CN105653877A - Infusion data processing system and method - Google Patents
Infusion data processing system and method Download PDFInfo
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- CN105653877A CN105653877A CN201610054786.4A CN201610054786A CN105653877A CN 105653877 A CN105653877 A CN 105653877A CN 201610054786 A CN201610054786 A CN 201610054786A CN 105653877 A CN105653877 A CN 105653877A
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Abstract
The invention provides an infusion data processing system and method. The system comprises a dripping speed sensor, a dropping liquid recording module and a calculating module. The dripping speed sensor is used for producing level jump according to dropping liquid, the dropping liquid recording module is used for recording numerical values in the liquid dropping process, and the calculating module is used for calculating the liquid dropping speed, the dropping liquid residual capacity and the residual time. According to the system and method, infusion data is monitored, and the output level of the dripping sensor produces one jump every time liquid drops, so that the liquid dropping frequency is calculated, and the liquid dropping speed, the dropping liquid residual capacity and the residual time are obtained through conversion. According to the method, the calculation speed is high, the data calculation accuracy degree is high, and accurate reference data can be provided for treatment and abnormal judgment.
Description
Technical field
The present invention relates generally to infusion data technical field, is specifically related to a kind of infusion data treatment system and method.
Background technology
Transfusion is one of the most frequently used treatment means of hospital, in infusion process, medical matters personnel and needs of patients constantly monitor and control the liquid droping speed of transfusion, transfusion time, Residual liquid, remaining time etc., also there is infusion monitoring system at present, but the accuracy of data processing is not high, information is caused to provide deviation, the effect alleviating medical matters personnel's burden cannot be reached, also cannot provide reference data accurately for treatment.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of infusion data treatment system and method, propose infusion alarm and drip slowdown monitoring and dropping liquid surplus capacity, the method for calculation of remaining time, it is fast that the interval time dripped by adding up every two dropping liquids can converse dripping of current transfusion with speed faster, the accuracy height of gained data, for treatment and abnormal judgement provide reference data accurately.
The technical scheme that the present invention solves the problems of the technologies described above is as follows: a kind of infusion data treatment system, comprises and drips speed sensor, dropping liquid record module and calculate module;
Described fast sensor, for when detecting that drop drips, producing a level saltus step; Drip speed sensor to be made by an infrared tube;
Described dropping liquid record module, for creating timing variable, and rewrites the numerical value of described timing variable according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable; Total number of times of the level saltus step also dripping speed sensor in dropping liquid process for recording;
Described calculating module, for according to the liquid droping speed calculating every minute interval time; The dropping liquid surplus capacity also calculating in Liquid dropping bottle for the total volume of total number of times of dripping according to dropping liquid and infusion bottle; And the remaining time for having dripped according to the liquid droping speed calculating dropping liquid of every minute.
The invention has the beneficial effects as follows: the scheme proposing transfusion to be carried out data monitoring, drip speed sensor under each fluid drips time, its output level can produce a saltus step, add up dropping liquid number of times with this and converted and obtain liquid droping speed, dropping liquid surplus capacity, remaining time, the speed that the method calculates is fast, the accuracy height that data calculate, can be treatment and abnormal judgement provides reference data accurately.
On the basis of technique scheme, the present invention can also do following improvement.
Further, described dropping liquid record module comprises the total number of times statistic unit of timing control unit, dropping liquid record cell interval time and dropping liquid;
Described timing control unit, for the timing variable Flag that initialize creates, the initial value of Flag is 0; Also for when level saltus step, if Flag=1, then sending ceases and desist order to dropping liquid record cell interval time stops timing; If Flag=0, then starting to send timing order to dropping liquid record cell interval time, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then send and cease and desist order to dropping liquid record cell interval time;
Described dropping liquid record cell interval time, when receiving timing order, starts timing; When receive cease and desist order time, stop timing, thus obtain the interval time of adjacent two dropping liquids, and timing is completed signal feedback to timing control unit by the value initialize of Flag;
The total number of times statistic unit of described dropping liquid, for recording total number of times of the level saltus step dripping speed sensor in dropping liquid process, total number of times that namely in dropping liquid process, dropping liquid drips.
