CN205041900U - Intelligent monitoring transfusion system - Google Patents

Abstract

The utility model discloses an intelligent monitoring transfusion system, including installing the control infusion kettle on the transfer line, be equipped with infusion monitoring devices in the control infusion kettle and carry out automatic cutout's self -closing spare to the transfer line, control infusion kettle includes that upper portion opens and have inlet and bottom to open the kettle body that has the liquid outlet, self -closing spare is laid in the floating body bottom including the end cap that lies in the internal floating body of kettle and carry out the shutoff to the liquid outlet, end cap, infrared detecting device that infusion monitoring devices goes on detecting for on off state to the liquid outlet or carry out the sound wave detecting device that detects to whether there being the liquid drop to instil into the kettle body, the infusion monitoring devices communicate with the host computer. The utility model has the advantages of simple structure and reasonable design and use easy and simple to handle, excellent in use effect, can effectively solve the problem of the unmanned control of current medical treatment infusion in -process, improve the control quality, reduced medical malpractice.

Description

Intelligent monitoring transfusion device

Technical field

This utility model belongs to medical instruments field, is specifically related to a kind of intelligent monitoring transfusion device.

Background technology

At present, infusion treatment is clinical the most frequently used a kind of Therapeutic Method.Traditional infusion method, needs people and guards the observation stability of flow rate of liquid and the change of liquid level aside when infusing, when liquid level is lower, the injection needing notice more to renew or taking-up transfusion needle, after Liquid transfer is complete, watch out for blood backflow etc.

But, in actual infusion process, because medical personnel are limited, situation and which berth that well can not grasp each berth need change liquid and take out transfusion needle etc., once medical personnel are on duty not in place, gas just may be caused to enter in patient body by tube for transfusion, and cause the adverse consequencess such as gas embolism, serious causes malpractice.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, a kind of intelligent monitoring transfusion device is provided, its structure is simple, reasonable in design and use easy and simple to handle, dependable performance, effectively can solve the problem of no worker monitor in existing medical transfusion process, improve quality monitoring, decrease malpractice.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of intelligent monitoring transfusion device, it is characterized in that: comprise the infusion monitoring kettle be arranged on tube for transfusion, described infusion monitoring kettle is built with fuction monitoring device for infusion and the automatic closure member described tube for transfusion being carried out to cut-out automatically; Described infusion monitoring kettle comprises top and has inlet and bottom has the kettle body of liquid outlet; Described automatic closure member comprises the floating body being positioned at described kettle body and the plug described liquid outlet being carried out to shutoff, and described headband is located at bottom floating body; Described fuction monitoring device for infusion is the infrared detection device that detects the on off state of described liquid outlet or to the acoustic detection device whether having drop to instill described kettle body to detect; Described fuction monitoring device for infusion communicates with host computer.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: also comprise the sealing gasket being arranged on plug top, and a balance plate is equipped with on described sealing gasket top; Described plug is connected with floating body.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: described plug is diameter diminishing taper plug and being connected by connecting rod between its with floating body from top to bottom; Described connecting rod is vertically to laying, and described connecting rod and described kettle body are laid in coaxial; Described sealing gasket is be sleeved on Gask-O-Seal bottom connecting rod and its external diameter is greater than the bore of described liquid outlet, and described liquid outlet is circular.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: described floating body, balance plate, sealing gasket and plug are all laid in coaxial with described kettle body; Described floating body, balance plate, sealing gasket and plug are all vertical runs with described kettle body.

Above-mentioned intelligent monitoring transfusion device, it is characterized in that: the infrared remote receiver that described infrared detection device comprises infrared transmitter, the infrared signal of launching infrared transmitter receives and to be contained on floating body and with floating body move up and down every tabula rasa, described infrared transmitter and infrared remote receiver lay respectively at the left and right sides every tabula rasa, the described light hole being provided with the described infrared signal of confession and passing on tabula rasa; Described every tabula rasa and described kettle body all in vertically to laying.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: be describedly positioned at above or below floating body every tabula rasa.

