CN109621122A - A kind of Breathing Suppotion equipment traffic alignment method and device and system - Google Patents
A kind of Breathing Suppotion equipment traffic alignment method and device and system Download PDFInfo
- Publication number
- CN109621122A CN109621122A CN201811640451.6A CN201811640451A CN109621122A CN 109621122 A CN109621122 A CN 109621122A CN 201811640451 A CN201811640451 A CN 201811640451A CN 109621122 A CN109621122 A CN 109621122A
- Authority
- CN
- China
- Prior art keywords
- flow
- value
- sampled value
- unit
- array
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M16/00—Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01F—MEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
- G01F25/00—Testing or calibration of apparatus for measuring volume, volume flow or liquid level or for metering by volume
- G01F25/10—Testing or calibration of apparatus for measuring volume, volume flow or liquid level or for metering by volume of flowmeters
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M16/00—Devices for influencing the respiratory system of patients by gas treatment, e.g. mouth-to-mouth respiration; Tracheal tubes
- A61M16/0003—Accessories therefor, e.g. sensors, vibrators, negative pressure
- A61M2016/003—Accessories therefor, e.g. sensors, vibrators, negative pressure with a flowmeter
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M2205/00—General characteristics of the apparatus
- A61M2205/33—Controlling, regulating or measuring
- A61M2205/3331—Pressure; Flow
- A61M2205/3334—Measuring or controlling the flow rate
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M2205/00—General characteristics of the apparatus
- A61M2205/70—General characteristics of the apparatus with testing or calibration facilities
Abstract
The invention discloses a kind of Breathing Suppotion equipment traffic alignment method and device and system, method includes: the flow value array F [n] and corresponding flow AD sampled value array V [n] data of acquisition dispersion;Obtain real-time flow AD sampled value V;Flow AD sampled value V and flow AD sampled value array V [n] size order are arranged, V (i) < V < V (i-1);According to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) is the corresponding flow value of V (i), F (i-1) is V (i-1) corresponding flow value, calculates the corresponding flow value F of real-time traffic AD sampled value V.This method may insure the Stability and veracity of Breathing Suppotion device core algorithm, improve the quality and use feeling experience of entire Breathing Suppotion equipment.
Description
Technical field
The present invention relates to Breathing Suppotion equipment technical field more particularly to a kind of Breathing Suppotion equipment traffic alignment method and
Apparatus and system.
Background technique
In current clinical medicine, effective means of the Breathing Suppotion equipment as an artificial substituting expiratory positive airway pressure function,
It has been commonly used to respiratory failure caused by a variety of causes, the anesthesia respiration management during major operation, Breathing Suppotion treatment and first aid
In recovery, highly important position is occupied in Modern Medical Field.
For Breathing Suppotion equipment, the flow of gas is a highly important data in Breathing Suppotion equipment pipe, because
It can guarantee the health of user there was only accurate gas flow, so in the internal algorithm of Breathing Suppotion device product
It holds an important position, so gas flow data is the core of entire product.
In application process, measuring flow generally can all generate error to Breathing Suppotion equipment, lead to the gas flow of measurement
Data inaccuracy, can not meet the demand of user preset;There are also existing by being calibrated to measurement of discharge, such as:
CN106969812 is calibrated by the calculation method of pressure difference, is not carried out analytical calculation to real-time flow, is not appropriate for
The calibration of Breathing Suppotion equipment uses.
Summary of the invention
In view of this, a kind of Breathing Suppotion equipment traffic alignment method and device of the invention and system, this method pass through
Corresponding flow AD sampled value under specific several gas flows is acquired, is then calculated according to these dispersion values in certain flow AD
Flow value under sampled value, by the flow value that can accurately obtain current ventilator after calibration.
A kind of Breathing Suppotion equipment traffic alignment method, method include:
S1. the flow value array F [n] and corresponding flow AD sampled value array V [n] data of dispersion are acquired;
S2. real-time flow AD sampled value V is obtained;
S3. flow AD sampled value V and flow AD sampled value array V [n] size order are arranged, V (i) < V < V (i-1);
S4. according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) is that V (i) is right
The flow value answered, F (i-1) are V (i-1) corresponding flow value, calculate the corresponding flow value F of real-time traffic AD sampled value V.
