CN105653877B - A kind of infusion data processing system and method - Google Patents
A kind of infusion data processing system and method Download PDFInfo
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- CN105653877B CN105653877B CN201610054786.4A CN201610054786A CN105653877B CN 105653877 B CN105653877 B CN 105653877B CN 201610054786 A CN201610054786 A CN 201610054786A CN 105653877 B CN105653877 B CN 105653877B
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Abstract
The present invention provides a kind of infusion data processing system and method, and wherein system includes the fast sensor of drop for generating level jump according to dropping liquid, for recording the dropping liquid logging modle of each numerical value during dropping liquid and for according to the computing module that the numerical value of record carries out liquid droping speed, dropping liquid residual capacity, remaining time calculate;The present invention proposes the system and method for carrying out data monitoring to infusion, drips fast sensor when each liquid drips, and output level can generate a jump, is counted dropping liquid number with this and is converted to obtain liquid droping speed, dropping liquid residual capacity, remaining time;This method calculating speed is fast, and the accuracy that data calculate is high, can provide accurate reference data for treatment and abnormal judgement.
Description
Technical field
The invention mainly relates to infusion data technical fields, and in particular to a kind of infusion data processing system and method.
Background technique
Infusion is one of most common treatment means of hospital, and medical worker and patient need continuous prison in infusion process
Depending on and control infusion liquid droping speed, transfusion time, Residual liquid, remaining time etc., also have infusion monitoring system, but number at present
It is not high according to the accuracy of processing, it causes information to provide deviation, is unable to reach the effect for mitigating medical worker's burden, also can not be to control
It treats and accurate reference data is provided.
Summary of the invention
Technical problem to be solved by the invention is to provide a kind of infusion data processing system and methods, propose infusion alarming
Device drips slowdown monitoring and dropping liquid residual capacity, the calculation method of remaining time, the interval time dripped by counting every two dropping liquid
The drop speed of present infusion can be conversed with faster speed, the accuracy of the data obtained is high, provides for treatment and abnormal judgement
Accurate reference data.
The technical scheme to solve the above technical problems is that a kind of infusion data processing system, including drop speed pass
Sensor, dropping liquid logging modle and computing module;
The fast sensor of the drop, for when detecting that drop drips, generating a level jump;Fast sensor is dripped to pass through
One infrared tube is made;
The dropping liquid logging modle changes for creating timing variable, and according to the adjacent level jump twice of generation
The numerical value of the timing variable is write, and records the interval time of adjacent two drops dropping liquid according to the numerical value change of timing variable;Also use
The total degree of the level jump of fast sensor is dripped during record dropping liquid;
The computing module, for calculating liquid droping speed per minute according to interval time;It is also used to be dripped according to dropping liquid
Under total degree and the total capacity of infusion bottle calculate the dropping liquid residual capacity in Liquid dropping bottle;And for according to drop per minute
Liquid speed degree calculates the remaining time that dropping liquid drips off.
The beneficial effects of the present invention are: proposing the scheme for carrying out data monitoring to infusion, fast sensor is dripped in each liquid
When dripping, output level can generate a jump, counted dropping liquid number with this and converted to obtain liquid droping speed, dropping liquid
Residual capacity, remaining time, the speed that this method calculates is fast, and the accuracy that data calculate is high, can mention for treatment and abnormal judgement
For accurate reference data.
Based on the above technical solution, the present invention can also be improved as follows.
Further, the dropping liquid logging modle includes that timing control unit, dropping liquid interval time recording unit and dropping liquid are total
Number statistic unit;
The timing control unit, the initial value of timing variable Flag, Flag for initializing creation are 0;It is also used to
When level jump, if Flag=1, transmission, which is ceased and desisted order, stops timing to dropping liquid interval time recording unit;If Flag=
0, then start to send clocked command to dropping liquid interval time recording unit, while Flag is assigned a value of 1, when level jump next time
When, Flag=1, then send and cease and desist order to dropping liquid interval time recording unit at this time;
The dropping liquid interval time recording unit starts timing when receiving clocked command;It ceases and desist order when receiving
When, stop timing, to obtain the interval time of adjacent two drops dropping liquid, and timing completion signal is fed back into timing control unit
The value of Flag is initialized;
The dropping liquid total degree statistic unit, total time for dripping the level jump of fast sensor in the process for recording dropping liquid
Number, i.e., the total degree that dropping liquid drips during dropping liquid.