Above-mentioned intelligent monitoring transfusion device, it is characterized in that: the monitoring probe that described acoustic detection device comprises induction drum and detects the intensity of sound that the drop in the described kettle body of instillation drops down onto induction drum, on the inwall that described induction drum is fixedly mounted on described kettle body and it is positioned at below described inlet, described monitoring probe is contained on induction drum.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: also comprise and carry out spacing position-limit mechanism to floating body, and described position-limit mechanism is positioned at described kettle body; The second locating part that described position-limit mechanism is the limiting plate be laid on described kettle body inwall, is arranged on the first locating part on floating body or is arranged on fuction monitoring device for infusion; Described limiting plate is positioned at above or below floating body.

Above-mentioned intelligent monitoring transfusion device, it is characterized in that: described host computer comprises single-chip microcomputer, signal conditioning circuit that fuction monitoring device for infusion institute detection signal is nursed one's health and infusion-completed time carry out the alarm module of alarm, described alarm module is controlled by single-chip microcomputer, described fuction monitoring device for infusion connects with signal conditioning circuit, and described signal conditioning circuit and alarm module all connect with single-chip microcomputer;

Wherein, when fuction monitoring device for infusion is acoustic detection device, described host computer also comprises the timing circuit, the drop that connect with single-chip microcomputer respectively and instills state indicator module and display module; Described single-chip microcomputer is chip AT89C52; The outfan of described signal conditioning circuit is connected with the P3.4/T0 pin of described chip AT89C52.

Above-mentioned intelligent monitoring transfusion device, is characterized in that: described floating body comprises air bag.

This utility model compared with prior art has the following advantages:

1, structure is simple, reasonable in design and use easy and simple to handle, and each parts connect compact, dependable performance, and processing and fabricating is convenient.

2, after transfusion terminates, acousto-optic voice alarm prompting medical personnel can be started and change medicine bottle and automatic time delay closedown transfusion, avoid air to input, decrease malpractice.

3, the fuction monitoring device for infusion structure adopted simple, reasonable in design and use easy and simple to handle, result of use good, fuction monitoring device for infusion is infrared detection device or acoustic detection device, easy to detect and testing result is reliable.

4, the automatic closure structure adopted is simple and processing and fabricating is easy, result of use is good, automatically can close during infusion-completed to tube for transfusion, economical and practical.

5, can be set to the wireless monitor carrying out radio communication with nurse station, by wireless monitor wireless calling medical personnel, and wireless monitor carries out corresponding voice message by wireless signal to medical personnel.

6, can with original cable data systems connection, improve quality monitoring, remove the arduous of nursing entourage, increase work efficiency, avoid nursing staff to beat up and down.

7, the monitoring infusion method step adopted is simple, reasonable in design and realization is convenient, result of use is good, automatically can carry out alarm, and after alarm a period of time, automatically can close tube for transfusion in transfusion by time complete.

In sum, this utility model structure is simple, reasonable in design, use easy and simple to handle and result of use good, dependable performance, effectively can solve the problem of no worker monitor in existing medical transfusion process, improve quality monitoring, decrease malpractice.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is schematic block circuit diagram of the present utility model.

Fig. 3 is the structural representation of this utility model first infrared acquisition supervising device.

Fig. 4 is the structural representation of this utility model second infrared acquisition supervising device.

Fig. 5 is the structural representation of this utility model acoustic detection supervising device.

Fig. 6 is the structural representation of this utility model first limiting plate.

Fig. 7 is the structural representation of this utility model second limiting plate.

Fig. 8 is the method flow block diagram adopting this utility model to carry out monitoring infusion.

Fig. 9 is the schematic block circuit diagram of this utility model host computer.

Figure 10 is the circuit theory diagrams of this utility model display module.

Figure 11 is the circuit theory diagrams of this utility model drop instillation state indicator module.

Figure 12 is the circuit theory diagrams of this utility model alarm module.

Figure 13 is the circuit theory diagrams of this utility model single-chip microcomputer.

Figure 14 is the circuit theory diagrams of this utility model AD conversion module.

Description of reference numerals:

100-fuction monitoring device for infusion; 110-infrared detection device; 111-every tabula rasa;

112-light hole; 113-infrared transmitter; 114-infrared remote receiver;

120-acoustic detection device; 121-induction drum; 122-monitoring probe;

200-closure member automatically; 201-floating body; 202-balance plate;

203-connecting rod; 204-sealing gasket; 205-plug;

300-host computer; 301-single-chip microcomputer; 302-signal conditioning circuit;

303-display module; 304-alarm module;

305-drop instillation state indicator module; 500-infusion monitoring kettle;

601-supporting plate; 602-sleeve; 603-limit shaft;

604-limiting plate.

