尿管患者的排尿量,并将患者的排尿量通过无线通信单元发送,使医护人员可以实时了解患者的尿量情况,对于患者的诊断和治疗有积极作用。
Description
相关申请的交叉引用
本申请要求于2017年11月06日提交中国专利局的申请号为201721465560X、名称为“智能流量监控装置及系统”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
本发明涉及医疗器材技术领域,具体而言,涉及一种智能流量监控装置及系统。
近年来,国际、国内对重症监护的普查中发现一种隐藏的杀手:急性肾损伤。它是一种临床综合症,具有高发生率、高死亡率的特点。以2015年为例,2015年中国急性肾损伤病例高达300万例,治疗该疾病的总花费超过20亿美元。对于急性肾损伤的诊断及治疗中,需要实时检测患者的尿量,但是目前的尿量检测装置计量水准低下,计尿流量仍停留在手工阶段。因此急需一种能够改善计量水平,自动计量的装置出现。
发明内容
本发明的目的在于提供一种智能流量监控装置,其具有改善上述问题的功
能。
本发明的目的还在于提供一种智能流量监控系统,以改善上述的问题。
本发明的实施例是这样实现的:
本发明的实施例提供了一种智能流量监控装置,其包括固定基座及流量检测模块,所述固定基座包括基座本体以及盖板,所述基座本体的第一侧面内凹形成一沿所述基座本体延伸方向的容置槽,所述盖板活动固定在所述基座本体上,所述盖板可盖合于所述容置槽,且配置成固定容置于所述容置槽的流量传感器或导管;所述流量检测模块包括流量传感器、微处理器以及无线通信单元,所述微处理器和所述无线通信单元设置于所述基座本体内,所述无线通信单元与所述微处理器电性连接,所述流量传感器设置于所述容置槽,且配置成检测液体实时流量,所述基座本体开设有数据传输端口,所述流量传感器通过与所述数据传输端口配合连接以与基座本体内部的微处理器电性连接。
可选的,所述基座本体设置有与所述盖板的转轴活动连接的安装孔,所述盖板可相对于所述基座本体转动,以使所述盖板可盖合所述容置槽,且对容置在所述容置槽内的流量传感器或导管进行固定。
可选的,所述基座本体的第二侧面设置有多个卡块,所述盖板远离所述转轴的一端设置有与所述卡块相配合的卡槽,所述盖板远离所述转轴的一端通过所述卡槽与卡块的配合与所述基座本体的第二侧面卡扣连接。
可选的,所述盖板呈L型,所述第一侧面所在的平面与所述第二侧面所在的平面垂直设置。
可选的,所述智能流量监控装置还包括电池,所述电池设置于所述基座本体内,所述电池与所述微处理器电性连接,且配置成为所述微处理器提供电源。
可选的,所述电池为可充电电池,所述基座本体嵌设有充电端口,所述充电端口与所述可充电电池电性连接,且配置成连接外部电源为所述可充电电池进行充电。
可选的,所述流量传感器为接触式流量传感器,所述接触式流量传感器设置于所述容置槽,所述接触式流量传感器包括流入端和流出端,所述流入端配置成连接导管以接收待检测的液体,所述流出端配置成连接导管以排出检测后的液体。
可选的,所述接触式流量传感器还包括数据接口,所述数据接口配置成与所述微处理器电性连接,以将检测到的液体流量数据发送至所述微处理器。
可选的,所述基座本体设置有插槽,所述插槽与所述数据传输端口电性连接,所述数据接口与所述插槽配合以实现所述流量传感器与所述微处理器电性连接。
可选的,所述流量传感器为非接触式流量传感器,所述非接触式流量传感器嵌设于所述容置槽。
可选的,所述智能流量监控装置还包括指示灯,所述指示灯与所述微处理器电性连接,且配置成显示所述流量检测模块及电池的工作状态。
可选的,所述无线通信单元为蓝牙模块、GPRS模块、窄带物联网(NB-IoT)
模块、红外线模块或WiFi模块。
可选的,所述基座本体设置有固定孔,所述固定孔配置成通过挂扣或螺栓将所述智能流量监控装置固定安装于其他物体上。
