CN203861681U - Infusion pump monitoring system - Google Patents

Abstract

The utility model discloses an infusion pump monitoring system. According to the infusion pump monitoring system, each infusion pump comprises at least one infusion pump terminal and a wireless AP, and each infusion pump is connected with a monitoring server through the corresponding wireless AP and a local area network. Each infusion pump terminal comprises at least one human body vital sign sensor, an FPGA, an ARM processor, a WIFI communication module and an LCD, wherein the human body vital sign sensors are connected with the FPGA, the FPGA is connected with the APM processor, and the WIFI communication module and the LCD are connected with the ARM processor. According to the infusion pump monitoring system, human body vital sign data acquired through the sensors can be transmitted to the remote monitoring server, and remote and centralized monitoring of the multiple infusion pumps is achieved; due to the fact that the embedded processor based on the FPGAs and the ARMs are adopted, compared with a PC, the infusion pump monitoring system has the advantages that the cost is low, the real-time performance is high, the stability is high, the size is small, and power consumption is low; in addition, the data processing capacity is high, and various interfaces are available.

Description

Infusion pump monitoring system

Technical field

This utility model relates to medical instruments field, particularly relates to a kind of infusion pump monitoring system.

Background technology

Electronic type analgesia pump (infusion pump), to alleviating the severe pain of postoperative patient and other pain-suffered patients, promotes quality of the life, plays more and more important effect, thereby is widely used clinically.Abroad to the development of intelligent infusion pump early, as the countries such as Japan, the U.S. and Germany just develop infusion pump the end of the eighties in last century.Now popular on market is external product mostly, various and the better performances of type, as the OT-601 type infusion pump of Japanese JMS Co., Ltd. (control accuracy is 10%) and SP-500 type syringe pump, the Gemini PC-2TX of USA I/M ED company type infusion pump can realize four tunnels and control, the Multifuse type, Perfusor Compact type (control accuracy can reach 2%), Infusomat P type and the Infusomat fmS type that also have German Bei Lang (B.BRAUN) company, model is numerous, and also there is corresponding product in Israel.Domestic in the begin one's study development of infusion pump of the mid-90, start late.Although also there are some domestic infusion pump on market, from all things considered, domestic infusion pump kind is less, and performance is also further improved.

Although existing electronic type infusion pump can be realized collection and the sensing of basic human body vital sign data, cannot realize concentrated monitoring and management to a plurality of infusion pumps.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, a kind of infusion pump monitoring system of a plurality of infusion pumps being carried out to remote centralized monitoring that realizes is provided, infusion pump has the features such as real-time performance is good, stable and reliable for performance, low in energy consumption, volume is little, data-handling capacity is strong, and the basic human body vital sign data that sensor acquisition can be arrived are passed through WIFI Internet Transmission to remote monitoring server.

The purpose of this utility model is achieved through the following technical solutions: infusion pump monitoring system, it comprises at least one infusion pump unit and monitor server, each infusion pump unit comprises at least one infusion pump terminal and a wireless aps, and each infusion pump terminal is connected with monitor server with LAN by wireless aps respectively.

Described infusion pump terminal comprises at least one human body vital sign sensor, on-site programmable gate array FPGA, arm processor, WIFI communication module and LCD display, each human body vital sign sensors is connected with on-site programmable gate array FPGA by sensor interface circuitry respectively, on-site programmable gate array FPGA is connected with arm processor, and WIFI communication module is connected with arm processor respectively with LCD display.

Described human body vital sign sensor comprises pressure transducer, refers to temperature sensor, any one or multiple combination in pulse transducer, body temperature trans and blood oxygen transducer.

Described sensor interface circuitry comprises I2C, SPI or RS232 interface circuit.

Described arm processor adopts the ARM9 S36410 processor of low-power consumption.