Detailed description of the invention

As shown in Figure 1 and Figure 2, this utility model comprises the infusion monitoring kettle 500 be arranged on tube for transfusion, and described infusion monitoring kettle 500 is built with fuction monitoring device for infusion 100 and the automatic closure member 200 described tube for transfusion being carried out to cut-out automatically; Described infusion monitoring kettle 500 comprises top and has inlet and bottom has the kettle body of liquid outlet; Described automatic closure member 200 comprises the floating body 201 being positioned at described kettle body and the plug 205 described liquid outlet being carried out to shutoff, and described plug 205 is laid in bottom floating body 201.Described fuction monitoring device for infusion 100 is the infrared detection device 110 that detects the on off state of described liquid outlet or to the acoustic detection device 120 whether having drop to instill described kettle body to detect.Described fuction monitoring device for infusion 100 communicates with host computer 300.

It should be noted that, this utility model does not do concrete restriction to infrared detection device 110 and the annexation up and down of automatic closure member 200, namely infrared detection device 110 both can be arranged on above automatic closure member 200, and infrared detection device 110 also can be arranged on the below of automatic closure member 200.

In the present embodiment, described fuction monitoring device for infusion 100 is laid in described kettle body, and fuction monitoring device for infusion 100 is positioned on automatic closure member 200.

During actual use, described kettle body can, for the liquid dripping kettle that described tube for transfusion carries, also can be both the liquid dripping kettle kettle body arranged in addition on described tube for transfusion.Wherein, when described kettle body is the liquid dripping kettle that described tube for transfusion carries, less to the change of existing tube for transfusion, only in original liquid dripping kettle that tube for transfusion carries, fuction monitoring device for infusion 100 and automatic closure member 200 need be installed.

As shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, this utility model also comprises the sealing gasket 204 being arranged on plug 205 top, and a balance plate 202 is equipped with on described sealing gasket 204 top; Described plug 205 is connected with floating body 201.

In the present embodiment, described plug 205 is diameter diminishing taper plug from top to bottom.

During actual use, described plug 205 also can adopt cylindrical plug.

In the present embodiment, the infrared remote receiver 114 that the infrared signal that described infrared detection device 110 comprises infrared transmitter 113, launch infrared transmitter 113 receives and to be contained on floating body 201 and with floating body 201 move up and down every tabula rasa 111, described infrared transmitter 113 and infrared remote receiver 114 lay respectively at the left and right sides every tabula rasa 111, the described light hole 112 being provided with the described infrared signal of confession and passing on tabula rasa 111; Described every tabula rasa 111 and described kettle body all in vertically to laying.

Actual lay when installing, to be describedly positioned at above or below floating body 201 every tabula rasa 111.Further, the infrared detection device 110 be positioned at above floating body 201 every tabula rasa 111 is the first infrared detection device, and its structure refers to Fig. 3; The infrared detection device 110 be positioned at below floating body 201 every tabula rasa 111 is the second infrared detection device, and its structure refers to Fig. 4.Further, described floating body 201, balance plate 202, sealing gasket 204 and plug 205 are all laid in coaxial with described kettle body; Described floating body 201, balance plate 202, sealing gasket 204 and plug 205 are all vertical runs with described kettle body.

As shown in Figure 3, described plug 205 is connected by connecting rod 203 with between floating body 201; Described connecting rod 203 is vertically to laying, and described connecting rod 203 and described kettle body are laid in coaxial; Described sealing gasket 204 is for being sleeved on Gask-O-Seal bottom connecting rod 203 and its external diameter is greater than the bore of described liquid outlet.In the present embodiment, described liquid outlet is circular.Further, described floating body 201, balance plate 202, connecting rod 203, sealing gasket 204 and plug 205 are all laid in coaxial; Described floating body 201, balance plate 202, sealing gasket 204 and plug 205 all with connecting rod 203 in vertical runs.