It preferably, further include judging whether real-time flow AD sampled value V is less than preset AD value between the S2 and S3,
If real-time flow AD sampled value V is less than preset AD value, and flow AD sampled value V and flow AD sampled value array V [n] is big
Small sequence arrangement, V (i) < V < V (i-1).
Preferably, if flow AD sampled value V is not less than preset AD value in real time, show that flow value F is that Vmax (n) is right
The Fmav (n) answered.
It preferably, further include by flow value array F [n] and corresponding flow AD sampled value array V between the S1 and S2
[n] is stored.
A kind of Breathing Suppotion equipment flowrate calibrating device, device include acquisition unit, acquiring unit, sequencing unit and meter
Unit is calculated, the acquisition unit, acquiring unit, sequencing unit and computing unit are sequentially connected, in which:
Acquisition unit, for acquiring the flow value array F [n] and corresponding flow AD sampled value array V [n] number of dispersion
According to;
Acquiring unit, for obtaining real-time flow AD sampled value V;
Sequencing unit, for flow AD sampled value V and flow AD sampled value array V [n] size order to be arranged, V (i) <
V < V (i-1);
Computing unit, for according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F
It (i) is the corresponding flow value of V (i), F (i-1) is V (i-1) corresponding flow value, and it is corresponding to calculate real-time traffic AD sampled value V
Flow value.
It preferably, further include judging unit, the judging unit is connected to acquiring unit and sequencing unit, described
Judging unit is for judging whether real-time flow AD sampled value V is less than preset AD value, when judging unit is judged in real time
Flow AD sampled value V is less than preset AD value, then sequencing unit is big by flow AD sampled value V and flow AD sampled value array V [n]
Small sequence arrangement, V (i) < V < V (i-1).
It preferably, further include display unit, the display unit is connected to judging unit, when judging unit is judged in real time
Flow AD sampled value V be not less than preset AD value when, display unit show flow value F be the corresponding Fmav (n) of Vmax (n).
It preferably, further include storage unit, the storage unit is connected to acquisition unit and acquiring unit, described
Storage unit is for storing flow value array F [n] and corresponding flow AD sampled value array V [n].
A kind of Breathing Suppotion equipment flow calibration system, system include the above-mentioned calibrating installation of right, ventilator, flowmeter
And flow control valve, the flow control valve are connect with flowmeter, the flowmeter be also respectively connected in calibrating installation and
Ventilator, the ventilator are connect with calibrating installation;The flow control valve control flow makes flow measurement obtain several dispersions
Flow value, the calibrating installation receives storage dispersion flow value and the corresponding ventilator AD sampled value of dispersion flow value.
Preferably, the flowmeter is connect by RS485 with calibrating installation, and the ventilator and calibrating installation pass through serial ports
Connection, the ventilator, flowmeter and flow control valve pass sequentially through corrugated hose connection.
The beneficial effects of the present invention are a kind of: Breathing Suppotion equipment traffic alignment method and device of the invention and it is
Then system, this method are calculated by acquiring corresponding flow AD sampled value under specific several gas flows according to these dispersion values
Flow value under certain flow AD sampled values out, by can accurately obtain the flow value of current ventilator after calibration,
So that it is guaranteed that the Stability and veracity of Breathing Suppotion device core algorithm, improves the quality and use of entire Breathing Suppotion equipment
Impression experience.
Detailed description of the invention
Technical solution in order to illustrate the embodiments of the present invention more clearly, below will be to needed in embodiment description
Attached drawing is briefly described, it should be apparent that, drawings in the following description are some embodiments of the invention, general for this field
For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of Breathing Suppotion equipment flow calibration system schematic diagram;
Fig. 2 is a kind of 1 flow chart of Breathing Suppotion equipment traffic alignment embodiment of the method;
Fig. 3 is a kind of 1 schematic diagram of Breathing Suppotion equipment flowrate calibrating device embodiment;
Fig. 4 is a kind of 2 flow chart of Breathing Suppotion equipment traffic alignment embodiment of the method;
Fig. 5 is a kind of 2 schematic diagram of Breathing Suppotion equipment flowrate calibrating device embodiment;
Fig. 6 is a kind of Breathing Suppotion equipment flow calibration system control flow chart.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair
Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts
Example, shall fall within the protection scope of the present invention.
