CN205434577U - Intelligent infusion monitoring system - Google Patents

Abstract

The utility model provides an intelligent infusion monitoring system, including microprocessor, set up module, PIR, drip fast control module, alarm module, information display module and wireless transmission module, the microcontroller basis the comparison is carried out to speed and predetermined fast reference value of the current liquid drop drippage that PIR detected, combines the PID algorithm, utilizes the diameter that the disc cam changes the disc cam with press from both sides the size in groove between the butt spare to change the circulation sectional area of burette, and then adjusted the speed of infusion liquid drop, when the time interval who detects two adjacent dropping liquids drippage is greater than predetermined time interval reference value or when the liquid level of dropping liquid is less than critical liquid level, report to the police to the dripping of dropping liquid of slowing down is fast until stopping lower, and this utility model has reduced medical malpractice's emergence, has improved medical staff's work efficiency.

Description

Intelligent transfusion monitoring system

Technical field

This utility model relates to medical monitoring arts field, is specifically related to a kind of Intelligent transfusion monitoring system.

Background technology

Infusion is treatment means conventional in clinical treatment work, but current most of hospital and medical institutions are all not carried out the automatic monitoring management of transfusion, in infusion process, need by patient, accompany and serve observation medicinal liquid surplus at any time, or the carrying out needing medical worker's variable interval is patrolled and examined, to determine that transfusion speed is the most reasonable, whether transfusion closes to an end.Without changing dressings in time or stopping infusion, the most then it is delayed the treatment of patient, heavy then serious malpractice occurs, jeopardize the life security of patient.

Utility model content

The application is by providing a kind of Intelligent transfusion monitoring system, on the one hand, avoids the generation of the contingency that artificial monitoring causes not in time, on the other hand, alleviates the working strength of medical worker, rationally improve the work efficiency of medical worker.

The application is achieved by the following technical solutions:

A kind of Intelligent transfusion monitoring system, including the transfusion monitoring device being arranged on transfusion drip tube, the monitoring information collected is sent to Surveillance center in the way of being wirelessly transferred by this transfusion monitoring device；

Described transfusion monitoring device includes microprocessor, arranges module, infrared detection module, a speed control module, alarm module, information display module and wireless transport module, described module, infrared detection module, a speed control module, alarm module, information display module and the wireless transport module of arranging is connected with described microprocessor respectively, wherein

Described infrared detection module farther includes first pair of infrared tube and second pair of infrared tube, described first pair of infrared tube includes the first infrared emission tube and the first infrared receiver tube, it is respectively arranged at the both sides that the dropping funnel upper end of tube for transfusion is relative, for detecting the speed of drips, the time interval of adjacent two drips and number of drops, described second pair of infrared tube includes the second infrared emission tube and the second infrared receiver tube, it is respectively arranged at the both sides that infusion bottle mouth is relative, for detecting the liquid level of dropping liquid；

Described fast control module farther includes motor, drives gear, fluted disc, disc cam and fitting, wherein said driving gear is arranged on the axle of described motor, described driving gear and described fluted disc are arranged on same plane, and described driving gear matches with the tooth of described fluted disc, disc cam coaxially it is fixed with on described fluted disc, the edge of described disc cam is provided with fitting, forms the clip slot of tube for transfusion between the edge of described disc cam and described fitting；

The described module that arranges drips speed reference value, the interval reference values of adjacent two dropping liquid drippages and infusion bottle volume for presetting；

So information display module is for showing current the dripping speed and infuse remaining time of infusion bottle；

Described wireless transport module is sent to Surveillance center for the monitoring information collected by transfusion monitoring device；

The speed of the current drips that described first pair of infrared tube is detected by described microprocessor compares with the described speed reference value of dripping arranging module default, and the speed dripping the speed control module current drips of adjustment described in controlling keeps consistent with dripping fast reference value, when the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than second pair of infrared tube position, start described alarm module to report to the police, control simultaneously described drip that speed control module slows down dropping liquid drip speed until stopping lower.

Each transfusion monitoring device is linked to be a distributed network by wireless transport module by this transfusion monitoring system.

As the preferred technical scheme of one, described transfusion monitoring device also includes for calling the calling set that medical personnel help.