During actual use, described plug 205 also by being connected every tabula rasa 111, can refer to Fig. 4 with between floating body 201.Further, described plug 205 is connected, as connecting plate, connection tube etc. with also adopting other syndeton between floating body 201.

As shown in Figure 5, the monitoring probe 122 that described acoustic detection device 120 comprises induction drum 121 and detects the intensity of sound that the drop in the described kettle body of instillation drops down onto induction drum 121, on the inwall that described induction drum 121 is fixedly mounted on described kettle body and it is positioned at below described inlet, described monitoring probe 122 is contained on induction drum 121.In the present embodiment, described induction drum 121 is cylindric.

During actual installation, there is gap between described induction drum 121 and described kettle body inside, the drop instilled in described kettle body flows into through the gap between induction drum 121 and described kettle body inside to be responded to below drum 121.

Meanwhile, this utility model also comprises and carries out spacing position-limit mechanism to floating body 201, and described position-limit mechanism is positioned at described kettle body; The second locating part that described position-limit mechanism is the limiting plate 604 be laid on described kettle body inwall, is arranged on the first locating part on floating body 201 or is arranged on fuction monitoring device for infusion 100; Described limiting plate 604 is positioned at above or below floating body 201.

During actual use, described position-limit mechanism is the first limiting plate, the second limiting plate, the first locating part or the second locating part.Wherein, the limiting plate 604 be positioned at above floating body 201 is described first limiting plate, and the limiting plate 604 be positioned at below floating body 201 is described second limiting plate.In actual use procedure, both can be limited by the displacement that moves up and down of described position-limit mechanism to floating body 201, also can be led by the direction that moves up and down of described position-limit mechanism to floating body 201, floating body 201 is vertically moved up and down in described kettle body.

When described fuction monitoring device for infusion 100 is infrared detection device 110, described position-limit mechanism is the first limiting plate or the second limiting plate.Wherein, the structure of described first limiting plate refers to Fig. 3, the quantity of described limiting plate 604 is two, and two described limiting plates 604 are laid one on the other, described infrared transmitter 113 and infrared remote receiver 114 all between two described limiting plates 604 and the two be positioned in same level.In actual use procedure, in described first limiting plate, the quantity of limiting plate 604 also can be one or more, and multiple described limiting plate 604 is from top to bottom laid.

The structure of described second limiting plate refers to Fig. 4, and the quantity of described limiting plate 604 is one, and described infrared transmitter 113 and infrared remote receiver 114 are all positioned at below this limiting plate 604 and the two is positioned in same level.The middle part of described limiting plate 604 has the through hole for passing every tabula rasa 111.

In actual use procedure, can according to specific needs, the quantity of limiting plate 604 in described first limiting plate and described second limiting plate be adjusted accordingly.

Described first locating part and the second locating part all with described acoustic detection device 120 with the use of, thus only have when described fuction monitoring device for infusion 100 is for acoustic detection device 120, described position-limit mechanism could adopt described first locating part or the second locating part.Meanwhile, when described fuction monitoring device for infusion 100 is acoustic detection device 120, described position-limit mechanism also can adopt described first limiting plate or the second limiting plate.

Wherein, the structure of described first locating part refers to Fig. 6, described first locating part comprises the limit shaft 603 be arranged on floating body 201, be sleeved on the sleeve 602 on limit shaft 603 and be arranged on the supporting plate 601 at sleeve 602 top, and described supporting plate 601 is fixed on described kettle body inwall.In the present embodiment, described limit shaft 603, sleeve 602 and supporting plate 601 are all laid in coaxial with described kettle body, and described supporting plate 601 is positioned at below induction drum 121.

The structure of described second locating part refers to Fig. 7, described second locating part be arranged on induction drum 121 bottom and its be positioned at above floating body 201.In the present embodiment, described second locating part is gag lever post.

As shown in Fig. 9, Figure 13, in the present embodiment, the alarm module 304 of alarm is carried out when the signal conditioning circuit 302 that described host computer 300 comprises single-chip microcomputer 301, nurse one's health fuction monitoring device for infusion 100 detection signals and infusion-completed, described alarm module 304 is controlled by single-chip microcomputer 301, described fuction monitoring device for infusion 100 connects with signal conditioning circuit 302, and described signal conditioning circuit 302 and alarm module 304 all connect with single-chip microcomputer 301.

