CN201492745U - Monitoring system for intravenous drip infusion - Google Patents
Monitoring system for intravenous drip infusion Download PDFInfo
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- CN201492745U CN201492745U CN2009202331003U CN200920233100U CN201492745U CN 201492745 U CN201492745 U CN 201492745U CN 2009202331003 U CN2009202331003 U CN 2009202331003U CN 200920233100 U CN200920233100 U CN 200920233100U CN 201492745 U CN201492745 U CN 201492745U
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Abstract
The utility model discloses a monitoring system for intravenous drip infusion. A gravity monitor of each infusion bag is used for respectively and correspondingly detecting and processing weight information of each infusion bag and transmitting the weight information to a signal processing and transmitting module in a computer; the signal processing and transmitting module transmits the weight information to the computer; the computer simulates and displays the infusion state of each infusion bag and respectively transmits the infusion state to the corresponding gravity monitor of the infusion bag or a corresponding mobile display by the signal processing and transmitting module according to the set; the gravity monitor of the infusion bag prompts and alarms; and the mobile display displays prompt information. The utility model grasps the drip progress in real time by using a weight sense technology and is communicated with the computer by a wireless communication technology; the computer analyzes the drip progress according to the set and transmits the final result to various prompt and display devices; and in addition, the utility model can simultaneously and intelligently monitor the drip progresses of all the patients and accurately prompt the corresponding nursing personnel, avoid the unnecessary nervousness and hurries caused by the carelessness of the nursing personnel and effectively reduce the workload of the nursing personnel, and has safe and reliable use.
Description
Technical field
This utility model relates to intravenous drip monitoring field, especially a kind of intravenous drip injection monitoring system.
Background technology
At present, the monitoring of drop process still is in the state of labor management in the hospital, even have medical personnel or patient by the mode of liquid level height in the control point drop bottle drop process to be monitored now, uses also very inconvenient.Because the patient is many, every day, patients in an endless stream came the asynchronism(-nization) that the hanging point in transfusion room or ward drips, start and end time during transfusion is variant, speed in the infusion process is also different, this just needs nursing staff or the patient height of the interior liquid of point of fixation drop bottle constantly, causes unnecessary anxiety and flurried.
Summary of the invention
In order to overcome above-mentioned defective, this utility model provides a kind of intravenous drip injection monitoring system, can carry out intelligent monitoring to all the patient's drop processes in the hospital simultaneously, and can accurately point out the corresponding nursing personnel work in due course.
This utility model for the technical scheme that solves its technical problem and adopt is:
A kind of intravenous drip injection monitoring system, comprise computer, some mobile displays and some transfusion bag gravity watch-dogs, include the signal processing transport module in the described computer, described some transfusion bag gravity watch-dogs are corresponding respectively to be detected and handles the weight information of each transfusion bag and be messaging in the signal processing transport module, the signal processing transport module with the information transmission that receives in computer, the transfusion state of each transfusion bag simulated and shows by setup program by computer according to the information that receives, computer transmits information by setup program in the signal processing transport module, the signal processing transport module is transmitted in corresponding transfusion bag gravity watch-dog or corresponding mobile display by information, point out warning by design after transfusion bag gravity watch-dog receives information, mobile display is received display reminding information after the information.
As further improvement of the utility model, the mode that described some transfusion bag gravity watch-dogs are corresponding respectively to be detected and handle the weight information of each transfusion bag and be messaging in the signal processing transport module is: described transfusion bag gravity monitoring module is for having gravity sensor, the watch-dog of control circuit board and wireless signal transceiver, described gravity sensor and wireless signal transceiver are corresponding respectively to be electrically connected with control circuit board, described gravity sensor converts the weight information of transfusion bag magnitude of voltage to and is transferred to control circuit board, control circuit board converts magnitude of voltage digital signal to and is messaging in wireless signal transceiver, and the signal after wireless signal transceiver will be analyzed sends by wireless communication protocol; Described signal processing transport module comprises the wireless communication transmissions device, and this wireless communication transmissions device receives the signal that this wireless signal transceiver sends by wireless communication protocol.