It should be appreciated that ought use in this specification and in the appended claims, term " includes " and "comprising" instruction
Described feature, entirety, step, operation, the presence of element and/or component, but one or more of the other feature, whole is not precluded
Body, step, operation, the presence or addition of element, component and/or its set.
It will be further appreciated that the term "and/or" used in description of the invention and the appended claims is
Refer to any combination and all possible combinations of one or more of associated item listed, and including these combinations.
Fig. 1 is please referred to, system includes calibrating installation 11, ventilator 12, flowmeter 13 and flow control valve 14, flow control
Valve 14 processed is connect by breathing pipeline with flowmeter 13, and flowmeter 13 carries out carrying out with calibrating installation 11 by way of RS485
Communication, flowmeter 13 are also connect by corrugated hose with ventilator 12, and ventilator 12 is also connect by serial ports with calibrating installation 11,
Wherein, calibrating installation 11 is generally computer installation or processor.System controls flow by flow control valve 14,
Form flow array, the measurement of ventilator 12 corresponding flow AD sampled value under several gas flows, the flow AD sampling of formation
It is worth array, real-time flow AD sampled value is calibrated, by can accurately obtains current ventilator 12 after calibration
Flow value, so that it is guaranteed that the Stability and veracity of Breathing Suppotion device core algorithm, improves the matter of entire Breathing Suppotion equipment
Amount and use feeling experience.
In conjunction with Fig. 6, the control flow of system are as follows:
S61, calibrating installation are connect with ventilator by serial ports;Before system operation, calibrating installation is passed through serial ports and exhaled
Suction machine connects, and carries out data transmission.In fact, at this time flowmeter and flow control valve has all connected.
The fixed air-blower control amount of ventilator is arranged by calibrating installation in S62;Calibrating installation is configured, control breathing
The air output of machine, when Boiler pressure control is provided, for convenience, air quantity is traditionally arranged to be integer, i.e., by flow control valve into
Row control, so that flow measurement obtains integer flow value, such as: by taking 700 air-blower control amount as an example, control flow control valve makes to flow
The flow value that meter is shown is respectively the flow of some dispersions such as (120,100,80,60,50,40,30,25,20,15,10,5)
Numerical value.
S63, control flow control valve make flowmeter show the calibrational capacity value for reaching demand;It is controlled by flow control valve
Flow, so that flow reaches the flow value of setting.
S64, flowmeter show whether reach calibrational capacity value;After flow control valve controls flow, flow can slowly be connect
The flow of requirement magnitude closely set, this is to carry out judging that flowmeter shows whether reach calibrational capacity value, when flow measurement obtains
Flow also not up to setting calibration value, then continue adjust flow control valve.
S65, calibrating installation send the order of acquisition flow sensor AD sampled value to ventilator;Reach when flowmeter is shown
Calibrational capacity value, calibrating installation send the order of acquisition flow sensor AD sampled value to ventilator, that is, send and obtain breathing
The demand of machine flow sensor AD sampled value, wherein AD sampled value is the value that analog signal is converted into digital signal, i.e. ventilator
In the analog quantity of flow sensor detection be converted into the value of digital quantity.
S66, ventilator acquire current flow value and send to calibrating installation;Ventilator is by the flow AD sampled value of acquisition
It is sent to calibrating installation.Complete the acquisition of a pair of of data, i.e. flow value and corresponding AD sample values.