Wherein, when fuction monitoring device for infusion 100 is acoustic detection device 120, described host computer 300 also comprises the timing circuit, the drop that connect with single-chip microcomputer 301 respectively and instills state indicator module 305 and display module 303; Described single-chip microcomputer 301 is chip AT89C52; The outfan of described signal conditioning circuit 302 is connected with the P3.4/T0 pin of described chip AT89C52.

As shown in Figure 10, in the present embodiment, described display module 303 comprises chip U9, chip U10, chip U11, chip U12 and chip U13, wherein, described chip U9, chip U10 and chip U11 are chip 7SEG, and described chip U12 and chip U13 is chip 74HC573, the P0.0/AD0 pin of described chip AT89C52, P0.1/AD1 pin, P0.2/AD3 pin, P0.3/AD3 pin, P0.4/AD4 pin, P0.5/AD5 pin, P0.6/AD6 pin and P0.7/AD7 pin respectively with the D1 of described chip U12, D2, D3, D4, D5, D6, D7 with D8 pin is connected, and the P0.0/AD0 pin of chip AT89C52, P0.1/AD1 pin, P0.2/AD3 pin, P0.3/AD3 pin, P0.4/AD4 pin, P0.5/AD5 pin, P0.6/AD6 pin and P0.7/AD7 pin respectively with the D1 of described chip U13, D2, D3, D4, D5, D6, D7 with D8 pin is connected, Q1, Q2, Q3, Q4, Q5, Q6, Q7 of described chip U12 are connected with DP pin with A, B, C, D, E, F, G of chip U9 respectively with Q8 pin, and Q1, Q2, Q3, Q4, Q5, Q6, Q7 of chip U12 and Q8 pin are connected with A, B, C, D, E, F, G, DP pin of chip U10 respectively, Q1, Q2, Q3, Q4, Q5, Q6, Q7 of chip U12 are connected with A, B, C, D, E, F, G, DP pin of chip U11 respectively with Q8 pin simultaneously,

3rd pin of described chip U9 is connected with the 8th pin and it is connected with the Q1 pin of chip U13; 3rd pin of described chip U10 is connected with the 8th pin and it is connected with the Q2 pin of chip U13; 3rd pin of described chip U11 is connected with the 8th pin and it is connected with the Q3 pin of chip U13; The P2.6/A14 pin of chip AT89C52 is connected with the C pin of chip U12; The P2.7/A15 pin of chip AT89C52 is connected with the C pin of chip U13.

As shown in figure 13, the 32nd pin of described chip AT89C52 connects power supply to the 39th pin after exclusion.9th pin of described chip AT89C52 ground connection and its earthing power supply after electric capacity CA1 after resistance R57.

As shown in figure 12, described alarm module 304 comprises chip PIEZO-BUZZER and audion Q8; The minus earth of described chip PIEZO-BUZZER, and its anode is connected with the 3rd pin of described audion Q8; 2nd pin of described audion Q8 is connected with power supply by resistance R59; 1st pin of described audion Q8 is connected with the P2.3/A11 pin of chip AT89C52 through resistance R58.

As shown in figure 11, described drop instillation state indicator module 305 comprises chip U14, light emitting diode D1 and resistance R56, and chip U14 is chip 74HC573; The P0.0/AD0 pin of described chip AT89C52, P0.1/AD1 pin, P0.2/AD3 pin, P0.3/AD3 pin, P0.4/AD4 pin, P0.5/AD5 pin, P0.6/AD6 pin are connected with D8 pin with D1, D2, D3, D4, D5, D6, D7 of described chip U14 respectively with P0.7/AD7 pin; The P2.5/A13 pin of described chip AT89C52 is connected with the C pin of chip U14; The positive pole of described light emitting diode D1 is connected with power supply through resistance R56, and negative pole is connected with the Q1 pin of described chip U14.