本发明的实施例还提供了一种智能流量监控装置,其包括固定基座及流量检测模块,所述固定基座包括基座本体以及盖板,所述基座本体的第一侧面内凹形成一沿所述基座本体延伸方向的容置槽,所述盖板活动连接在所述基座本体上,所述盖板可盖合所述容置槽,且配置成固定容置于所述容置槽内的流量传感器或导管;所述流量检测模块包括流量传感器、微处理器以及无线通信单元,所述微处理器和所述无线通信单元设置于所述基座本体内,所述无线通信单元与所述微处理器电性连接,所述流量传感器设置于所述容置槽,且配置成检测液体实时流量,所述基座本体开设有数据传输端口,所述流量传感器通过与所述数据传输端口配合,实现与所述基座本体内部的微处理器电性连接。
本发明的实施例还提供了一种智能流量监控系统,所述智能流量监控系统包括用户终端以及上述的智能流量监控装置,所述智能流量监控装置与所述用户终端通信连接,所述智能流量监控装置配置成监控液体的实时流量数据,以将所述实时流量数据发送至所述用户终端进行显示。
相对现有技术,本发明具有以下有益效果:
本发明提供的智能流量检测装置可以实时检测液体流量,并将液体流量实时发送出去,体积小,相比传统的液体计量装置体积更小,并且实现了自动计量和发送,医护人员可以通过该装置实时了解患者的每个时段的尿量,对于疾
病诊断和医治能够起到积极作用。
为使本发明的上述目的、特征和优点能更明显易懂,下文特举较佳实施例,并配合所附附图,作详细说明如下。
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。通常在此处附图中描述和示出的本发明实施例的组件可以以各种不同的配置来布置和设计。因此,以下对在附图中提供的本发明的实施例的详细描述并非旨在限制要求保护的本发明的范围,而是仅仅表示本发明的选定实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
图1示出了本发明所提供的一种智能流量监控装置的第一视角示意图;
图2示出了本发明所提供的一种智能流量监控装置的第二视角示意图;
图3示出了盖板的结构示意图;
图4示出了流量检测模块的结构框图;
图5示出了本发明所提供的一种智能流量监控装置的第三视角示意图;
图6示出了本发明所提供的一种智能流量监控装置的第四视角示意图;
图7示出了流量传感器的示意图;
图8示出了智能流量监控系统的示意框图。
图标:10-智能流量监控装置;100-固定基座;110-基座本体;111-第一侧面;113-第二侧面;1131-卡块;114-容置槽;130-盖板;131-第一端;132-第二端;133-转轴;134-卡槽;140-固定孔;200-流量检测模块;210-微处理器;220-电源;230-无线通信单元;240-流量传感器;241-流入端;242-流出端;243-数据接口;250-指示灯;260-充电端口;261-开关按键;20-智能流量监控系统;30-用户终端;40-服务器。
下面将结合本发明实施例中附图,对本发明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发明一部分实施例,而不是全部的实施例。通常在此处附图中描述和示出的本发明实施例的组件可以以各种不同的配置来布置和设计。
因此,以下对在附图中提供的本发明的实施例的详细描述并非旨在限制要求保护的本发明的范围,而是仅仅表示本发明的选定实施例。基于本发明的实施例,本领域技术人员在没有做出创造性劳动的前提下所获得的所有其他实施例,都属于本发明保护的范围。
应注意到:相似的标号和字母在下面的附图中表示类似项,因此,一旦某一项在一个附图中被定义,则在随后的附图中不需要对其进行进一步定义和解释。
在本发明的描述中,还需要说明的是,除非另有明确的规定和限定,术语“设置”、“安装”、“相连”、“连接”应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或一体地连接;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通。
在本发明的描述中,还需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。
术语“水平”、“竖直”、“悬垂”等术语并不表示要求部件绝对水平或悬垂,而是可以稍微倾斜。如“水平”仅仅是指其方向相对“竖直”而言更加水平,并不是表示该结构一定要完全水平,而是可以稍微倾斜。