S67, if all acquisition finishes institute's AD sampled value in need;Since the flow value set is several number of dispersion
Value, such as: the numerical value of some dispersions such as (120,100,80,60,50,40,30,25,20,15,10,5), so needing to each
The acquisition that dispersion point value carries out corresponding AD sample values needs to continue to adopt when corresponding AD sampled value has not acquired also
Collection, until the corresponding AD sampled value acquisition of the flow value of each dispersion finishes;By taking flow 60 as an example, when control flow control valve makes
When flowmeter is shown as 60, flowmeter is connected by RS485 with calibrating installation, and real-time flow data size is passed to calibration cartridge
Set, when it is 60 that calibrating installation, which reads flow value, just to ventilator say the word reading flow sensor at this time AD sampled value it is big
It is small, it, will after being sampled average treatment to the AD sampled value of flow sensor at this time after ventilator is connected to the request of calibrating installation
AD sampled value is sent to calibrating installation.What is carried out to the flux scale definite value of 5-120 is similarly to operate, and can pass through ventilator blower
Flow set carries out which calibrational capacity value selected, and if normal selection flow 120 is started, flow set value can received
After replying write-in to ventilator, successively switch over down.
This data group is sent to ventilator by S68, calibrating installation;Calibrating installation by the flow value array F [n] of setting with
And the corresponding AD sampled value array V [n] of flow value is sent to ventilator.
Data group is write into memory and carries out calibration calculation processing to real-time traffic by S69, ventilator;What ventilator will acquire
Flow value array and the corresponding AD sampled value array of flow value are stored, to real-time traffic according to the flow value array of acquisition
And the corresponding AD sampled value array of flow value carries out calibration calculation processing.
Such as 15 flows of setting, flow value array F [15]=(200,160,120,100,80,60,50,40,30,25,
20,15,10,5,0), collected is [15] 15 AD sampled value number data of corresponding AD sampled value array V,
When calibrating installation completes the sampling of the corresponding flow sensor AD sampled value of 15 flux scale definite values of flow value array
Afterwards, flow sensor AD sampled value is sequentially written in by flux scale definite value and is exhaled by the button for pressing the download parameters on calibrating installation
In suction machine V [15] array, carried out in ventilator program wherein being handled for the AD sampled value of calibrational capacity value 0,160,200,
When flow value is 0L/min, Vi (14)=0, when flow value is 160L/min, V (1)=V (2)+6000, i.e. 120L flow
AD sampled value add 6000, when flow value be 200L/min when, V (0)=V (1)+14000.And the value of array V [15] is stored
To in the middle of the memory of breathing machine equipment, when each power-up initializing, reads call from memory again.For program
The processing of middle real-time flow data uses, firstly, real-time flow sensor sampling AD sampled value V is obtained, if obtained sampling
Value is greater than 65535, then it is assumed that sampled value V is problematic, returns to mistake.If V is not greater than 65535, by the value of V and array V
[15] value in is compared, which value that real-time sampling value V is greater than or equal in V [15] numerical value is seen, it is assumed that V (i-1) >=V
>=V (i), then real-time flow data at this time are as follows:
F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)).
Wherein F (i) is the corresponding flow value of V (i), and F (i-1) is V (i-1) corresponding flow value, calculates real-time traffic
The corresponding flow value F of AD value V.
When V is greater than (0) V, that is, it has been more than the AD sampled value of calibrational capacity value 200L, has then provided F=F (0), i.e., flow is super
200L/Min is crossed, default is shown as 200L/Min, and flow does not have actual use meaning when being more than or equal to 200.
Fig. 2, a kind of Breathing Suppotion equipment traffic alignment method are please referred to, method includes:
S21. the flow value array F [n] and corresponding flow AD sampled value array V [n] data of dispersion are acquired;In convection current
When amount is set, generally by flow set at the integer value of dispersion, and dispersion is uniform as far as possible, and numerical value quantity can according to need
Precision carry out mostly with few setting, such as be set as 15 several flow array F [15]=(200,160,120,100,
80,60,50,40,30,25,20,15,10,5,0), F (0)=200, F (1)=160, and so on, F (14)=0.And simultaneously
The flow AD sampled value detected to the Breathing Suppotion equipment flow sensor under different flow is measured, that is, corresponds to 15
Several flow AD sampled value array V [15], i.e., F (i) corresponds to V (i).
S22. real-time flow AD sampled value V is obtained;Acquire flow value array F [n] and corresponding flow AD sampling
Flow AD sampled value V after being worth array V [n], i.e., in acquisition Breathing Suppotion equipment.
