[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JPS5866821A - Correcting device for flow rate - Google Patents

Correcting device for flow rate

Info

Publication number
JPS5866821A
JPS5866821A JP16548481A JP16548481A JPS5866821A JP S5866821 A JPS5866821 A JP S5866821A JP 16548481 A JP16548481 A JP 16548481A JP 16548481 A JP16548481 A JP 16548481A JP S5866821 A JPS5866821 A JP S5866821A
Authority
JP
Japan
Prior art keywords
flow rate
pulse
result
input
value
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.)
Granted
Application number
JP16548481A
Other languages
Japanese (ja)
Other versions
JPH0315684B2 (en
Inventor
Masahiro Kanayama
金山 昌弘
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Oval Kiki Kogyo KK
Oval Engineering Co Ltd
Original Assignee
Oval Kiki Kogyo KK
Oval Engineering Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Oval Kiki Kogyo KK, Oval Engineering Co Ltd filed Critical Oval Kiki Kogyo KK
Priority to JP16548481A priority Critical patent/JPS5866821A/en
Publication of JPS5866821A publication Critical patent/JPS5866821A/en
Publication of JPH0315684B2 publication Critical patent/JPH0315684B2/ja
Granted legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F15/00Details of, or accessories for, apparatus of groups G01F1/00 - G01F13/00 insofar as such details or appliances are not adapted to particular types of such apparatus
    • G01F15/02Compensating or correcting for variations in pressure, density or temperature
    • G01F15/022Compensating or correcting for variations in pressure, density or temperature using electrical means

Landscapes

  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Details Of Flowmeters (AREA)

Abstract

PURPOSE:To permit responding to a wide range of input pulse rates by correcting flow rates in accordance with process variables. CONSTITUTION:Flow rate pulses are applied to a counter 8 and a gate 12. The counter 8 counts the pulses during a specified period T, and feeds the count value (n) thereof to an arithmetic part 9 for correction of flow rate at the end of the period T. The part 9 detects (n) pieces of the flow rate pulses and operates the corrected flow rate according to the value of separately applied process variable inputs. The coefft. S of flow rate correction which is the result of the operation is normallized to the value S' that makes 0<S'<1, and S'.n is operated and is applied to an adder-subtractor 10, by which the same is added to the decimal part of the result of the previous addition; thereafter the same is subtracted from the integer part of the result of the addition at every inputting of the flow rate pulse. The gate 12 is controlled by the output of a zero discriminator 11 for the integer part which outputs ''1'' as far as the integer part of the value which is the result of the addition is not ''0'' and the output thereof is the corrected flow rate pulse.

Description

【発明の詳細な説明】 本発明は、流量計の流量補正装置に関し、特に補正装置
の処理速度によって入力流量パルスのパルス・レート許
容範囲が制限されるのを改善する手段を有する流量補正
装量に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a flow correction device for a flowmeter, and more particularly to a flow correction device having a means for improving the pulse rate tolerance range of input flow pulses being limited by the processing speed of the correction device. Regarding.

一般に1流量計で液体を計測する場合には、流量針の器
差、口径について補正するとともに、流量を、計測時の
温度、圧力、粘度等の変化について補正して、一定の標
準温度における値に換算することが、計測精度を保つう
えで必要とされている。
Generally, when measuring liquid with one flowmeter, the instrument error and diameter of the flow needle are corrected, and the flow rate is corrected for changes in temperature, pressure, viscosity, etc. at the time of measurement, and the flow rate is adjusted to a value at a constant standard temperature. To maintain measurement accuracy, it is necessary to convert the

仁のため、従来は、流量計から出力される流量パルス1
個毎に、流量補正処理を行なっていた。
Conventionally, the flow rate pulse 1 output from the flow meter is
Flow rate correction processing was performed for each individual.