术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。
在没有更多限制的情况下,由语句“包括一个……”限定的要素,并不排除在包括所述要素的过程、方法、物品或者设备中还存在另外的相同要素。对于本领域的普通技术人员而言,可以具体情况理解上述术语在本发明中的具体含义。
下面结合附图,对本发明的一些实施方式作详细说明。在不冲突的情况下,
下述的实施例及实施例中的特征可以相互组合。
第一实施例
本实施例提供了一种智能流量监控装置10,请参阅图1,图1示出了本实施例提供的智能流量监控装置10的第一视角示意图。
智能流量监控装置10配置成实时检测液体的流量,例如,当智能流量监控装置10应用于医疗领域时,可以配置成检测插管患者的尿量。
智能流量监控装置10包括固定基座100及流量检测模块200,流量检测模块200设置于固定基座100。固定基座100包括基座本体110及盖板130,盖板130设置于基座本体110上,且盖板130可相对基座本体110转动。
请结合参阅图1和图2,基座本体110包括第一侧面111和第二侧面113,第一侧面111和第二侧面113为相邻的两个面。第一侧面111内凹形成一容置槽114,容置槽114沿基座本体110的方向延伸,且配置成容置流量传感器240或传输液体的导管。
本实施例中,基座本体110呈长方体状,该容置槽114沿其长度方向延伸,其他实施例中,基座本体110也可以呈圆柱状,则该容置槽114可以沿其高度方向延伸。
基座本体110设置有安装孔(图未示),配置成连接盖板130。具体地,盖板130为L形盖板130,请参阅图3,盖板130包括第一端131以及弯折形成的第二端132。第一端131设置有转轴133,转轴133与设置于基座本体110
的安装孔,转轴133安装于安装孔,从而盖板130可相对于安装孔转动,从而盖合容置槽114,当盖板130盖合容置槽114时,弯折形成的第二端132盖合于第二侧面113。
盖板130的第二端132可与基座本体110的第二侧面113卡扣连接,例如,于本实施例中,基座本体110的第二侧面113设置有多个卡块1131,盖板130的第二端132开设有多个与卡块1131配合的卡槽134,当盖板130盖合容置槽114时,第二端132的卡槽134与卡块1131卡紧,从而使盖板130与基座本体110卡扣连接,可以将容置于容置槽114内的流量传感器240或导管固定于容置槽114。
请参阅图4,图4示出了流量检测模块200的示意框图。流量检测模块200包括微处理器210、电源220、无线通信单元230、流量传感器240以及指示灯250。
电源220、无线通信单元230、流量传感器240以及指示灯250均与微处理器210电性连接。电源220、无线通信单元230及微处理器210均设置于中空的基座本体110内部,流量传感器240设置于容置槽114。
具体地,电源220配置成为微处理器210供电,于本实施例中,电源220为电池,例如可充电电池,请参阅图5和图6,基座本体110上嵌设有充电端口260,充电端口260与内部的可充电电池连接,充电端口260配置成连接外部电源为可充电电池充电。可充电电池可以选用锂电池。
充电端口260可以是USB接口、Micro USB接口或Type-C接口等,但不
限于此,还可以是其余的通用接口。
指示灯250嵌设于基座本体110的一个侧面上,指示灯250与微处理器210电性连接,配置成在微处理器210的控制下通过不同颜色的光或闪烁频率指示智能流量监控装置10的工作状态。例如,当电源220供电不足时,指示灯250显示红光,当电源220供电严重不足时,指示灯250显示闪烁的红光。
于本实施例中,请参阅图7,流量传感器240为接触式的流量传感器240,接触式的流量传感器240容置于容置槽114内,接触式的流量传感器240包括流入端241、流出端242以及数据接口243,流入端241配置成连接导管以接收待检测的液体,流出端242配置成连接导管以排出检测后的液体。数据接口243配置成与微处理器210电性连接,以将检测到的液体流量数据发送至微处理器210。于本实施例中,基座本体110设置有数据传输端口(图未示),数据传输端口与微处理器210电性连接;接触式的流量传感器240的数据接口243通过数据传输端口与基座本体110内部的微处理器210电性连接。例如,基座本体110上设置有插槽,接触式的流量传感器240的数据接口243与插槽配合以与微处理器210电性连接。