S23. flow AD sampled value V and flow AD sampled value array V [n] size order are arranged, V (i) < V < V (i-
1);The real-time traffic AD sampled value V that will acquire, which is placed in V [n] array, to be ranked up, that is, has V (i) < V < V (i-1).
S24. according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) is that V (i) is right
The flow value answered, F (i-1) are V (i-1) corresponding flow value, i.e. F is equal to F (i) plus (V-V (i) falls multiplied by slope at this time
Number, can calculate the corresponding flow value F of real-time traffic AD sampled value V.
Please refer to Fig. 3, a kind of Breathing Suppotion equipment flowrate calibrating device, device include acquisition unit 31, acquiring unit 32,
Sequencing unit 33 and computing unit 34, acquisition unit 31, acquiring unit 32, sequencing unit 33 and computing unit 34 successively connect
It connects, in which:
Acquisition unit 31, for acquiring the flow value array F [n] dispersed and corresponding flow AD sampled value array V [n]
Data;When setting to flow, generally by flow set at the integer value of dispersion, and disperse uniform as far as possible, numerical value quantity
The precision that can according to need carry out mostly with few setting, such as be set as 15 several flow array F [15]=(200,
160,120,100,80,60,50,40,30,25,20,15,10,5,0), F (0)=200, F (1)=160, and so on, F
(14)=0.And the flow AD sampled value detected simultaneously to the Breathing Suppotion equipment flow sensor under different flow is surveyed
It is fixed, that is, 15 several flow AD sampled value array V [15] are corresponded to, i.e., F (i) corresponds to V (i).
Acquiring unit 32, for obtaining real-time flow AD sampled value V;Acquire flow value array F [n] and corresponding
Flow AD sampled value V after flow AD sampled value array V [n], i.e., in acquisition Breathing Suppotion equipment.
Sequencing unit 33, for flow AD sampled value V and flow AD sampled value array V [n] size order to be arranged, V (i)
< V < V (i-1);The real-time traffic AD sampled value V that will acquire, which is placed in V [n] array, to be ranked up, that is, has V (i) < V < V (i-
1)。
Computing unit 34, for according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F
It (i) is the corresponding flow value of V (i), F (i-1) is V (i-1) corresponding flow value, i.e. F is equal to F (i) plus (V-V (i) is multiplied by this
When slope inverse, the corresponding flow value F of real-time traffic AD sampled value V can be calculated.
Fig. 4, a kind of Breathing Suppotion equipment traffic alignment method are please referred to, method includes:
S41 acquires the flow value array F [n] and corresponding flow AD sampled value array V [n] data of dispersion;In convection current
When amount is set, generally by flow set at the integer value of dispersion, and dispersion is uniform as far as possible, and numerical value quantity can according to need
Precision carry out mostly with few setting, such as be set as 15 several flow array F [15]=(200,160,120,100,
80,60,50,40,30,25,20,15,10,5,0), F (0)=200, F (1)=160, and so on, F (14)=0.And simultaneously
The flow AD sampled value detected to the Breathing Suppotion equipment flow sensor under different flow is measured, that is, corresponds to 15
Several flow AD sampled value array V [15], i.e., F (i) corresponds to V (i).
S42 stores flow value array F [n] and flow AD sampled value array V [n] data, when by flow value array F [n]
And after the acquisition of flow AD sampled value array V [n] data, data are stored, when operation needs, by the flow value number of storage
Group F [n] and flow AD sampled value array V [n] data extract.
S43 obtains real-time traffic AD sampled value V;Obtain real-time flow AD sampled value V;Acquire flow value array F
Flow AD sampled value V after [n] and corresponding flow AD sampled value array V [n], i.e., in acquisition Breathing Suppotion equipment.
S44, judges whether real-time traffic AD sampled value V is less than preset AD value, preset AD value, that is, V (0), i.e. V [n] number
Maximum value in group, the real-time traffic AD sampled value V that will acquire is compared with V (0) carries out judgement, result i.e. two kind, one are as follows:
Real-time traffic AD sampled value V is less than preset AD value;The two are as follows: real-time traffic AD sampled value V is not less than preset AD value, i.e., greatly
In equal to preset AD sampled value.