As further improvement of the utility model, the transfusion state of each transfusion bag simulated and shows by setup program by described computer according to the information that receives, computer transmits information by setup program: set weight/power ratio by described setting program, computer is judged the actual weight of transfusion bag and shows the transfusion progress in the progress bar mode that according to the information that receives simultaneous computer obtains three kinds of comparing results with this actual weight and described weight/power ratio is compared by setting by setup program:
First comparing result is: when the actual weight of the transfusion bag of computer-made decision is in when surpassing in the scope above to weight/power ratio 20 grams first kind of color of progress bar demonstration;
Second comparing result is: when the actual weight of the transfusion bag of computer-made decision be in surpass weight/power ratio 10 grams above to the scopes of 20 grams the time, second kind of color of progress bar demonstration;
The 3rd comparing result is: when the actual weight of the transfusion bag of computer-made decision be in surpass to weight/power ratio 10 grams and below scope in the time, progress bar shows the third color;
Computer is converted into first, second and third information and is transferred to the signal processing transport module by setting corresponding first, second and third comparing result that contrast is obtained.
As further improvement of the utility model, described signal processing transport module is transmitted in corresponding transfusion bag gravity watch-dog by information or the mode of corresponding mobile display is: described signal processing transport module also comprises the movable signal discharger, described signal processing transport module sends by wireless communication protocol by described wireless communication transmissions device to the 3rd information that the major general receives, and the wireless signal transceiver of described transfusion bag gravity watch-dog receives the information that this wireless communication transmissions device sends by wireless communication protocol; Described signal processing transport module sends by mobile communication protocol to the 3rd information that the major general receives by described movable signal discharger, and described mobile display receives the information that this movable signal discharger sends by mobile communication protocol.
As further improvement of the utility model, first, second and third information that described wireless communication transmissions device will receive is sent by wireless communication protocol.
As further improvement of the utility model, second and third information that described movable signal discharger will receive is sent by mobile communication protocol.
As further improvement of the utility model, described transfusion bag gravity watch-dog points out the mode of warning to be by design after receiving information: described transfusion bag gravity watch-dog is provided with buzzer, this buzzer is electrically connected on the described control circuit board, this control circuit board control buzzer work, when described wireless signal transceiver received first and second information and is messaging in control circuit board, control circuit board control buzzer was not worked; When described wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the work of control circuit board control buzzer.
As further improvement of the utility model, described transfusion bag gravity watch-dog is provided with the prompting display lamp, described prompting display lamp be electrically connected on the described control circuit board and light-permeable outside transfusion bag gravity watch-dog, first, second and third information that described wireless signal transceiver will receive is messaging in control circuit board, and corresponding first, second and third cue of control circuit board is by setting the described prompting display lamp work of control:
When wireless signal transceiver received first information and is messaging in control circuit board, control circuit board control prompting display lamp was not worked; When wireless signal transceiver received second information and is messaging in control circuit board, control circuit board control prompting display lamp was bright; When wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the flicker of control circuit board control prompting display lamp.
As further improvement of the utility model, also be provided with power supply indicator, emergent display lamp and on and off switch on the described transfusion bag gravity watch-dog, described on and off switch powers in control circuit board, power supply indicator and emergent display lamp all are electrically connected on the control circuit board, this power supply indicator bright when the control circuit board energized (with the work of indication transfusion bag gravity watch-dog); Described control circuit board is by setting the emergent display lamp work of control:
As the residual amount of power supply, when the residual amount residue of described power supply 85%~90%, the emergent display lamp of control circuit board control is bright with the preset proportion of main power for described control circuit board; When the residual quantity not sufficient 85% of described power supply, the emergent display lamp flicker of control circuit board control, the work of the buzzer of control circuit board control simultaneously.
As further improvement of the utility model, described prompting display lamp sends the light of second kind of color; Described emergent display lamp sends the light of the third color; Described power supply indicator sends the light of the 4th kind of color.
Computer can connect big screen display screen in this utility model, the computer screen displaying contents is presented on the big screen display screen understands the drop progress at any time for patient in drop or other staff.
Infinite communication protocol in this utility model can adopt Wi-Fi agreement or ZigBee/Xbee agreement, also can be undertaken by the mode of modem.