Further, described Surveillance center includes the wireless transport module for receiving monitoring information, for the alarm module reported to the police and server, this server is for showing the positional information of each infusion bottle, the speed of the current drips of this infusion bottle, transfusion remaining time and whether have calling.Medical worker is very clear to the detailed infusion information in all wards of whole lesion in Surveillance center such that it is able to provides for patient and nurses timely and effectively.

As the preferred technical scheme of one, described wireless transport module uses integrated wireless transceiving chip nRF401.

The monitoring method of above-mentioned Intelligent transfusion monitoring system, comprises the steps:

S1: described transfusion monitoring device is arranged on transfusion drip tube, and the both sides that described first pair of infrared tube dropping funnel upper end of being arranged at transfusion drip tube is relative, described second pair of infrared tube is arranged at the both sides that infusion bottle mouth is relative, and described fast control module is arranged on the tube for transfusion below described infrared detection module；

S2: preset a speed reference value, the interval reference values of adjacent two dropping liquids drippages and infusion bottle volume in module described setting；

S3: start described transfusion monitoring device；

The speed of the current drips that described first pair of infrared tube is detected by S4: described microprocessor compares with the described fast reference value of dripping arranging module default, and the speed controlling the described speed control module current drips of adjustment is consistent with dripping speed reference value holding；

S5: when the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than second pair of infrared tube position, start described alarm module to report to the police, control simultaneously described drip that speed control module slows down dropping liquid drip speed until stopping lower.

Further, the speed of infusion liquid drop is: v=KA Δ p^m, in formula, A is actual internal area, and Δ p is pressure reduction, depends on the height that infusion bottle hangs, and K is proportionality coefficient, depends on the fluid behaviour of liquid, and m is discharge characteristic index, between 0.5 to 1；

Described in step S4 and step S5, a method that speed control module is regulated the speed is: the speed of the current drips that described microcontroller detects according to described infrared detection module compares with the described speed reference value of dripping arranging module default, in conjunction with pid algorithm, described disc cam is driven to rotate by controlling described motor, the diameter utilizing described disc cam to change changes the size of clip slot between described disc cam and described fitting, thus change the actual internal area of dropper, and then have adjusted the speed of infusion liquid drop.

Compared with prior art, the technical scheme that the application provides, the technique effect or the advantage that have be: this Intelligent transfusion monitoring system achieves the monitoring in real time of transfusion speed and automatically adjusts, infuse rear automatic alarm, medical worker is very clear to the detailed infusion information in all wards of whole lesion in Surveillance center, nurse timely and effectively it is thus possible to provide for patient, and this Intelligent transfusion monitoring system is that the intellectuality of hospital, networking, normalized management provide and greatly ensure.

Accompanying drawing explanation

Fig. 1 is the theory diagram of intelligent transfusion supervising device of the present utility model；

Fig. 2 is first pair of infrared tube and a speed control module scheme of installation；

Fig. 3 is second pair of infrared tube scheme of installation；

Fig. 4 is for dripping speed control module structural representation；

Fig. 5 is system architecture diagram of the present utility model.

Detailed description of the invention

In order to be better understood from technique scheme, below in conjunction with Figure of description and specific embodiment, technique scheme is described in detail.

Embodiment

A kind of Intelligent transfusion monitoring system, including the transfusion monitoring device being arranged on transfusion drip tube, the monitoring information collected is sent to Surveillance center in the way of being wirelessly transferred by this transfusion monitoring device；

As shown in Figure 1, described transfusion monitoring device includes microprocessor 1, arranges module 2, infrared detection module 3, a speed control module 4, alarm module 5, information display module 6 and wireless transport module 7, described module 2, infrared detection module 3, a speed control module 4, alarm module 5, information display module 6 and the wireless transport module 7 of arranging is connected with described microprocessor 1 respectively, wherein

As shown in Figure 2, described infrared detection module 3 farther includes first pair of infrared tube 301 and second pair of infrared tube 302, described first pair of infrared tube 301 includes the first infrared emission tube 301a and the first infrared receiver tube 301b, it is respectively arranged at the both sides that the dropping funnel upper end of tube for transfusion is relative, for detecting the speed of drips, the time interval of adjacent two drips and number of drops, as shown in Figure 3, described second pair of infrared tube 302 includes the second infrared emission tube 302a and the second infrared receiver tube 302b, it is respectively arranged at the both sides that infusion bottle mouth is relative, for detecting the liquid level of dropping liquid；