S45 arranges flow AD sampled value V and flow AD sampled value array V [n] size order, V (i) < V < V (i+
1), when real-time traffic AD sampled value V is less than preset AD sampled value, then by flow AD sampled value V in flow AD sampled value number
It is ranked up in group V [n], existing V (i) < V < V (i+1).
S46, according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) is that V (i) is right
The flow value answered, F (i-1) are V (i-1) corresponding flow value, i.e. F is equal to F (i) plus (V-V (i) falls multiplied by slope at this time
Number, can calculate the corresponding flow value F of real-time traffic AD sampled value V.
S47 shows that F is Vmax [n] corresponding Fmav [n], when real-time traffic AD sampled value V is not less than preset AD
Value, that is, when being more than or equal to preset AD value, F is the corresponding Fmav [n] of corresponding display Vmax [n], and in embodiment, F is V
(0) corresponding F (0) shows F=F (0), i.e. flow overruns, and default is shown as maximum value, is more than or equal to F
(0), breathing apparatus flow does not have actual use meaning.
Please refer to Fig. 5, a kind of Breathing Suppotion equipment flowrate calibrating device, device include acquisition unit 51, storage unit 52,
Acquiring unit 53, judging unit 54, sequencing unit 55, computing unit 56 and display unit 57, acquisition unit 51, storage unit
52, acquiring unit 53, judging unit 54, sequencing unit 55 and computing unit 56 are sequentially connected, and judging unit 54 is also attached to
Display unit 57, in which:
Acquisition unit 51, for acquiring the flow value array F [n] dispersed and corresponding flow AD sampled value array V [n]
Data;When setting to flow, generally by flow set at the integer value of dispersion, and disperse uniform as far as possible, numerical value quantity
The precision that can according to need carry out mostly with few setting, such as be set as 15 several flow array F [15]=(200,
160,120,100,80,60,50,40,30,25,20,15,10,5,0), F (0)=200, F (1)=160, and so on, F
(14)=0.And the flow AD sampled value detected simultaneously to the Breathing Suppotion equipment flow sensor under different flow is surveyed
It is fixed, that is, 15 several flow AD sampled value array V [15] are corresponded to, i.e., F (i) corresponds to V (i).
Storage unit 52, for storing flow value array F [n] and flow AD sampled value array V [n] data, when will flow
After magnitude array F [n] and flow AD sampled value array V [n] data acquire, data are stored, when operation needs, will be deposited
The flow value array F [n] and flow AD sampled value array V [n] data of storage are extracted.
Acquiring unit 53, for obtaining real-time traffic AD sampled value V;Obtain real-time flow AD sampled value V;Acquire stream
Flow AD sampling after magnitude array F [n] and corresponding flow AD sampled value array V [n], i.e., in acquisition Breathing Suppotion equipment
Value V.
Judging unit 54, for judging whether real-time traffic AD sampled value V is less than preset AD value, preset AD value, that is, V
(0), i.e. maximum value in V [n] array, compared with V (0) carries out judgement, result is the real-time traffic AD sampled value V that will acquire
Two kinds, one are as follows: real-time traffic AD sampled value V is less than preset AD value;The two are as follows: real-time traffic AD sampled value V is not less than pre-
If AD value, that is, be more than or equal to preset AD value.
Sequencing unit 55, for flow AD sampled value V and flow AD sampled value array V [n] size order to be arranged, V (i)
< V < V (i+1), when real-time traffic AD sampled value V is less than preset AD sampled value, then by flow AD sampled value V in flow AD
It is ranked up in sampled value array V [n], existing V (i) < V < V (i+1).
Computing unit 56, for according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F
It (i) is the corresponding flow value of V (i), F (i-1) is V (i-1) corresponding flow value, i.e. F is equal to F (i) plus (V-V (i) is multiplied by this
When slope inverse, the corresponding flow value F of real-time traffic AD sampled value V can be calculated.
Display unit 57, for showing that F is Vmax [n] corresponding Fmav [n], when real-time traffic AD sampled value V is not small
In preset AD value, that is, when being more than or equal to preset AD value, F is the corresponding Fmav [n] of corresponding display Vmax [n], in embodiment
In, F is the corresponding F (0) of V (0), that is, is shown F=F (0), i.e. flow overruns, and default is shown as maximum value, greatly
In being equal to F (0), breathing apparatus flow does not have actual use meaning.