Using the beneficial effect of above-mentioned further scheme is: can be with by counting interval time that every two dropping liquid drips
The drop that faster speed converses present infusion is fast, after statistics and is initialized, ensure that the accuracy of data.
Further, when the computing module includes liquid droping speed computing unit, dropping liquid residual capacity computing unit and residue
Between computing unit;
The liquid droping speed computing unit calculates dropping liquid speed per minute using formula S p=60 ÷ Ts (drop/minute)
Degree, wherein Sp is liquid droping speed per minute, and Ts is the interval time of adjacent two drops dropping liquid, and 60 be time constant;
The dropping liquid residual capacity computing unit calculates dropping liquid residual capacity using formula Cl=Ct- (Ns × Co),
Middle Cl is dropping liquid residual capacity, and Ct is the total capacity of present infusion bottle, and Ns is the total degree that drop drips, and Co is every drop dropping liquid
Capacity;
The remaining time computing unit calculates dropping liquid using formula Tl=Cl ÷ (Sp × Co) (unit: minute) and drips off
Remaining time, wherein Tl (unit: minute) is remaining time for dripping off of dropping liquid, and Cl is dropping liquid residual capacity (unit: milliliter),
Sp is liquid droping speed per minute, and Co is the capacity (unit: milliliter) of every drop dropping liquid.
Beneficial effect using above-mentioned further scheme is: being calculated by liquid droping speed calculation formula, dropping liquid residual capacity
Formula, remaining time calculation formula can calculate each monitoring data, improve the accuracy of data.
Further, further include global initialization module for being initialized to entire computing system.
Beneficial effect using above-mentioned further scheme is: carrying out global initialization, system is synchronous with dropping liquid realization, just
In the high data of acquisition accuracy.
Another technical solution that the present invention solves above-mentioned technical problem is as follows: a kind of infusion data processing method, including such as
Lower step:
Step S1: when detecting that drop drips, a level jump is generated;
Step S2: creation timing variable, and the timing variable is rewritten according to the adjacent level jump twice of generation
Numerical value, and according to the numerical value change of timing variable record it is adjacent two drop dropping liquid interval times;
Step S3: the total degree of the level jump of fast sensor is dripped during record dropping liquid;
Step S4: liquid droping speed per minute is calculated according to interval time;
Step S5: the total capacity of the total degree and infusion bottle that are dripped according to dropping liquid calculates the appearance of the dropping liquid residue in Liquid dropping bottle
Amount;
Step S6: the remaining time that dropping liquid drips off is calculated according to liquid droping speed per minute.
Further, the specific steps of step S2 are realized are as follows:
Step S201: when level jump, if Flag=1, S203 is thened follow the steps;If Flag=0 is thened follow the steps
S202, while Flag is assigned a value of 1, when level jump next time, Flag=1, thens follow the steps S203 at this time;
Step S202: start timing;
Step S203: stopping timing, to obtain the interval time of adjacent two drops dropping liquid, and initializes timing variable Flag
Numerical value, the initial value of Flag is 0.
Further, liquid droping speed per minute is calculated method particularly includes: count using formula S p=60 ÷ Ts (drop/minute)
Liquid droping speed per minute is calculated, wherein Sp is liquid droping speed per minute, and Ts is the interval time of adjacent two drops dropping liquid, and 60 are
Time constant.