Adopt the useful effect of above-mentioned further scheme to be: speed can be dripped with what speed faster converse current transfusion by adding up interval time that every two dropping liquids drip, after statistics and carry out initialize, ensure that the accuracy of data.
Further, described calculating module comprises liquid droping speed calculating unit, dropping liquid surplus capacity calculating unit and calculates unit remaining time;
Described liquid droping speed calculates unit and utilizes formula S p=60 �� Ts (droplet/minute) to calculate the liquid droping speed of every minute, and wherein Sp is the liquid droping speed of every minute, and Ts is the interval time of adjacent two dropping liquids, and 60 is time constant;
Described dropping liquid surplus capacity calculates unit and utilizes formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl is dropping liquid surplus capacity, Ct is the total volume of current infusion bottle, and Ns is total number of times that drop drips, and Co is the capacity of often dropping liquid;
Calculate the remaining time that unit utilizes formula Tl=Cl �� (Sp �� Co) (unit: minute) to calculate dropping liquid and dripped described remaining time, the remaining time that wherein Tl (unit: minute) has dripped for dropping liquid, Cl is dropping liquid surplus capacity (unit: milliliter), Sp is the liquid droping speed of every minute, and Co is the capacity (unit: milliliter) of often dropping liquid.
Adopt the useful effect of above-mentioned further scheme to be: by liquid droping speed calculation formula, dropping liquid surplus capacity calculation formula, remaining time calculation formula can calculate each monitoring data, improve the accuracy of data.
Further, the overall initialize module for whole computing system being carried out initialize is also comprised.
Adopting the useful effect of above-mentioned further scheme to be: the initialize carrying out the overall situation, system realizes synchronous with dropping liquid, is convenient to the data that acquisition accuracy is high.
Another technical scheme that the present invention solves the problems of the technologies described above is as follows: a kind of infusion data treatment process, comprises the steps:
Step S1: when detecting that drop drips, produces a level saltus step;
Step S2: create timing variable, and the numerical value of described timing variable is rewritten according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable;
Step S3: the total number of times dripping the level saltus step of speed sensor in record dropping liquid process;
Step S4: according to the liquid droping speed calculating every minute interval time;
Step S5: the dropping liquid surplus capacity that the total number of times dripped according to dropping liquid and the total volume of infusion bottle calculate in Liquid dropping bottle;
Step S6: the remaining time dripped according to the liquid droping speed calculating dropping liquid of every minute.
Further, it is achieved the concrete steps of step S2 are:
Step S201: when level saltus step, if Flag=1, then performs step S203; If Flag=0, then performing step S202, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then perform step S203;
Step S202: start timing;
Step S203: stop timing, thus obtain the interval time of adjacent two dropping liquids, and the numerical value of initialize timing variable Flag, the initial value of Flag is 0.
Further, the concrete grammar of the liquid droping speed calculating every minute is: utilize formula S p=60 �� Ts (droplet/minute) to calculate the liquid droping speed of every minute, wherein Sp is the liquid droping speed of every minute, and Ts is the interval time of adjacent two dropping liquids, and 60 is time constant.
Further, the concrete grammar calculating dropping liquid surplus capacity is: utilize formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl (unit: milliliter) is dropping liquid surplus capacity, the total volume that Ct (unit: milliliter) is current infusion bottle, Ns is total number of times that drop drips, and Co is the capacity (unit: milliliter) of often dropping liquid.
Further, calculating the concrete grammar of remaining time that dropping liquid dripped is: utilize the remaining time that formula Tl=Cl �� (Sp �� Co) (unit: minute) calculates dropping liquid and dripped, the remaining time that wherein Tl (unit: minute) has dripped for dropping liquid, Cl is dropping liquid surplus capacity, Sp is the liquid droping speed of every minute, and Co is the capacity of often dropping liquid.
Further, before performing described step S1, the step that whole computing system is carried out initialize is also comprised.
Accompanying drawing explanation
Fig. 1 is the module frame chart of computing system of the present invention;
Fig. 2 is the method flow diagram of method of calculation of the present invention;
Fig. 3 is the specific embodiment schema of the inventive method.
Embodiment
The principle of the present invention and feature being described below in conjunction with accompanying drawing, example, only for explaining the present invention, is not intended to limit the scope of the present invention.