During concrete enforcement, each transfusion bag gravity watch-dog all has its particular number, and each transfusion bag gravity watch-dog all has its independently memory address in computer, all memory address form computer address books and in the computer address book display working condition, computer simulation also shows transfusion bag drop process that the transfusion bag gravity watch-dog in all working is detected and is distinguished with this particular number.
COMPUTER DETECTION transfusion bag gravity watch-dog networking flow chart, described computer is the transfusion bag gravity watch-dog in the search work and corresponding transfusion bag gravity watch-dog is denoted as into net state automatically, also can be manually in the computer address book transfusion bag gravity watch-dog in the true testing and manually will work in transfusion bag gravity watch-dog be denoted as into net state, computer is simulated and is controlled at the transfusion bag drop process that the transfusion bag gravity watch-dog that has networked is detected by setting.
The beneficial effects of the utility model are: utilize weight sensing technology and wireless communication technology, grasp the drop progress in real time by the weight change that detects transfusion bag mid point dropping liquid, and drop weight change also is communicated to computer system by wireless communication technology, analyze by setting by computer system again, the result is delivered on the various display devices or directly reminds the nursing staff that the patient is served the most at last, can carry out intelligent monitoring to all the patient's drop processes in the hospital simultaneously by this utility model, and can accurately point out the corresponding nursing personnel work in due course, avoided causing unnecessary anxiety and flurried because of nursing staff's carelessness, and effectively reduce nursing staff's workload, safe and reliable.
Description of drawings
Fig. 1 is a framework sketch map of the present utility model;
Fig. 2 is a COMPUTER DETECTION transfusion bag gravity watch-dog networking flow chart described in the utility model;
Fig. 3 is the display lamp workflow diagram of transfusion bag gravity watch-dog described in the utility model.
The specific embodiment
Embodiment: a kind of intravenous drip injection monitoring system, comprise computer 3, some mobile displays 4 and some transfusion bag gravity watch-dogs 1, include signal processing transport module 2 in the described computer 3, described some transfusion bag gravity watch-dogs 1 are corresponding respectively to be detected and handles the weight information of each transfusion bag 5 and be messaging in signal processing transport module 2, signal processing transport module 2 with the information transmission that receives in computer 3, the transfusion state of each transfusion bag 5 simulated and shows by setup program by computer 3 according to the information that receives, computer 3 transmits information by setup program in signal processing transport module 2, signal processing transport module 2 is transmitted in corresponding transfusion bag gravity watch-dog 1 or corresponding mobile display 4 by information, point out warning by design after transfusion bag gravity watch-dog 1 receives information, mobile display 4 is received display reminding information after the information.
The mode that described some transfusion bag gravity watch-dogs 1 are corresponding respectively to be detected and handle the weight information of each transfusion bag 5 and be messaging in signal processing transport module 2 is: described transfusion bag gravity monitoring module 1 is for having gravity sensor, the watch-dog of control circuit board and wireless signal transceiver, described gravity sensor and wireless signal transceiver are corresponding respectively to be electrically connected with control circuit board, described gravity sensor converts the weight information of transfusion bag 5 magnitude of voltage to and is transferred to control circuit board, control circuit board converts magnitude of voltage digital signal to and is messaging in wireless signal transceiver, and the signal after wireless signal transceiver will be analyzed sends by wireless communication protocol; Described signal processing transport module 2 comprises the wireless communication transmissions device, and this wireless communication transmissions device receives the signal that this wireless signal transceiver sends by wireless communication protocol.