Further, dropping liquid residual capacity is calculated method particularly includes: calculate dropping liquid using formula Cl=Ct- (Ns × Co)
Residual capacity, wherein Cl (unit: milliliter) is dropping liquid residual capacity, and Ct (unit: milliliter) is the total capacity of present infusion bottle, Ns
For the total degree that drop drips, Co is the capacity (unit: milliliter) of every drop dropping liquid.
Further, the remaining time that dropping liquid drips off is calculated method particularly includes: (single using formula Tl=Cl ÷ (Sp × Co)
Position: minute) remaining time that dropping liquid drips off is calculated, wherein Tl (unit: minute) is the remaining time that dropping liquid drips off, and Cl is drop
Liquid residual capacity, Sp are liquid droping speed per minute, and Co is the capacity of every drop dropping liquid.
Further, before executing the step S1, further include the steps that initializing entire computing system.
Detailed description of the invention
Fig. 1 is the module frame chart of computing system of the present invention;
Fig. 2 is the method flow diagram of calculation method of the present invention;
Fig. 3 is the specific embodiment flow chart of the method for the present invention.
Specific embodiment
The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and
It is non-to be used to limit the scope of the invention.
As shown in Figure 1, a kind of infusion data processing system, including drip fast sensor, dropping liquid logging modle and computing module;
The fast sensor of the drop, for when detecting that drop drips, generating a level jump;The fast sensor of the drop
The sensor being made of groove type photoelectric switch, groove type photoelectric switch are in the nature one group mutually to the infrared transmitting tube penetrated and infrared
Reception pipe, when drop passes through groove profile switch room, folding, dispersion effect of the meeting due to light, the infrared light for causing reception pipe to receive become
Change and then influences sensor output, i.e. level jump;
The dropping liquid logging modle changes for creating timing variable, and according to the adjacent level jump twice of generation
The numerical value of the timing variable is write, and records the interval time of adjacent two drops dropping liquid according to the numerical value change of timing variable;Also use
The total degree of the level jump of fast sensor is dripped during record dropping liquid;
The computing module, for calculating liquid droping speed per minute according to interval time;It is also used to be dripped according to dropping liquid
Under total degree and the total capacity of infusion bottle calculate the dropping liquid residual capacity in Liquid dropping bottle;And for according to drop per minute
Liquid speed degree calculates the remaining time that dropping liquid drips off.
The dropping liquid logging modle includes timing control unit, dropping liquid interval time recording unit and dropping liquid total degree statistics
Unit;
The timing control unit, the initial value of timing variable Flag, Flag for initializing creation are 0;It is also used to
When level jump, if Flag=1, transmission, which is ceased and desisted order, stops timing to dropping liquid interval time recording unit;If Flag=
0, then start to send clocked command to dropping liquid interval time recording unit, while Flag is assigned a value of 1, when level jump next time
When, Flag=1, then send and cease and desist order to dropping liquid interval time recording unit at this time;
The dropping liquid interval time recording unit starts timing when receiving clocked command;It ceases and desist order when receiving
When, stop timing, to obtain the interval time of adjacent two drops dropping liquid, and timing completion signal is fed back into timing control unit
The value of Flag is initialized;
The dropping liquid total degree statistic unit, total time for dripping the level jump of fast sensor in the process for recording dropping liquid
Number, i.e., the total degree that dropping liquid drips during dropping liquid.
The drop speed of present infusion can be conversed with faster speed by counting the interval time that every two dropping liquid drips,
It after statistics and is initialized, ensure that the accuracy of data.