As shown in Figure 1, a kind of infusion data treatment system, comprises and drips speed sensor, dropping liquid record module and calculate module;
Described fast sensor, for when detecting that drop drips, producing a level saltus step; The sensor that described fast sensor is made up of groove type photoelectric switch, groove type photoelectric switch is in the nature the infrared emission pipe of one group of mutual correlation and infrared receiving tube, when drop is through grooved switch room, can due to the folding of light, dispersion effect, the infrared light causing receiving tube to receive changes and then affects sensor output, i.e. level saltus step;
Described dropping liquid record module, for creating timing variable, and rewrites the numerical value of described timing variable according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable; Total number of times of the level saltus step also dripping speed sensor in dropping liquid process for recording;
Described calculating module, for according to the liquid droping speed calculating every minute interval time; The dropping liquid surplus capacity also calculating in Liquid dropping bottle for the total volume of total number of times of dripping according to dropping liquid and infusion bottle; And the remaining time for having dripped according to the liquid droping speed calculating dropping liquid of every minute.
Described dropping liquid record module comprises the total number of times statistic unit of timing control unit, dropping liquid record cell interval time and dropping liquid;
Described timing control unit, for the timing variable Flag that initialize creates, the initial value of Flag is 0; Also for when level saltus step, if Flag=1, then sending ceases and desist order to dropping liquid record cell interval time stops timing; If Flag=0, then starting to send timing order to dropping liquid record cell interval time, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then send and cease and desist order to dropping liquid record cell interval time;
Described dropping liquid record cell interval time, when receiving timing order, starts timing; When receive cease and desist order time, stop timing, thus obtain the interval time of adjacent two dropping liquids, and timing is completed signal feedback to timing control unit by the value initialize of Flag;
The total number of times statistic unit of described dropping liquid, for recording total number of times of the level saltus step dripping speed sensor in dropping liquid process, total number of times that namely in dropping liquid process, dropping liquid drips.
It is fast that the interval time dripped by adding up every two dropping liquids can converse dripping of currently transfusion with speed faster, and statistics is rear and carries out initialize, ensure that the accuracy of data.
Described calculating module comprises liquid droping speed and calculates unit, dropping liquid surplus capacity calculating unit and calculate unit remaining time;
Described liquid droping speed calculates unit and utilizes formula S p=60 �� Ts (droplet/minute) to calculate the liquid droping speed of every minute, and wherein Sp is the liquid droping speed of every minute, and Ts is the interval time of adjacent two dropping liquids, and 60 is time constant;
Described dropping liquid surplus capacity calculates unit and utilizes formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl is dropping liquid surplus capacity (unit: milliliter), Ct is the total volume (unit: milliliter) of current infusion bottle, Ns is total number of times that drop drips, and Co is the capacity (unit: milliliter) of often dropping liquid;
Calculate the remaining time that unit utilizes formula Tl=Cl �� (Sp �� Co) (unit: minute) to calculate dropping liquid and dripped described remaining time, the remaining time that wherein Tl (unit: minute) has dripped for dropping liquid, Cl is dropping liquid surplus capacity (unit: milliliter), Sp is the liquid droping speed (droplet/minute) of every minute, and Co is the capacity (unit: milliliter) of often dropping liquid. The drop volume of tubing generally has three kinds of specifications: 10ml/ drips, 15ml/ drips, 20ml/ drips; Concrete, get the specification that 15ml/ drips and calculate, obtain formula Cl=Ct-(Ns �� 15) respectively and calculate dropping liquid surplus capacity, and obtain the remaining time that formula Tl=Cl �� (Sp �� 15) calculates dropping liquid and dripped.
Also comprise the overall initialize module for whole computing system being carried out initialize. Carrying out the initialize of the overall situation, system realizes synchronous with dropping liquid, is convenient to obtain the high data of accuracy.
As shown in Figure 2, a kind of infusion data treatment process, comprises the steps:
Step S1: when detecting that drop drips, produces a level saltus step;
Step S2: create timing variable, and the numerical value of described timing variable is rewritten according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable;
Step S3: the total number of times dripping the level saltus step of speed sensor in record dropping liquid process;
Step S4: according to the liquid droping speed calculating every minute interval time;
Step S5: the dropping liquid surplus capacity that the total number of times dripped according to dropping liquid and the total volume of infusion bottle calculate in Liquid dropping bottle;
Step S6: the remaining time dripped according to the liquid droping speed calculating dropping liquid of every minute.