在本发明的其余实施例中,流量传感器240还可以是非接触的流量传感器240,非接触的流量传感器240嵌设于容置槽114的底部,当输送液体的导管安装于容置槽114时,非接触的流量传感器240与液体不直接接触,而是与通过与导管的接触来检测液体流量。非接触的流量传感器240在某些特定的领域,例如医疗领域等有着较好的效果,能够大大提高医疗器材的安全性能。
微处理器210配置成接收流量传感器240传输的数据,控制流量传感器
240、无线通信单元230以及指示灯250的工作等。
无线通信单元230与微处理器210电性连接,配置成在微处理器210的控制下将流量数据发送至一指定的终端。于本实施例中,无线通信单元230可以采用蓝牙模块,也可以是其他的无线通信单元230,例如:GPRS模块,红外线模块,WiFi模块,窄带物联网(NB-IoT)模块等。
于本发明实施例中,基座本体110的还设置有开关按键261,开关按键261与微处理器210电性连接,开关按键261配置成控制流量监控智能流量监控装置10的启动或关闭。
基座本体110上还设置有固定孔140,固定孔140配置成固定智能流量监控装置10,例如,可以通过挂扣或螺栓将智能流量监控装置10固定于墙面、挂杆或区域的物体上。
这里需要说明的是,本实施例提供的智能流量监控装置10用于检测插管患者的尿量,于其他实施例中,只要能够监控流量的场景下,均可适用。
比如:医疗导管、输液管的流量监控,患者排出的体液、输液治疗的液体(如化疗药物)、便携式给药设备(如输液泵)输出的液体等,这些场景中,均可以设置智能流量监控装置10对该液体进行监控。
其可以在医院安装使用,也可以存在于家庭或其它的护理中。该智能流量监控装置10一般应用于医疗领域中,当然了,其他领域中,比如生物领域、化学领域中,需要对溶液的流量进行监控时,也可以通过安装该装置实现监控。
通过该方式,使得操作智能化,可以提高质量管理、降低医护人员劳动强度及成本。
本实施例中的智能流量监控装置10可以对流量进行有效的监控,同时,微处理器210通过对流量变化规律的分析,可以进一步推导出流动的特定状态(如导管阻塞、管内有气泡、以及脉动等)并进行监控。
第二实施例
本实施例提供了一种智能流量监控系统20,请参阅图8,智能流量监控系统20包括用户终端30以及第一实施例的智能流量监控装置10。
智能流量监控装置10与用户终端30通过网络通信连接,配置成将流量数据发送至用户终端30进行显示。
于本发明的其余实施例中,智能流量监控系统20还可以包括服务器40,服务器40通过网络与多个用户终端30和多个智能流量监控装置10通信连接,服务器40配置成处理数据,包括但不限于:智能流量监控装置10传输的流量数据与智能流量监控装置10对应的用户终端30的基本信息等。
用户终端30可以是,但不限于是智能手机、平板电脑、PDA以及其余的智能设备。
例如,当智能流量监控装置10用于医疗领域时,智能流量监控装置10可以将插管患者的排尿量通过服务器40发送至医护人员或患者家属的手机,使医护人员或患者家属对患者实时的尿量有一个比较直观的认识,有利于对患
者进行针对性的治疗。
综上,本发明提供了一种智能流量监控装置及系统,配置成实时检测液体流量。智能流量监控装置固定基座及流量检测模块,固定基座包括基座本体以及盖板,基座本体包括容置槽,盖板活动连接在基座本体上,盖板可盖合容置槽用以固定容置于容置槽内的流量传感器或导管;流量检测模块包括流量传感器、微处理器以及无线通信单元,微处理器和无线通信单元设置于基座本体内,无线通信单元与微处理器电性连接,流量传感器设置于容置槽,且配置成检测液体实时流量,基座本体开设有数据传输端口,流量传感器与数据传输端口配合,实现与基座本体内部的微处理器电性连接。本发明提供的智能流量检测装置可以实时检测液体流量,并将液体流量实时发送出去,体积小,相比传统的液体计量装置体积更小,并且实现了自动计量和发送,医护人员可以通过该装置实时了解患者的每个时段的尿量,对于疾病诊断,医治能够起到积极作用。