As shown in Figure 4, described fast control module 4 farther includes motor 401, drive gear 402, fluted disc 403, disc cam 404 and fitting 405, wherein said driving gear 402 is arranged on the axle of described motor 401, described driving gear 402 is arranged on same plane with described fluted disc 403, and described driving gear 402 matches with the tooth of described fluted disc 403, disc cam 404 coaxially it is fixed with on described fluted disc 403, the edge of described disc cam 404 is provided with fitting 405, the clip slot of tube for transfusion is formed between the edge and described fitting 405 of described disc cam 404；

The described module 2 that arranges drips speed reference value, the interval reference values of adjacent two dropping liquid drippages and infusion bottle volume for presetting；

So information display module 6 is for showing current the dripping speed and infuse remaining time of infusion bottle；

Described wireless transport module 7 is sent to Surveillance center for the monitoring information collected by transfusion monitoring device；

The speed of the current drips that described first pair of infrared tube 301 is detected by described microprocessor 1 compares with the described speed reference value of dripping arranging module 2 default, and described speed control module 4 of control adjusts the speed of current drips and keeps consistent with dripping a fast reference value, when the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than second pair of infrared tube 302 position, start described alarm module 5 to report to the police, control simultaneously described drip that speed control module 4 slows down dropping liquid drip speed until stopping lower.

As it is shown in figure 5, each transfusion monitoring device is linked to be a distributed network by wireless transport module by this transfusion monitoring system.

As the preferred technical scheme of one, described transfusion monitoring device also includes for calling the calling set 8 that medical personnel help.

Further, described Surveillance center includes the wireless transport module for receiving monitoring information, for the alarm module reported to the police and server, this server is for showing the positional information of each infusion bottle, the speed of the current drips of this infusion bottle, transfusion remaining time and whether have calling.Medical worker is very clear to the detailed infusion information in all wards of whole lesion in Surveillance center such that it is able to provides for patient and nurses timely and effectively.

As the preferred technical scheme of one, described wireless transport module 7 uses integrated wireless transceiving chip nRF401.

The monitoring method of above-mentioned Intelligent transfusion monitoring system, comprises the steps:

S1: described transfusion monitoring device is arranged on transfusion drip tube, and the both sides that described first pair of infrared tube 301 dropping funnel upper end of being arranged at transfusion drip tube is relative, described second pair of infrared tube 302 is arranged at the both sides that infusion bottle mouth is relative, and described fast control module 4 is arranged on the tube for transfusion below described infrared detection module 3；

S2: preset a speed reference value, the interval reference values of adjacent two dropping liquids drippages and infusion bottle volume in module 2 described setting；

S3: start described transfusion monitoring device；

The speed of the current drips that described first pair of infrared tube 301 is detected by S4: described microprocessor 1 compares with the described speed reference value of dripping arranging module 2 default, and described speed control module 4 of control adjusts the speed of current drips and keep consistent with dripping a fast reference value；

S5: when the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than second pair of infrared tube 302 position, start described alarm module 5 to report to the police, control simultaneously described drip that speed control module 4 slows down dropping liquid drip speed until stopping lower.

Further, the speed of infusion liquid drop is: v=KA Δ p^m, in formula, A is actual internal area, and Δ p is pressure reduction, depends on the height that infusion bottle hangs, and K is proportionality coefficient, depends on the fluid behaviour of liquid, and m is discharge characteristic index, between 0.5 to 1；

Described in step S4 and step S5, a method that speed control module 4 is regulated the speed is: the speed of the current drips that described microcontroller 1 detects according to described infrared detection module 3 compares with the described speed reference value of dripping arranging module 2 default, in conjunction with pid algorithm, described disc cam 404 is driven to rotate by controlling described motor 401, the diameter utilizing described disc cam 404 to change changes the size of clip slot between described disc cam 404 and described fitting 405, thus change the actual internal area of dropper, and then have adjusted the speed of infusion liquid drop.