The embodiment of the present invention can be sequentially adjusted, merged and deleted according to actual needs.
This programme is described in detail in embodiment, and specific case used herein is to structural principle of the invention
And embodiment is expounded, above embodiments are merely used to help understand method and its core concept of the invention;Meanwhile
For those of ordinary skill in the art, according to the thought of the present invention, has change in specific embodiments and applications
Become place, in conclusion the contents of this specification are not to be construed as limiting the invention.
Claims (10)
1. a kind of Breathing Suppotion equipment traffic alignment method, which is characterized in that method includes:
S1. the flow value array F [n] and corresponding flow AD sampled value array V [n] data of dispersion are acquired;
S2. real-time flow AD sampled value V is obtained;
S3. flow AD sampled value V and flow AD sampled value array V [n] size order are arranged, V (i) < V < V (i-1);
S4. according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) is that V (i) is corresponding
Flow value, F (i-1) are V (i-1) corresponding flow value, calculate the corresponding flow value F of real-time traffic AD sampled value V.
2. calibration method according to claim 1, which is characterized in that further include judging to flow in real time between the S2 and S3
Whether amount AD sampled value V is less than preset AD value, if flow AD sampled value V is less than preset AD value in real time, by flow AD
Sampled value V and flow AD sampled value array V [n] size order arrange, V (i) < V < V (i-1).
3. calibration method according to claim 2, which is characterized in that if flow AD sampled value V is not less than default in real time
AD value, then show flow value F be the corresponding Fmav (n) of Vmax (n).
4. calibration method according to claim 1, which is characterized in that further include by flow value array between the S1 and S2
F [n] and corresponding flow AD sampled value array V [n] are stored.
5. a kind of Breathing Suppotion equipment flowrate calibrating device, which is characterized in that device includes acquisition unit, acquiring unit, sequence
Unit and computing unit, the acquisition unit, acquiring unit, sequencing unit and computing unit are sequentially connected, in which:
Acquisition unit, for acquiring the flow value array F [n] and corresponding flow AD sampled value array V [n] data of dispersion;
Acquiring unit, for obtaining real-time flow AD sampled value V;
Sequencing unit, for flow AD sampled value V and flow AD sampled value array V [n] size order to be arranged, V (i) < V < V
(i-1);
Computing unit, for according to F=F (i)+(V-V (i)) * (F (i-1)-F (i))/(V (i-1)-V (i)), wherein F (i) to be V
(i) corresponding flow value, F (i-1) are V (i-1) corresponding flow value, calculate the corresponding flow of real-time traffic AD sampled value V
Value.
6. calibrating installation according to claim 5, which is characterized in that it further include judging unit, the judging unit difference
It is connected to acquiring unit and sequencing unit, the judging unit is pre- for judging whether real-time flow AD sampled value V is less than
If AD value, when judging unit judges that real-time flow AD sampled value V is less than preset AD value, then sequencing unit is by flow AD
Sampled value V and flow AD sampled value array V [n] size order arrange, V (i) < V < V (i-1).
7. calibrating installation according to claim 6, which is characterized in that it further include display unit, the display unit connection
In judging unit, when judging unit judges real-time flow AD sampled value V not less than preset AD value, display unit is shown
Flow value F is the corresponding Fmav (n) of Vmax (n).
8. calibrating installation according to claim 5, which is characterized in that it further include storage unit, the storage unit difference
It is connected to acquisition unit and acquiring unit, the storage unit is used to sample flow value array F [n] and corresponding flow AD
Value array V [n] is stored.
9. a kind of Breathing Suppotion equipment flow calibration system, which is characterized in that system includes any school claim 5-8
Standard apparatus, ventilator, flowmeter and flow control valve, the flow control valve are connect with flowmeter, and the flowmeter also divides
It is not connected to calibrating installation and ventilator, the ventilator is connect with calibrating installation;The flow control valve control flow makes
The flow value that flow measurement obtains several dispersions is obtained, the calibrating installation receives storage dispersion flow value and dispersion flow value corresponds to
Ventilator AD sampled value.