As shown in figure 14, described signal conditioning circuit 302 comprises AD conversion module, and described AD conversion module comprises chip U16, and wherein, chip U16 is ADC0804.DB0, DB1, DB2, DB3, DB4, DB5, DB6 of chip U16 are connected with P1.7/SCK pin with P1.0/T2, P1.1/T2EX, P1.2, P1.3, P1.4/SS, P1.5/MOSI, P1.6/MISO of described chip AT89C52 respectively with DB7 pin; The RD pin of chip U16 is connected with P3.6/WR with the P3.7/RD pin of described chip AT89C52 respectively with WR pin.

As shown in Figure 8, when adopting this utility model to carry out monitoring infusion, comprise the following steps:

Step one, infusion process are monitored: in infusion process, detected in real time by fuction monitoring device for infusion 100 pairs of transfusion states, and by testing result synchronous driving to host computer 300;

Described fuction monitoring device for infusion 100 is infrared detection device 110 or acoustic detection device 120; When described fuction monitoring device for infusion 100 is infrared detection device 110, described testing result is the on off state of described liquid outlet; When fuction monitoring device for infusion 100 is acoustic detection device 120, whether described testing result is for having drop to instill described kettle body;

In infusion process, in described kettle body, have medicinal liquid, now floating body 201 float on described kettle body medicinal liquid face on and described liquid outlet is in open mode;

Step 2, transfusion alarm: the testing result of described host computer 300 pairs of infrared detection devices 110 or acoustic detection device 120 is analyzed; When analyzing present infusion state for during by infusion-completed, host computer 300 carries out alarm to point out transfusion by complete, and enters step 3;

Wherein, when the testing result of infrared detection device 110 is analyzed, move down every tabula rasa 111 when floating body 201 moves down gradually with the medicinal liquid face in described kettle body and drives, when light hole 112 on tabula rasa 111 is located along the same line with infrared transmitter 113 and infrared remote receiver 114, infrared remote receiver 114 receives infrared transmitter 113 infrared signals sent; Now, the testing result of described host computer 300 pairs of infrared detection devices 110 is analyzed and is shown that present infusion state is by infusion-completed, and host computer 300 carries out alarm to point out transfusion by complete, and enters step 3;

When the testing result of acoustic detection device 120 is analyzed, when described acoustic detection device 120 detect do not have drop to drip on described induction drum 121 time, the testing result of described host computer 300 pairs of acoustic detection devices 120 is analyzed and is shown that present infusion state is by infusion-completed, and host computer 300 carries out alarm to point out transfusion by complete, and enter step 3;

At replacing medicinal liquid or when extracting tube for transfusion, described host computer 300 stops alarm prompt;

Step 3, transfusion are closed automatically: after host computer 300 sends alarm, and automatic closure member 200 carries out automatically cutting off to described tube for transfusion closes automatically to realize transfusion;

Wherein, infusion process is by time complete, and the medicinal liquid had in described kettle body reduces gradually, and the medicinal liquid face that floating body 201 floats on described kettle body moves down gradually with the medicinal liquid face in described kettle body; When floating body 201 move to plug 205 described liquid outlet is closed time, carry out automatically cutting off realizes transfusion closedown automatically to described tube for transfusion.

In the present embodiment, after described host computer 300 sends alarm a period of time, automatic closure member 200 cuts off automatically to described tube for transfusion, realizes transfusion and automatically closes.Further, host computer 300 sends the interval that alarm is carried out to automatic closure member 200 described tube for transfusion automatically cutting off, for the medicinal liquid in described kettle body is gradually reduced to the time that plug 205 closes described liquid outlet.

In the present embodiment, the alarm module 304 of alarm is carried out when the signal conditioning circuit 302 that described host computer 300 comprises single-chip microcomputer 301, nurse one's health fuction monitoring device for infusion 100 detection signals and infusion-completed, described alarm module 304 is controlled by single-chip microcomputer 301, described fuction monitoring device for infusion 100 connects with signal conditioning circuit 302, and described signal conditioning circuit 302 and alarm module 304 all connect with single-chip microcomputer 301; Wherein, when fuction monitoring device for infusion 100 is acoustic detection device 120, described host computer 300 also comprises the timing circuit, the drop that connect with single-chip microcomputer 301 respectively and instills state indicator module 305 and display module 303;

In step one, when fuction monitoring device for infusion 100 for acoustic detection device 120 and described testing result for there being drop to instill described kettle body time, drop instillation state indicator module 305 indicates a drop instillation; Host computer 300 was determined current transfusion speed and amount of infusion respectively according to the time of described testing result, described timing circuit record and the droplet size that pre-sets, and carried out simultaneous display by display module 303 to determined transfusion speed and amount of infusion.