The transfusion state of each transfusion bag 5 simulated and shows by setup program by described computer 3 according to the information that receives, computer 3 transmits information by setup program: set weight/power ratio by described setting program, computer 3 is judged the actual weight of transfusion bag 5 and shows the transfusion progress in the progress bar mode that according to the information that receives simultaneous computer 3 obtains three kinds of comparing results with this actual weight and described weight/power ratio is compared by setting by setup program:
First comparing result is: in the time of in the actual weight of the transfusion bag 5 that computer 3 is judged is in above the scope more than weight/power ratio 20 is restrained, progress bar shows first kind of color (this example is blue);
Second comparing result is: surpass weight/power ratio 10 grams abovely to the scopes of 20 grams the time when the actual weight of the transfusion bag 5 that computer 3 is judged is in, progress bar shows second kind of color (this example is a yellow);
The 3rd comparing result is: in the time of in the actual weight of the transfusion bag 5 that computer 3 is judged is in above the scope below weight/power ratio 10 grams are reached, progress bar shows the third color (this example is for red);
Described signal processing transport module 2 is transmitted in corresponding transfusion bag gravity watch-dog 1 by information or the mode of corresponding mobile display 4 is: described signal processing transport module 2 also comprises the movable signal discharger, described signal processing transport module 2 sends by wireless communication protocol by described wireless communication transmissions device to the 3rd information that the major general receives, and the wireless signal transceiver of described transfusion bag gravity watch-dog 1 receives the information that this wireless communication transmissions device sends by wireless communication protocol; Described signal processing transport module 2 sends by mobile communication protocol to the 3rd information that the major general receives by described movable signal discharger, and described mobile display receives the information that this movable signal discharger sends by mobile communication protocol.
First, second and third information that described wireless communication transmissions device will receive is sent by wireless communication protocol.
Second and third information that described movable signal discharger will receive is sent by mobile communication protocol.
Described transfusion bag gravity watch-dog 1 points out the mode of warning to be by design after receiving information: described transfusion bag gravity watch-dog 1 is provided with buzzer, this buzzer is electrically connected on the described control circuit board, this control circuit board control buzzer work, when described wireless signal transceiver received first and second information and is messaging in control circuit board, control circuit board control buzzer was not worked; When described wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the work of control circuit board control buzzer.
Described transfusion bag gravity watch-dog 1 is provided with the prompting display lamp, described prompting display lamp be electrically connected on the described control circuit board and light-permeable outside transfusion bag gravity watch-dog 1, first, second and third information that described wireless signal transceiver will receive is messaging in control circuit board, and corresponding first, second and third cue of control circuit board is by setting the described prompting display lamp work of control:
When wireless signal transceiver received first information and is messaging in control circuit board, control circuit board control prompting display lamp was not worked; When wireless signal transceiver received second information and is messaging in control circuit board, control circuit board control prompting display lamp was bright; When wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the flicker of control circuit board control prompting display lamp.
Also be provided with power supply indicator, emergent display lamp and on and off switch on the described transfusion bag gravity watch-dog 1, described on and off switch powers in control circuit board, power supply indicator and emergent display lamp all are electrically connected on the control circuit board, this power supply indicator bright when the control circuit board energized (with the work of indication transfusion bag gravity watch-dog); Described control circuit board is by setting the emergent display lamp work of control:
As the residual amount of power supply, when the residual amount residue of described power supply 85%~90%, the emergent display lamp of control circuit board control is bright with the preset proportion of main power for described control circuit board; When the residual quantity not sufficient 85% of described power supply, the emergent display lamp flicker of control circuit board control, the work of the buzzer of control circuit board control simultaneously.
Described prompting display lamp sends the light of second kind of color (this example is for yellow); Described emergent display lamp sends the light of the third color (this example is for red); Described power supply indicator sends the light of the 4th kind of color (this example is for green).
Infinite communication protocol in this example can adopt Wi-Fi agreement or ZigBee/Xbee agreement, also can be undertaken by the mode of modem.
During concrete enforcement, each transfusion bag gravity watch-dog 1 all has its particular number, and each transfusion bag gravity watch-dog 1 all has its independently memory address in computer 3, all memory address form computer address books and in the computer address book display working condition, computer 3 simulations also show transfusion bag drop process that the transfusion bag gravity watch-dog 1 in all working is detected and are distinguished with this particular number.
COMPUTER DETECTION transfusion bag gravity watch-dog networking flow chart as shown in Figure 2, described computer 3 is the transfusion bag gravity watch-dog 1 in the search work and corresponding transfusion bag gravity watch-dog 1 is denoted as into net state automatically, also can be manually in the computer address book transfusion bag gravity watch-dog in the true testing 1 and manually will work in transfusion bag gravity watch-dog 1 be denoted as into net state, computer 3 is simulated and is controlled at the transfusion bag drop process that the transfusion bag gravity watch-dog 1 that has networked is detected by setting.