附图实施例:
请参考图1-图7,本实施例提供了一种智能流量监控装置10,其包括固定基座100和流量检测模块200。
结合图1和图2,固定基座100包括基座本体110和盖板130,基座本体110呈长方体,其顶部(第一侧面111)设置有容置槽114,容置槽114沿基座本体110的长度方向延伸。
结合图3,盖板130呈L型,其包括第一端131和弯折形成的第二端132,第一端131设置有转轴133,转轴133与基座本体110上的安装孔配合,从而
实现盖板130与基座本体110的转动连接。
结合图1、图2和图3,在一种状态下,当盖板130盖合容置槽114,此时,盖板130的第一端131贴靠在第一侧面111上,同时,盖板130的第二端132贴靠在第二侧面113上。基座本体110的第二侧面113上设置有两个卡块1131,盖板130的第二端132上设置有两个卡槽134,通过卡块1131和卡槽134的配合,实现盖板130与基座本体110的相对固定,同时,其将位于容置槽114内的流量传感器240或导管牢牢固定在容置槽114内。
结合图4,流量检测模块200包括微处理器210、电源220、无线通信单元230、流量传感器240和指示灯250,其相互电性连接,电源220配置成对微处理器210供电,指示灯250发出不同颜色的光或通过不同的闪烁频率指示智能流量监控装置10的工作状态,无线通信单元230配置成将流量数据发送至终端。
结合图7,本实施例中流量传感器240为接触式的流量传感器240,其包括流入端241、流出端242和数据接口243,流入端241配置成连接导管以接收待检测的液体,流出端242配置成连接导管以排出检测后的液体,基座本体110对应容置槽114的位置设置有插槽,插槽与数据传输端口电性连接,数据传输端口与基座本体110内的微处理器210电性连接,数据接口243与插槽配合,实现流量传感器240与微处理器210电性连接。
结合图5和图6,以图2中的相对位置作介绍,基座本体110的顶部为第一侧面111,前部为第二侧面113,其左侧设置有充电端口260,充电端口260与电源220电性连接。基座本体110的右侧设置有开关按键261,开关按键261
与微处理器210电性连接。
基座本体110的顶部设置有固定孔140,外部的挂扣或螺栓等可以通过该固定孔140将智能流量监控装置10进行挂设。
以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
综上所述,本发明提供了一种智能流量监控装置,其体积小,生产成本低,具有自动计量和发送的功能。
Claims (15)
- 一种智能流量监控装置,其特征在于,所述智能流量监控装置包括固定基座及流量检测模块,所述固定基座包括基座本体以及盖板,所述基座本体的第一侧面内凹形成一沿所述基座本体延伸方向的容置槽,所述盖板活动固定在所述基座本体上,所述盖板可盖合于所述容置槽,且配置成固定容置于所述容置槽的流量传感器或导管;所述流量检测模块包括流量传感器、微处理器以及无线通信单元,所述微处理器和所述无线通信单元设置于所述基座本体内,所述无线通信单元与所述微处理器电性连接,所述流量传感器设置于所述容置槽,且配置成检测液体实时流量,所述基座本体开设有数据传输端口,所述流量传感器通过与所述数据传输端口配合连接以与基座本体内部的微处理器电性连接。
- 如权利要求1所述的智能流量监控装置,其特征在于,所述基座本体设置有与所述盖板的转轴活动连接的安装孔,所述盖板可相对于所述基座本体转动,以使所述盖板可盖合所述容置槽,且对容置在所述容置槽内的流量传感器或导管进行固定。
- 如权利要求2所述的智能流量监控装置,其特征在于,所述基座本体的第二侧面设置有多个卡块,所述盖板远离所述转轴的一端设置有与所述卡块相配合的卡槽,所述盖板远离所述转轴的一端通过所述卡槽与卡块的配合与所述基座本体的第二侧面卡扣连接。