Wherein, when current transfusion speed is determined, because acoustic detection device 120 can detect each drop instillation state, thus according to the testing result of acoustic detection device 120, and the interval of adjacent twice drop instillation kettle body in conjunction with described timing circuit record, just can obtain current transfusion speed.When determining current amount of infusion, according to the testing result of acoustic detection device 120, the total degree of current drop instillation kettle body is added up, and combines the droplet size pre-set, just can obtain current amount of infusion.

In actual applications, described host computer 300 comprises the communication module of carrying out radio communication with mobile terminal, and described communication module, when described fuction monitoring device for infusion 100 detects that transfusion is near completion, sends transfusion Stop message to described mobile terminal.

In actual applications, described host computer 300 is connected by cordless communication network with fuction monitoring device for infusion 100, and described cordless communication network comprises WLAN and GRPS network.

In actual applications, described floating body 201 comprises air bag.

In actual use procedure, whether whether fuction monitoring device for infusion 100 break down for monitoring present infusion process or infused.Specifically, when fuction monitoring device for infusion 100 is infrared detection device 110, its testing process is: when carrying out when infusing, make the height of light hole 112 higher because floating body 301 swims on medicinal liquid face, this can block after tabula rasa 111 infrared signal that infrared transmitter 113 sends to infrared remote receiver 114, and namely infrared transmitter 113 is to infrared remote receiver 114 not conducting; When transfusion completes, owing to there is no liquid in infusion bottle, described floating body 201 sinks to making the height reduction of light hole 112, and then make infrared transmitter 113 send infrared signal by light hole 112 to infrared remote receiver 114, infrared transmitter 113 and infrared remote receiver 114 conducting, the present infusion information monitored is sent to described host computer 300 by fuction monitoring device for infusion 100, starts and reports to the police.When fuction monitoring device for infusion 100 is acoustic detection device 120, its testing process is: when carrying out when infusing, drop can drop in be responded on drum 121 and induction drum 121 is shaken, and the monitoring probe 122 be connected with induction drum 121 is caught sound wave and changed and send signal to described host computer 300; When not having fluid drips on induction drum 121, monitoring probe 122 does not capture sound wave change, and now monitoring probe 122 notifies host computer 300 to start warning.Further, described monitoring probe 122 often monitors a drop and instills described kettle body, all indicates a drop instillation by drop instillation state indicator module 305.

In actual applications, automatic closure member 200 is meeting automatic stopping infusion when transfusion completes, specifically, when carrying out when infusing, because floating body 201 floats on medicinal liquid face; And when transfusion completes, owing to not having liquid in infusion bottle, described floating body 201 sinks to making the complete shutoff of plug 205 to fill the liquid outlet of infusion monitoring kettle 500, thus stopping infusion.

Described on end, when transfusion is near completion, host computer 300 can automatically start warning reminding medical personnel and process in time, if medical personnel do not process in time, automatic closure member 200 also can self-closed liquid-transport pipe-line.

In actual application, the digital speech that medical personnel utilize host computer 300 to show and sound and light alarm, understand the transfusion condition of each patient in time, avoids because transfusion causes unnecessary malpractice and dispute.In addition, intelligent monitoring transfusion device described in the utility model can also wired alarming systems connection original in hospital, improves monitoring alarm quality.

The above; it is only preferred embodiment of the present utility model; not this utility model is imposed any restrictions; every above embodiment is done according to this utility model technical spirit any simple modification, change and equivalent structure change, all still belong in the protection domain of technical solutions of the utility model.

Claims (10)

1. an intelligent monitoring transfusion device, it is characterized in that: comprise the infusion monitoring kettle (500) be arranged on tube for transfusion, described infusion monitoring kettle (500) is built with fuction monitoring device for infusion (100) and the automatic closure member (200) described tube for transfusion being carried out to cut-out automatically; Described infusion monitoring kettle (500) comprises top and has inlet and bottom has the kettle body of liquid outlet; Described automatic closure member (200) comprises the floating body (201) being positioned at described kettle body and the plug (205) described liquid outlet being carried out to shutoff, and described plug (205) is laid in floating body (201) bottom; Described fuction monitoring device for infusion (100) is the infrared detection device (110) that detects the on off state of described liquid outlet or to the acoustic detection device (120) whether having drop to instill described kettle body to detect; Described fuction monitoring device for infusion (100) communicates with host computer (300).