Utilize weight sensing technology and wireless communication technology, grasp the drop progress in real time by the weight change that detects transfusion bag 5 mid point dropping liquids, and drop weight change also is communicated to computer system by wireless communication technology, carry out analyzing and processing by computer 3 systems by setting again, the result is delivered on the various display devices or directly reminds the nursing staff that the patient is served the most at last, can carry out intelligent monitoring to all the patient's drop processes in the hospital simultaneously by this utility model, and can accurately point out the corresponding nursing personnel work in due course, avoided causing unnecessary anxiety and flurried because of nursing staff's carelessness, and effectively reduce nursing staff's workload, safe and reliable.
Claims (10)
1. monitoring system is injected in an intravenous drip, it is characterized in that: comprise computer (3), some mobile displays (4) and some transfusion bag gravity watch-dogs (1), include signal processing transport module (2) in the described computer, described some transfusion bag gravity watch-dogs (1) are corresponding respectively to be detected and handles the weight information of each transfusion bag (5) and be messaging in signal processing transport module (2), signal processing transport module (2) with the information transmission that receives in computer (3), the transfusion state of each transfusion bag (5) simulated and shows by setup program by computer (3) according to the information that receives, computer (3) transmits information by setup program in signal processing transport module (2), signal processing transport module (2) is transmitted in corresponding transfusion bag gravity watch-dog (1) or corresponding mobile display (4) by information, point out warning by design after transfusion bag gravity watch-dog (1) receives information, mobile display (4) is received display reminding information after the information.
2. intravenous drip injection monitoring system according to claim 1, it is characterized in that: the mode that described some transfusion bag gravity watch-dogs (1) are corresponding respectively to be detected and handle the weight information of each transfusion bag (5) and be messaging in signal processing transport module (2) is: described transfusion bag gravity monitoring module (1) is for having gravity sensor, the watch-dog of control circuit board and wireless signal transceiver, described gravity sensor and wireless signal transceiver are corresponding respectively to be electrically connected with control circuit board, described gravity sensor converts the weight information of transfusion bag (5) magnitude of voltage to and is transferred to control circuit board, control circuit board converts magnitude of voltage digital signal to and is messaging in wireless signal transceiver, and the signal after wireless signal transceiver will be analyzed sends by wireless communication protocol; Described signal processing transport module (2) comprises the wireless communication transmissions device, and this wireless communication transmissions device receives the signal that this wireless signal transceiver sends by wireless communication protocol.
3. intravenous drip injection monitoring system according to claim 1 and 2, it is characterized in that: the transfusion state of each transfusion bag (5) simulated and shows by setup program by described computer (3) according to the information that receives, computer (3) transmits information by setup program: set weight/power ratio by described setting program, computer (3) is judged the actual weight of transfusion bag (5) and shows the transfusion progress in the progress bar mode that according to the information that receives simultaneous computer (3) obtains three kinds of comparing results with this actual weight and described weight/power ratio is compared by setting by setup program:
First comparing result is: in the time of in the actual weight of the transfusion bag (5) that computer (3) is judged is in above the scope more than weight/power ratio 20 is restrained, progress bar shows first kind of color;
Second comparing result is: when the actual weight of the transfusion bag (5) that computer (3) is judged be in surpass weight/power ratio 10 grams above to the scopes of 20 grams the time, second kind of color of progress bar demonstration;
The 3rd comparing result is: in the time of in the actual weight of the transfusion bag (5) that computer (3) is judged is in above the scope below weight/power ratio 10 grams are reached, progress bar shows the third color;
Computer (3) is converted into first, second and third information and is transferred to signal processing transport module (2) by setting corresponding first, second and third comparing result that contrast is obtained.
4. intravenous drip injection monitoring system according to claim 3, it is characterized in that: described signal processing transport module (2) is transmitted in corresponding transfusion bag gravity watch-dog (1) by information or the mode of corresponding mobile display (4) is: described signal processing transport module (2) also comprises the movable signal discharger, described signal processing transport module (2) sends by wireless communication protocol by described wireless communication transmissions device to the 3rd information that the major general receives, and the wireless signal transceiver of described transfusion bag gravity watch-dog (1) receives the information that this wireless communication transmissions device sends by wireless communication protocol; Described signal processing transport module (2) sends by mobile communication protocol to the 3rd information that the major general receives by described movable signal discharger, and described mobile display receives the information that this movable signal discharger sends by mobile communication protocol.