The beneficial effects of the utility model are:

(1) the basic human body vital sign data that sensor acquisition can be arrived to remote monitoring server, realize the remote centralized monitoring to a plurality of infusion pumps by WIFI Internet Transmission;

(2) ARM9 processor provides abundant external interface, and has the feature of high-performance and low-power consumption, and the high energy of ARM9 S36410 processor system clock gets at and reaches 800MHz, has guaranteed real-time control and the information interaction performance of infusion pump; FPGA processor has integrated level feature high, low in energy consumption; The flush bonding processor of employing based on FPGA and ARM, with respect to adopting PC to have the features such as cost is low, real-time performance good, stability is high, volume is little, low in energy consumption, and data-handling capacity is strong, rich interface.

Accompanying drawing explanation

Fig. 1 is this utility model networking structure topological diagram;

Fig. 2 is this utility model infusion pump terminal structure schematic block diagram.

The specific embodiment

Below in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail, but protection domain of the present utility model is not limited to the following stated.

As shown in Figure 1, infusion pump monitoring system, it comprises at least one infusion pump unit and monitor server, and each infusion pump unit comprises at least one infusion pump terminal and a wireless aps, and each infusion pump terminal is connected with monitor server with LAN by wireless aps respectively.

As shown in Figure 2, infusion pump terminal comprises at least one human body vital sign sensor, on-site programmable gate array FPGA, arm processor, WIFI communication module and LCD display, each human body vital sign sensors is connected with on-site programmable gate array FPGA by sensor interface circuitry respectively, on-site programmable gate array FPGA is connected with arm processor, and WIFI communication module is connected with arm processor respectively with LCD display.

Described human body vital sign sensor comprises pressure transducer, refers to temperature sensor, any one or multiple combination in pulse transducer, body temperature trans and blood oxygen transducer.

Described sensor interface circuitry comprises I2C, SPI or RS232 interface circuit.

Described arm processor adopts the ARM9 S36410 processor of low-power consumption.ARM9 S36410 power consumption of processing unit is low, rich interface, supports wireless WIFI communication, LAN communication, usb communication etc., is applicable to very much the exploitation of Portable movable instrument and equipment.The high energy of ARM9 S36410 processor system clock gets at and reaches 800MHz, has guaranteed real-time control and the information interaction performance of infusion pump.FPGA enriches I/O resource and can to system, upgrade easily.Data acquisition of the present utility model, transmission etc. all adopt existing known software program to carry out, without software approach itself is proposed to improve, and the innovative point of this utility model reality is FPGA and arm processor to combine and be applied to infusion pump, support the human body vital sign transfer of data that human body vital sign sensor acquisition is arrived to monitor server simultaneously, realize the remote centralized monitoring to a plurality of infusion pumps.

Claims (5)

1. infusion pump monitoring system, it is characterized in that: it comprises at least one infusion pump unit and monitor server, each infusion pump unit comprises at least one infusion pump terminal and a wireless aps, and each infusion pump terminal is connected with monitor server with LAN by wireless aps respectively.

2. infusion pump monitoring system according to claim 1, it is characterized in that: described infusion pump terminal comprises at least one human body vital sign sensor, on-site programmable gate array FPGA, arm processor, WIFI communication module and LCD display, each human body vital sign sensors is connected with on-site programmable gate array FPGA by sensor interface circuitry respectively, on-site programmable gate array FPGA is connected with arm processor, and WIFI communication module is connected with arm processor respectively with LCD display.

3. infusion pump monitoring system according to claim 2, is characterized in that: described human body vital sign sensor comprises pressure transducer, refers to temperature sensor, any one or multiple combination in pulse transducer, body temperature trans and blood oxygen transducer.

4. infusion pump monitoring system according to claim 2, is characterized in that: described sensor interface circuitry comprises I2C, SPI or RS232 interface circuit.

5. infusion pump monitoring system according to claim 2, is characterized in that: described arm processor adopts the ARM9 S36410 processor of low-power consumption.