In above-described embodiment of the application, by providing a kind of Intelligent transfusion monitoring system and monitoring method thereof, described transfusion monitoring device includes microprocessor, module is set, infrared detection module, drip speed control module, alarm module, information display module and wireless transport module, the speed of the current drips that described microcontroller detects according to described infrared detection module compares with the speed reference value of dripping preset, in conjunction with pid algorithm, the diameter utilizing described disc cam to change changes the size of clip slot between described disc cam and described fitting, thus change the actual internal area of dropper, and then have adjusted the speed of infusion liquid drop；When the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than critical level, report to the police, and a speed of the dropping liquid that slows down is until stopping lower, this utility model decreases the generation of malpractice, improves the work efficiency of medical worker.

It should be noted that; described above is not to restriction of the present utility model; this utility model is also not limited to the example above; change, modification that those skilled in the art are made in essential scope of the present utility model, add or replace, also should belong to protection domain of the present utility model.

Claims (4)

1. an Intelligent transfusion monitoring system, it is characterised in that include the transfusion monitoring device being arranged on transfusion drip tube, the monitoring information collected is sent to Surveillance center in the way of being wirelessly transferred by this transfusion monitoring device；

Described transfusion monitoring device includes microprocessor (1), arranges module (2), infrared detection module (3), speed control module (4), alarm module (5), information display module (6) and wireless transport module (7), described module (2), infrared detection module (3), speed control module (4), alarm module (5), information display module (6) and the wireless transport module (7) of arranging is connected, wherein with described microprocessor (1) respectively:

Described infrared detection module (3) includes first pair of infrared tube (301) and second pair of infrared tube (302), described first pair of infrared tube (301) includes the first infrared emission tube (301a) and the first infrared receiver tube (301b), and the both sides that the dropping funnel upper end that is respectively arranged at tube for transfusion is relative, and for detecting the speed of drips, the time interval of adjacent two drips and number of drops, described second pair of infrared tube (302) includes the second infrared emission tube (302a) and the second infrared receiver tube (302b), and it is respectively arranged at the both sides that infusion bottle mouth is relative, and for detecting the liquid level of dropping liquid；

Described fast control module (4) includes motor (401), drive gear (402), fluted disc (403), disc cam (404) and fitting (405), wherein said driving gear (402) is arranged on the axle of described motor (401), described driving gear (402) and described fluted disc (403) are arranged on same plane, and described driving gear (402) matches with the tooth of described fluted disc (403), disc cam (404) coaxially it is fixed with on described fluted disc (403), the edge of described disc cam (404) is provided with fitting (405), the clip slot of tube for transfusion is formed between the edge of described disc cam (404) and described fitting (405)；

The described module (2) that arranges drips speed reference value, the interval reference values of adjacent two dropping liquid drippages and infusion bottle volume for presetting；

So information display module (6) is for showing current the dripping speed and infuse remaining time of infusion bottle；

Described wireless transport module (7) is sent to Surveillance center for the monitoring information collected by transfusion monitoring device；

The speed of the current drips that described first pair of infrared tube (301) is detected by described microprocessor (1) compares with the described speed reference value of dripping arranging module (2) default, and described speed control module (4) of control adjusts the speed of current drips and keeps consistent with dripping a fast reference value, when the time interval adjacent two dropping liquid drippages being detected is more than the interval reference values preset or when the liquid level of dropping liquid is less than second pair of infrared tube (302) position, start described alarm module (5) to report to the police, control simultaneously described drip that speed control module (4) slows down dropping liquid drip speed until stopping lower.

Intelligent transfusion monitoring system the most according to claim 1, it is characterised in that described transfusion monitoring device also includes for calling the calling set (8) that medical personnel help.

Intelligent transfusion monitoring system the most according to claim 1, it is characterized in that, described Surveillance center includes the wireless transport module for receiving monitoring information, for the alarm module reported to the police and server, this server is for showing the positional information of each infusion bottle, the speed of the current drips of this infusion bottle, transfusion remaining time and whether have calling.

4. according to the Intelligent transfusion monitoring system described in claim 1 or 3, it is characterised in that described wireless transport module (7) uses integrated wireless transceiving chip nRF401.