5. intravenous drip injection monitoring system according to claim 4, it is characterized in that: first, second and third information that described wireless communication transmissions device will receive is sent by wireless communication protocol.
6. intravenous drip injection monitoring system according to claim 4, it is characterized in that: second and third information that described movable signal discharger will receive is sent by mobile communication protocol.
7. according to claim 4 or 5 described intravenous drip injection monitoring systems, it is characterized in that: described transfusion bag gravity watch-dog (1) points out the mode of warning to be by design after receiving information: described transfusion bag gravity watch-dog (1) is provided with buzzer, this buzzer is electrically connected on the described control circuit board, this control circuit board control buzzer work, when described wireless signal transceiver received first and second information and is messaging in control circuit board, control circuit board control buzzer was not worked; When described wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the work of control circuit board control buzzer.
8. intravenous drip injection monitoring system according to claim 7, it is characterized in that: described transfusion bag gravity watch-dog (1) is provided with the prompting display lamp, described prompting display lamp be electrically connected on the described control circuit board and light-permeable outside transfusion bag gravity watch-dog (1), first, second and third information that described wireless signal transceiver will receive is messaging in control circuit board, and corresponding first, second and third cue of control circuit board is by setting the described prompting display lamp work of control:
When wireless signal transceiver received first information and is messaging in control circuit board, control circuit board control prompting display lamp was not worked; When wireless signal transceiver received second information and is messaging in control circuit board, control circuit board control prompting display lamp was bright; When wireless signal transceiver receives the 3rd information and is messaging in control circuit board, the flicker of control circuit board control prompting display lamp.
9. intravenous drip injection monitoring system according to claim 8, it is characterized in that: also be provided with power supply indicator, emergent display lamp and on and off switch on the described transfusion bag gravity watch-dog (1), described on and off switch powers in control circuit board, power supply indicator and emergent display lamp all are electrically connected on the control circuit board, and this power supply indicator is bright when the control circuit board energized; Described control circuit board is by setting the emergent display lamp work of control:
As the residual amount of power supply, when the residual amount residue of described power supply 85%~90%, the emergent display lamp of control circuit board control is bright with the preset proportion of main power for described control circuit board; When the residual quantity not sufficient 85% of described power supply, the emergent display lamp flicker of control circuit board control, the work of the buzzer of control circuit board control simultaneously.
10. intravenous drip injection monitoring system according to claim 8, it is characterized in that: described prompting display lamp sends the light of second kind of color; Described emergent display lamp sends the light of the third color; Described power supply indicator sends the light of the 4th kind of color.
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CN2009202331003U CN201492745U (en) | 2009-07-14 | 2009-07-14 | Monitoring system for intravenous drip infusion |
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CN2009202331003U CN201492745U (en) | 2009-07-14 | 2009-07-14 | Monitoring system for intravenous drip infusion |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101954129A (en) * | 2009-07-14 | 2011-01-26 | 支宏法 | Intravenous drip infusion monitoring system |
CN104740722A (en) * | 2015-03-30 | 2015-07-01 | 赵英俊 | Automatic transfusion management system |
CN105664296A (en) * | 2016-03-12 | 2016-06-15 | 上海大学 | Display system of medical infusion device |
-
2009
- 2009-07-14 CN CN2009202331003U patent/CN201492745U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101954129A (en) * | 2009-07-14 | 2011-01-26 | 支宏法 | Intravenous drip infusion monitoring system |
CN101954129B (en) * | 2009-07-14 | 2013-06-05 | 昆山福宏康复科技有限公司 | Intravenous drip infusion monitoring system |
CN104740722A (en) * | 2015-03-30 | 2015-07-01 | 赵英俊 | Automatic transfusion management system |
CN104740722B (en) * | 2015-03-30 | 2017-12-05 | 赵英俊 | Automatic infusion management system |
CN105664296A (en) * | 2016-03-12 | 2016-06-15 | 上海大学 | Display system of medical infusion device |
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