- 如权利要求3所述的智能流量监控装置,其特征在于,所述盖板呈L型,所述第一侧面所在的平面与所述第二侧面所在的平面垂直设置。
- 如权利要求1-4任一项所述的智能流量监控装置,其特征在于,所述智能流量监控装置还包括电池,所述电池设置于所述基座本体内,所述电池与所述微处理器电性连接,且配置成为所述微处理器提供电源。
- 如权利要求5所述的智能流量监控装置,其特征在于,所述电池为可充电电池,所述基座本体嵌设有充电端口,所述充电端口与所述可充电电池电性连接,且配置成连接外部电源为所述可充电电池进行充电。
- 如权利要求1-6任一项所述的智能流量监控装置,其特征在于,所述流量传感器为接触式流量传感器,所述接触式流量传感器设置于所述容置槽,所述接触式流量传感器包括流入端和流出端,所述流入端配置成连接导管以接收待检测的液体,所述流出端配置成连接导管以排出检测后的液体。
- 如权利要求7所述的智能流量监控装置,其特征在于,所述接触式流量传感器还包括数据接口,所述数据接口配置成与所述微处理器电性连接,以将检测到的液体流量数据发送至所述微处理器。
- 如权利要求8所述的智能流量监控装置,其特征在于,所述基座本体设置有插槽,所述插槽与所述数据传输端口电性连接,所述数据接口与所述插槽配合以实现所述流量传感器与所述微处理器电性连接。
- 如权利要求1-6任一项所述的智能流量监控装置,其特征在于,所述流量传感器为非接触式流量传感器,所述非接触式流量传感器嵌设于所述容置槽。
- 如权利要求1-10任一项所述的智能流量监控装置,其特征在于,所 述智能流量监控装置还包括指示灯,所述指示灯与所述微处理器电性连接,且配置成显示所述流量检测模块及电池的工作状态。
- 如权利要求1-11任一项所述的智能流量监控装置,其特征在于,所述无线通信单元为蓝牙模块、GPRS模块、窄带物联网(NB-IoT)模块、红外线模块或WiFi模块。
- 如权利要求1-12任一项所述的智能流量监控装置,其特征在于,所述基座本体设置有固定孔,所述固定孔配置成通过挂扣或螺栓将所述智能流量监控装置固定安装于其他物体上。
- 一种智能流量监控装置,其特征在于,所述智能流量监控装置包括固定基座及流量检测模块,所述固定基座包括基座本体以及盖板,所述基座本体的第一侧面内凹形成一沿所述基座本体延伸方向的容置槽,所述盖板活动连接在所述基座本体上,所述盖板可盖合所述容置槽,且配置成固定容置于所述容置槽内的流量传感器或导管;所述流量检测模块包括流量传感器、微处理器以及无线通信单元,所述微处理器和所述无线通信单元设置于所述基座本体内,所述无线通信单元与所述微处理器电性连接,所述流量传感器设置于所述容置槽,且配置成检测液体实时流量,所述基座本体开设有数据传输端口,所述流量传感器通过与所述数据传输端口配合,实现与所述基座本体内部的微处理器电性连接。
- 一种智能流量监控系统,其特征在于,所述智能流量监控系统包括用户终端以及如权利要求1-14任意一项所述的智能流量监控装置,所述智能流量监控装置与所述用户终端通信连接,所述智能流量监控装置配置成监控液体 的实时流量数据,以将所述实时流量数据发送至所述用户终端进行显示。
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CN206002165U (zh) * | 2016-08-31 | 2017-03-08 | 王炜煜 | 一种流量检测装置 |
CN106620904A (zh) * | 2016-12-21 | 2017-05-10 | 美德远健(北京)医疗系统科技有限公司 | 全自动智能导流装置 |
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CN2539959Y (zh) * | 2002-04-15 | 2003-03-12 | 梁正雄 | 液体流量检测装置 |
CN202041238U (zh) * | 2011-03-24 | 2011-11-16 | 张天洪 | 流量检测装置 |
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