10. calibration system according to claim 9, it is characterised in that: the flowmeter is connected by RS485 and calibrating installation
It connects, the ventilator is connect with calibrating installation by serial ports, and the ventilator, flowmeter and flow control valve, which pass sequentially through, exhales
The connection of suction pipe road.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811640451.6A CN109621122A (en) | 2018-12-29 | 2018-12-29 | A kind of Breathing Suppotion equipment traffic alignment method and device and system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811640451.6A CN109621122A (en) | 2018-12-29 | 2018-12-29 | A kind of Breathing Suppotion equipment traffic alignment method and device and system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN109621122A true CN109621122A (en) | 2019-04-16 |
Family
ID=66054992
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201811640451.6A Pending CN109621122A (en) | 2018-12-29 | 2018-12-29 | A kind of Breathing Suppotion equipment traffic alignment method and device and system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109621122A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111044237A (en) * | 2019-12-31 | 2020-04-21 | 湖南明康中锦医疗科技发展有限公司 | Self-checking system and method for water tank of respiratory support equipment |
CN113368351A (en) * | 2021-06-07 | 2021-09-10 | 中国人民解放军总医院第一医学中心 | Method for monitoring nasal high-flow respiratory rate and respiratory support equipment thereof |
-
2018
- 2018-12-29 CN CN201811640451.6A patent/CN109621122A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111044237A (en) * | 2019-12-31 | 2020-04-21 | 湖南明康中锦医疗科技发展有限公司 | Self-checking system and method for water tank of respiratory support equipment |
CN113368351A (en) * | 2021-06-07 | 2021-09-10 | 中国人民解放军总医院第一医学中心 | Method for monitoring nasal high-flow respiratory rate and respiratory support equipment thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US5878744A (en) | Ventilator system and method of operating a ventilating system | |
CN101484202B (en) | Method and device for generating a signal that reflects respiratory efforts in patients on ventilatory support | |
CN107205695B (en) | Method and apparatus for measuring airway resistance and lung compliance | |
EP1957139A1 (en) | Method and apparatus for end expiratory lung volume estimation | |
CN109621122A (en) | A kind of Breathing Suppotion equipment traffic alignment method and device and system | |
US9872632B2 (en) | Electric impedance tomography device and method | |
RU2540149C2 (en) | System and method for quantitative measurement of self-ventilating individual's lung compliance | |
CN108245161A (en) | The assistant diagnosis system of lung's common disease | |
Wrigge et al. | Determination of functional residual capacity (FRC) by multibreath nitrogen washout in a lung model and in mechanically ventilated patients: accuracy depends on continuous dynamic compensation for changes of gas sampling delay time | |
CN102114292B (en) | Detection method, device and system of medical device | |
US7814774B2 (en) | Method and apparatus for evaluation of a device for measuring lung diffusion capacity | |
Reinhold et al. | Validation of impulse oscillometry in Friesian and Blue Belgian calves with respect to changes in extrathoracic upper airway resistance | |
CN113198074B (en) | Airway pressure correction method and device of breathing machine and breathing machine | |
WO2023045216A1 (en) | Automatic measurement calibration method and device for ventilator, and storage medium | |
AU2006211808B2 (en) | Method and apparatus for monitoring a sedated patient | |
CN107297007B (en) | Method and device for measuring operating parameters of breathing machine | |
CN110522450A (en) | Expiration NO detection device and detection method | |
Avanzolini et al. | Influence of flow pattern on the parameter estimates of a simple breathing mechanics model | |
DE10237973A1 (en) | Method and device for detecting a flow volume | |
van der Mark et al. | An improved method for the analysis of xenon-133 washin and washout curves | |
CN107530513A (en) | System and its operating method for the pneumatic test to gas flow module | |
CN107219333A (en) | Exhaled gas detecting system and detection method | |
TWI309308B (en) | ||
CN105249930B (en) | A kind of data processing method and device | |
CN111161344B (en) | Airway elasticity measuring method, system, equipment and medium based on OCT equipment |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20190416 |
|
WD01 | Invention patent application deemed withdrawn after publication |