The concrete steps realizing step S2 are:
Step S201: when level saltus step, if Flag=1, then performs step S203; If Flag=0, then performing step S202, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then perform step S203;
Step S202: start timing;
Step S203: stop timing, thus obtain the interval time of adjacent two dropping liquids, and the numerical value of initialize timing variable Flag, the initial value of Flag is 0.
The concrete grammar of the liquid droping speed calculating every minute is: utilizing formula S p=60 �� Ts (droplet/minute) to calculate the liquid droping speed of every minute, wherein Sp is the liquid droping speed of every minute, and Ts is the interval time of adjacent two dropping liquids, and 60 is time constant.
The concrete grammar calculating dropping liquid surplus capacity is: utilize formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl (unit: milliliter) is dropping liquid surplus capacity, the total volume that Ct (unit: milliliter) is current infusion bottle, Ns is total number of times that drop drips, and Co is the capacity (unit: milliliter) of often dropping liquid.
Calculating the concrete grammar of remaining time that dropping liquid dripped is: utilize the remaining time that formula Tl=Cl �� (Sp �� Co) (unit: minute) calculates dropping liquid and dripped, the remaining time that wherein Tl (unit: minute) has dripped for dropping liquid, Cl is dropping liquid surplus capacity, Sp is the liquid droping speed of every minute, and Co is the capacity (unit: milliliter) of often dropping liquid.
Before performing described step S1, also comprise the step that whole computing system is carried out initialize.
Specific implementation method, as shown in Figure 3:
Step 001: program starts to run;
Step 002: initiating hardware system;
Step 003: when detecting that drop drips, produces a level saltus step;
Step 004: when level saltus step, judges the value of the Flag created, if Flag=1, then performs step 006; If Flag=0, then performing step 005, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then perform step 006;
Step 005: start timing;
Step 006: stop timing, thus obtain the interval time (for one-period) of adjacent two dropping liquids, and the numerical value of initialize timing variable Flag, the initial value of Flag is 0;
When step 003 performs, synchronous execution step 007;
Step 007: the total number of times dripping the level saltus step of speed sensor in record dropping liquid process;
Step 008: according to the liquid droping speed calculating every minute interval time;
Step 009: the dropping liquid surplus capacity calculating in Liquid dropping bottle according to the total volume of total number of times (total number of times that namely dropping liquid drips) of level saltus step and infusion bottle;
Step 010: the remaining time dripped according to the liquid droping speed calculating dropping liquid of every minute;
Step 011: reset counting;
Step 012: whether terminate, be, then perform step 013, otherwise, perform step 003;
Step 013: EP (end of program).
The present invention proposes transfusion to be carried out the method for data monitoring, drip speed sensor under each fluid drips time, its output level can produce a saltus step, add up dropping liquid number of times with this and converted and obtain liquid droping speed, dropping liquid surplus capacity, remaining time, the accuracy height of data, for treatment provides reference data accurately.
The foregoing is only the better embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment of doing, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. an infusion data treatment system, it is characterised in that, comprise and drip speed sensor, dropping liquid record module and calculate module;
Described fast sensor, for when detecting that drop drips, producing a level saltus step;
Described dropping liquid record module, for creating timing variable, and rewrites the numerical value of described timing variable according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable; Total number of times of the level saltus step also dripping speed sensor in dropping liquid process for recording;
Described calculating module, for according to the liquid droping speed calculating every minute interval time; The dropping liquid surplus capacity also calculating in Liquid dropping bottle for the total volume of total number of times of dripping according to dropping liquid and infusion bottle; And the remaining time for having dripped according to the liquid droping speed calculating dropping liquid of every minute.