The computing module includes liquid droping speed computing unit, dropping liquid residual capacity computing unit and remaining time calculating list
Member;
The liquid droping speed computing unit calculates dropping liquid speed per minute using formula S p=60 ÷ Ts (drop/minute)
Degree, wherein Sp is liquid droping speed per minute, and Ts is the interval time of adjacent two drops dropping liquid, and 60 be time constant;
The dropping liquid residual capacity computing unit calculates dropping liquid residual capacity using formula Cl=Ct- (Ns × Co),
Middle Cl is dropping liquid residual capacity (unit: milliliter), and Ct is the total capacity (unit: milliliter) of present infusion bottle, and Ns drips for drop
Total degree, Co be it is every drop dropping liquid capacity (unit: milliliter);
The remaining time computing unit calculates dropping liquid using formula Tl=Cl ÷ (Sp × Co) (unit: minute) and drips off
Remaining time, wherein Tl (unit: minute) is remaining time for dripping off of dropping liquid, and Cl is dropping liquid residual capacity (unit: milliliter),
Sp is liquid droping speed (drop/minute) per minute, and Co is the capacity (unit: milliliter) of every drop dropping liquid.The drop volume of perfusion tube
It is general that there are three types of specifications: 10ml/ drop, 15ml/ drop, 20ml/ drop;Specifically, the specification of 15ml/ drop is taken to be calculated, point
Formula Cl=Ct- (Ns × 15) is not obtained and calculates dropping liquid residual capacity, and obtains formula Tl=Cl ÷ (Sp × 15) calculating
The remaining time that dropping liquid drips off out.
It further include the global initialization module for being initialized to entire computing system.Global initialization is carried out,
System is synchronous with dropping liquid realization, the high data of readily available accuracy.
As shown in Fig. 2, a kind of infusion data processing method, includes the following steps:
Step S1: when detecting that drop drips, a level jump is generated;
Step S2: creation timing variable, and the timing variable is rewritten according to the adjacent level jump twice of generation
Numerical value, and according to the numerical value change of timing variable record it is adjacent two drop dropping liquid interval times;
Step S3: the total degree of the level jump of fast sensor is dripped during record dropping liquid;
Step S4: liquid droping speed per minute is calculated according to interval time;
Step S5: the total capacity of the total degree and infusion bottle that are dripped according to dropping liquid calculates the appearance of the dropping liquid residue in Liquid dropping bottle
Amount;
Step S6: the remaining time that dropping liquid drips off is calculated according to liquid droping speed per minute.
Realize the specific steps of step S2 are as follows:
Step S201: when level jump, if Flag=1, S203 is thened follow the steps;If Flag=0 is thened follow the steps
S202, while Flag is assigned a value of 1, when level jump next time, Flag=1, thens follow the steps S203 at this time;
Step S202: start timing;
Step S203: stopping timing, to obtain the interval time of adjacent two drops dropping liquid, and initializes timing variable Flag
Numerical value, the initial value of Flag is 0.
Calculate liquid droping speed per minute method particularly includes: calculate often using formula S p=60 ÷ Ts (drop/minute)
The liquid droping speed of minute, wherein Sp is liquid droping speed per minute, and Ts is the interval times of adjacent two drops dropping liquid, and 60 is normal for the time
Amount.
Calculate dropping liquid residual capacity method particularly includes: calculate dropping liquid residue appearance using formula Cl=Ct- (Ns × Co)
Amount, wherein Cl (unit: milliliter) is dropping liquid residual capacity, and Ct (unit: milliliter) is the total capacity of present infusion bottle, and Ns is drop
The total degree to drip, Co are the capacity (unit: milliliter) of every drop dropping liquid.
Calculate the remaining time that dropping liquid drips off method particularly includes: (unit: divide using formula Tl=Cl ÷ (Sp × Co)
Clock) remaining time that dropping liquid drips off is calculated, wherein Tl (unit: minute) is the remaining time that dropping liquid drips off, and Cl is surplus for dropping liquid
Covolume amount, Sp are liquid droping speed per minute, and Co is the capacity (unit: milliliter) of every drop dropping liquid.
Before executing the step S1, further include the steps that initializing entire computing system.