2. according to intelligent monitoring transfusion device according to claim 1, it is characterized in that: also comprise the sealing gasket (204) being arranged on plug (205) top, a balance plate (202) is equipped with on described sealing gasket (204) top; Described plug (205) is connected with floating body (201).

3. according to intelligent monitoring transfusion device according to claim 2, it is characterized in that: described plug (205) is diameter diminishing taper plug and being connected by connecting rod (203) between its with floating body (201) from top to bottom; Described connecting rod (203) is vertically to laying, and described connecting rod (203) and described kettle body are laid in coaxial; Described sealing gasket (204) is for being sleeved on the Gask-O-Seal of connecting rod (203) bottom and its external diameter is greater than the bore of described liquid outlet, and described liquid outlet be circle.

4. according to intelligent monitoring transfusion device according to claim 2, it is characterized in that: described floating body (201), balance plate (202), sealing gasket (204) and plug (205) are all laid in coaxial with described kettle body; Described floating body (201), balance plate (202), sealing gasket (204) and plug (205) are all vertical runs with described kettle body.

5. according to the intelligent monitoring transfusion device described in claim any one of Claims 1-4, it is characterized in that: described infrared detection device (110) comprises infrared transmitter (113), the infrared remote receiver (114) that the infrared signal of launching infrared transmitter (113) receives and be contained in floating body (201) upper and with floating body (201) move up and down every tabula rasa (111), described infrared transmitter (113) and infrared remote receiver (114) lay respectively at the left and right sides every tabula rasa (111), the described light hole (112) being provided with the described infrared signal of confession and passing on tabula rasa (111), described every tabula rasa (111) and described kettle body all in vertically to laying.

6. according to intelligent monitoring transfusion device according to claim 5, it is characterized in that: to be describedly positioned at above or below floating body (201) every tabula rasa (111).

7. according to the intelligent monitoring transfusion device described in claim any one of Claims 1-4, it is characterized in that: the monitoring probe (122) that described acoustic detection device (120) comprises induction drum (121) and detects the intensity of sound that the drop in the described kettle body of instillation drops down onto induction drum (121), on the inwall that described induction drum (121) is fixedly mounted on described kettle body and it is positioned at below described inlet, described monitoring probe (122) is contained in induction drum (121).

8. according to the intelligent monitoring transfusion device described in claim any one of Claims 1-4, it is characterized in that: also comprise and carry out spacing position-limit mechanism to floating body (201), described position-limit mechanism is positioned at described kettle body; The second locating part that described position-limit mechanism is the limiting plate (604) be laid on described kettle body inwall, is arranged on the first locating part on floating body (201) or is arranged on fuction monitoring device for infusion (100); Described limiting plate (604) is positioned at above or below floating body (201).

9. according to the intelligent monitoring transfusion device described in claim any one of Claims 1-4, it is characterized in that: described host computer (300) comprises single-chip microcomputer (301), the alarm module (304) of alarm is carried out when the signal conditioning circuit (302) that fuction monitoring device for infusion (100) institute detection signal is nursed one's health and infusion-completed, described alarm module (304) is controlled by single-chip microcomputer (301), described fuction monitoring device for infusion (100) connects with signal conditioning circuit (302), described signal conditioning circuit (302) and alarm module (304) all connect with single-chip microcomputer (301),

Wherein, when fuction monitoring device for infusion (100) is for acoustic detection device (120), described host computer (300) also comprises the timing circuit, the drop that connect with single-chip microcomputer (301) respectively and instills state indicator module (305) and display module (303); Described single-chip microcomputer (301) is chip AT89C52; The outfan of described signal conditioning circuit (302) is connected with the P3.4/T0 pin of described chip AT89C52.

10. according to the intelligent monitoring transfusion device described in claim any one of Claims 1-4, it is characterized in that: described floating body (201) comprises air bag.