2. a kind of infusion data treatment system according to claim 1, it is characterised in that, described dropping liquid record module comprises the total number of times statistic unit of timing control unit, dropping liquid record cell interval time and dropping liquid;
Described timing control unit, for the timing variable Flag that initialize creates, the initial value of Flag is 0; Also for when level saltus step, if Flag=1, then sending ceases and desist order to dropping liquid record cell interval time stops timing; If Flag=0, then starting to send timing order to dropping liquid record cell interval time, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then send and cease and desist order to dropping liquid record cell interval time;
Described dropping liquid record cell interval time, when receiving timing order, starts timing; When receive cease and desist order time, stop timing, thus obtain the interval time of adjacent two dropping liquids, and timing is completed signal feedback to timing control unit by the value initialize of Flag;
The total number of times statistic unit of described dropping liquid, for recording total number of times of the level saltus step dripping speed sensor in dropping liquid process, total number of times that namely in dropping liquid process, dropping liquid drips.
3. a kind of infusion data treatment system according to claim 1, it is characterised in that, described calculating module comprises that liquid droping speed calculates unit, dropping liquid surplus capacity calculates unit and calculates unit remaining time;
Described liquid droping speed calculates unit and utilizes formula S p=60 �� Ts to calculate the liquid droping speed of every minute, and wherein Sp is the liquid droping speed of every minute, and Ts is the interval time of adjacent two dropping liquids, and 60 is time constant;
Described dropping liquid surplus capacity calculates unit and utilizes formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl is dropping liquid surplus capacity, Ct is the total volume of current infusion bottle, and Ns is total number of times that drop drips, and Co is the capacity of often dropping liquid;
Calculate the remaining time that unit utilizes formula Tl=Cl �� (Sp �� Co) to calculate dropping liquid and dripped described remaining time, wherein Tl is the remaining time that dropping liquid has dripped, Cl is dropping liquid surplus capacity, and Sp is the liquid droping speed of every minute, and Co is the capacity of often dropping liquid.
4. a kind of infusion data treatment system according to claim 1, it is characterised in that, also comprise the overall initialize module for whole computing system being carried out initialize.
5. an infusion data treatment process, it is characterised in that, comprise the steps:
Step S1: when detecting that drop drips, produces a level saltus step;
Step S2: create timing variable, and the numerical value of described timing variable is rewritten according to the level saltus step of adjacent twice produced, and the interval time of adjacent two dropping liquids of numerical value change record according to timing variable;
Step S3: the total number of times dripping the level saltus step of speed sensor in record dropping liquid process;
Step S4: according to the liquid droping speed calculating every minute interval time;
Step S5: the dropping liquid surplus capacity that the total number of times dripped according to dropping liquid and the total volume of infusion bottle calculate in Liquid dropping bottle;
Step S6: the remaining time dripped according to the liquid droping speed calculating dropping liquid of every minute.
6. a kind of infusion data treatment process according to claim 5, it is characterised in that, it is achieved the concrete steps of step S2 are:
Step S201: when level saltus step, if Flag=1, then performs step S203; If Flag=0, then performing step S202, be 1 by Flag assignment simultaneously, when level saltus step next time, now Flag=1, then perform step S203;
Step S202: start timing;
Step S203: stop timing, thus obtain the interval time of adjacent two dropping liquids, and the numerical value of initialize timing variable Flag, the initial value of Flag is 0.
7. a kind of infusion data treatment process according to claim 5, it is characterized in that, the concrete grammar of the liquid droping speed calculating every minute is: utilize formula S p=60 �� Ts to calculate the liquid droping speed of every minute, wherein Sp is the liquid droping speed of every minute, Ts is the interval time of adjacent two dropping liquids, and 60 is time constant.
8. a kind of infusion data treatment process according to claim 5, it is characterized in that, the concrete grammar calculating dropping liquid surplus capacity is: utilize formula Cl=Ct-(Ns �� Co) to calculate dropping liquid surplus capacity, wherein Cl is dropping liquid surplus capacity, Ct is the total volume of current infusion bottle, Ns is total number of times that drop drips, and Co is the capacity of often dropping liquid.
9. a kind of infusion data treatment process according to claim 5, it is characterized in that, calculating the concrete grammar of remaining time that dropping liquid dripped is: utilize the remaining time that formula Tl=Cl �� (Sp �� Co) calculates dropping liquid and dripped, wherein Tl is the remaining time that dropping liquid has dripped, Cl is dropping liquid surplus capacity, Sp is the liquid droping speed of every minute, and Co is the capacity of often dropping liquid.
10. a kind of infusion data treatment process according to claim 5, it is characterised in that, before performing described step S1, also comprise the step that whole computing system is carried out initialize.
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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 |
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