Specific implementation method, as shown in Figure 3:
Step 001: program brings into operation;
Step 002: initialization hardware system;
Step 003: when detecting that drop drips, generating a level jump;
Step 004: when level jump, judging that the value of the Flag of creation thens follow the steps 006 if Flag=1;If
Flag=0 thens follow the steps 005, while Flag is assigned a value of 1, and when level jump next time, Flag=1, then executed at this time
Step 006;
Step 005: starting timing;
Step 006: stopping timing, to obtain the interval time (for a cycle) of adjacent two drops dropping liquid, and initialize
The numerical value of timing variable Flag, the initial value of Flag are 0;
It is synchronous to execute step 007 when step 003 executes;
Step 007: the total degree of the level jump of fast sensor is dripped during record dropping liquid;
Step 008: liquid droping speed per minute is calculated according to interval time;
Step 009: being calculated according to the total degree of level jump (i.e. dropping liquid drip total degree) and the total capacity of infusion bottle
Dropping liquid residual capacity in Liquid dropping bottle out;
Step 010: the remaining time that dropping liquid drips off is calculated according to liquid droping speed per minute;
Step 011: resetting and count;
Step 012: whether terminating, be, then follow the steps 013, otherwise, execute step 003;
Step 013: EP (end of program).
The present invention proposes the method for carrying out data monitoring to infusion, drips fast sensor when each liquid drips, output
Level can generate a jump, counted dropping liquid number with this and converted to obtain liquid droping speed, dropping liquid residual capacity, residue
The accuracy of time, data are high, provide accurate reference data for treatment.
The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and
Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (4)
1. a kind of infusion data processing system, which is characterized in that including dripping fast sensor, dropping liquid logging modle and computing module;
The fast sensor of the drop, for when detecting that drop drips, generating a level jump;
The dropping liquid logging modle, for creating timing variable, and according to the adjacent level jump twice of generation to rewrite
The numerical value of timing variable is stated, and records the interval time of adjacent two drops dropping liquid according to the numerical value change of timing variable;It is also used to remember
Record the total degree that dropping liquid drips the level jump of fast sensor in the process;The dropping liquid logging modle includes timing control unit, drop
Liquid interval time recording unit and dropping liquid total degree statistic unit;
The timing control unit, the initial value of timing variable Flag, Flag for initializing creation are 0;It is also used to when electricity
When flat jump, if Flag=1, transmission, which is ceased and desisted order, stops timing to dropping liquid interval time recording unit;If Flag=0,
Start to send clocked command to dropping liquid interval time recording unit, while Flag is assigned a value of 1, when level jump next time,
Flag=1 at this time then sends and ceases and desist order to dropping liquid interval time recording unit;
The dropping liquid interval time recording unit starts timing when receiving clocked command;When receive cease and desist order when,
Stop timing, to obtain the interval time of adjacent two drops dropping liquid, and timing completion signal is fed back to timing control unit will
The value of Flag initializes;
The dropping liquid total degree statistic unit, the total degree for dripping the level jump of fast sensor in the process for recording dropping liquid, i.e.,
The total degree that dropping liquid drips during dropping liquid;
The computing module, for calculating liquid droping speed per minute according to interval time;It is also used to be dripped according to dropping liquid
The total capacity of total degree and infusion bottle calculates the dropping liquid residual capacity in Liquid dropping bottle;And for according to dropping liquid speed per minute
Degree calculates the remaining time that dropping liquid drips off;
The computing module includes liquid droping speed computing unit, dropping liquid residual capacity computing unit and remaining time computing unit;
The liquid droping speed computing unit calculates liquid droping speed per minute using formula S p=60 ÷ Ts, and wherein Sp is every point
The liquid droping speed of clock, Ts are the interval time of adjacent two drops dropping liquid, and 60 be time constant;
The dropping liquid residual capacity computing unit calculates dropping liquid residual capacity using formula Cl=Ct- (Ns × Co), wherein Cl
For dropping liquid residual capacity, Ct is the total capacity of present infusion bottle, and Ns is the total degree that drop drips, and Co is the appearance of every drop dropping liquid
Amount;
The remaining time computing unit calculates the remaining time that dropping liquid drips off using formula Tl=Cl ÷ (Sp × Co), wherein
Tl is the remaining time that dropping liquid drips off, and Cl is dropping liquid residual capacity, and Sp is liquid droping speed per minute, and Co is the appearance of every drop dropping liquid
Amount.
2. a kind of infusion data processing system according to claim 1, which is characterized in that further include for calculating system to entire
The global initialization module that system is initialized.
3. a kind of infusion data processing method, which comprises the steps of:
Step S1: when detecting that drop drips, a level jump is generated;
Step S2: creating timing variable, and the number of the timing variable is rewritten according to the adjacent level jump twice of generation
Value, and adjacent two interval times for dripping dropping liquid were recorded according to the numerical value change of timing variable;Realize the specific steps of step S2 are as follows:
Step S201: when level jump, if Flag=1, S203 is thened follow the steps;If Flag=0 thens follow the steps S202,
Flag is assigned a value of 1 simultaneously, when level jump next time, Flag=1, thens follow the steps S203 at this time;
Step S202: start timing;
Step S203: stopping timing, to obtain the interval time of adjacent two drops dropping liquid, and initializes the number of timing variable Flag
Value, the initial value of Flag are 0;
Step S3: the total degree of the level jump of fast sensor is dripped during record dropping liquid;
Step S4: liquid droping speed per minute is calculated according to interval time;
Step S5: the total capacity of the total degree and infusion bottle that are dripped according to dropping liquid calculates the dropping liquid residual capacity in Liquid dropping bottle;
Step S6: the remaining time that dropping liquid drips off is calculated according to liquid droping speed per minute;
Wherein, liquid droping speed per minute is calculated method particularly includes: calculate drop per minute using formula S p=60 ÷ Ts
Liquid speed degree, wherein Sp is liquid droping speed per minute, and Ts is the interval time of adjacent two drops dropping liquid, and 60 be time constant;
Calculate dropping liquid residual capacity method particularly includes: dropping liquid residual capacity is calculated using formula Cl=Ct- (Ns × Co),
Middle Cl is dropping liquid residual capacity, and Ct is the total capacity of present infusion bottle, and Ns is the total degree that drop drips, and Co is every drop dropping liquid
Capacity;
Calculate the remaining time that dropping liquid drips off method particularly includes: calculate dropping liquid using formula Tl=Cl ÷ (Sp × Co) and drip off
Remaining time, wherein Tl is remaining time for dripping off of dropping liquid, and Cl is dropping liquid residual capacity, and Sp is liquid droping speed per minute,
Co is the capacity of every drop dropping liquid.
4. a kind of infusion data processing method according to claim 3, which is characterized in that before executing the step S1, also
Include the steps that initializing entire computing system.
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CN110019864A (en) * | 2017-08-29 | 2019-07-16 | 丽宝大数据股份有限公司 | A kind of biological information analytical equipment and its method for estimating cosmetic products residual capacity |
CN110302448A (en) * | 2019-07-12 | 2019-10-08 | 湖南新云医疗装备工业有限公司 | A kind of bedside terminal of monitoring infusion, system, monitoring infusion method and skin test monitoring method |
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CN2559360Y (en) * | 2002-08-02 | 2003-07-09 | 天津医科大学附属肿瘤医院 | Intelligent infusion monitoring instrument |
CN100406074C (en) * | 2004-04-08 | 2008-07-30 | 上海市卢湾区青少年活动中心 | Automatic system for monitoring transfusion |
AU2006244085B2 (en) * | 2005-05-10 | 2012-12-13 | Carefusion 303, Inc. | Medication safety system featuring a multiplexed RFID interrogator panel |
CN201049117Y (en) * | 2007-01-30 | 2008-04-23 | 马云峰 | Minitype infusion monitoring alarm device |
CN101732778B (en) * | 2009-11-19 | 2012-07-25 | 重庆理工大学 | Intelligent system for monitoring infusion |
US9151646B2 (en) * | 2011-12-21 | 2015-10-06 | Deka Products Limited Partnership | System, method, and apparatus for monitoring, regulating, or controlling fluid flow |
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