流量補正については、最近、マイクロプロセッサを用い
來電子的な演算方式が多く採用されるようになっている
が、その処理速度は比較的遅く、そのため処理できる流
量パルスのパルス・レートは、約200ヘルツどtbと
なっていた。他方、実際に使用される流量計の出力流量
パルスのパルス・レートは、数キロ・ヘルツに及ぶ場合
があり、従来は、このため入力された流量パルスを1/
10あるい#i1 / 100に分局するととKより問
題の解決を図っていた。
Regarding flow rate correction, electronic calculation methods using microprocessors have recently been increasingly adopted, but their processing speed is relatively slow, so the pulse rate of flow rate pulses that can be processed is approximately 200. Hertz was on TB. On the other hand, the pulse rate of the output flow pulse of a flowmeter in actual use may range up to several kilohertz, and for this reason, conventionally, the input flow pulse is reduced by 1/
When the station was divided into 10 or #i1/100, K was trying to solve the problem.

第1図#:t%従来方式による流量補正装置の構成を示
すブロック図である1図において、1は流量補正装置、
2はパルス整形回路、3は分局回路、4tjA/D変換
回路、5acpU、611出力回路、711t前面板ス
イッチ及び表示部を示す。
FIG. 1 #: t% In FIG. 1, which is a block diagram showing the configuration of a conventional flow rate correction device, 1 is a flow rate correction device;
2 is a pulse shaping circuit, 3 is a branch circuit, 4tj A/D conversion circuit, 5acpU, 611 output circuit, 711t front plate switch and display section.

動作において、流量パルス入力は、パルス整形回路2で
波形整形され、そのパルス・レートの大きさに応じて分
周回路3で適当な値に分周され、CPo 5に与えられ
る。CPU5#′i、温度入力をA/D変換回路4を経
て受は入れ、該温度に基づく流量補正の演算を行ない、
演算結果にしたがって、補正流量パルスを生成し、出力
回路6から出力させる。
In operation, the flow rate pulse input is waveform-shaped by the pulse shaping circuit 2, divided into an appropriate value by the frequency dividing circuit 3 according to the magnitude of the pulse rate, and is applied to the CPo 5. The CPU 5#'i receives the temperature input through the A/D conversion circuit 4, and calculates the flow rate correction based on the temperature.
According to the calculation result, a corrected flow rate pulse is generated and outputted from the output circuit 6.

本発明は、上述した従来方式のように入力パルス・レー
トに応じた分局回路の切替えを必要としないで広範囲の
入力パルス・レートに応答することのできる流量補正装
置を提供するものである。
The present invention provides a flow rate correction device that can respond to a wide range of input pulse rates without requiring switching of the branch circuit according to the input pulse rate as in the conventional system described above.

以下に実施例にしたがって本発明を説明する。The present invention will be described below with reference to Examples.

第2図は、本発明の1実施例の説明図である。FIG. 2 is an explanatory diagram of one embodiment of the present invention.

図において、8I/iカウンタ、9は流量補正演算部、
10Fi加減算器、11は整数部零判別器、12はAN
Dゲートを示す。
In the figure, 8 I/i counter, 9 a flow rate correction calculation unit,
10Fi adder/subtractor, 11 integer part zero discriminator, 12 AN
D gate is shown.

流量パルス入力は、カウンタ8とゲート12トに加えら
れる。カウンタ8Fi、第1図の従来方式における分周
回路30代シに、一定周期〒の計数期間の間、流量パル
スを計数し、その計数値悌を期間Tの終シに流量補正演
算部9に送る。カウンタ8のクリアおよび計数結果の転
送制御は、流量補正演算部9からの指令に基づいて行な
われるーカウンタ8は、クリアされた後、期間Tの間流
量パルス入力を計数し、期間Tの終りに計数結果を流量
補正演算部9に転送し、直後クリアされるとともに次の
期間Tの計数動作を開始する。したがって、計測期間中
の流量パルスは、はとんど脱落させることなく計数され
る。
A flow pulse input is applied to counter 8 and gate 12. The counter 8Fi counts the flow rate pulses during a counting period of a constant period 〒 in the frequency dividing circuit 30s in the conventional method shown in Fig. send. The clearing of the counter 8 and the transfer control of the counting results are performed based on commands from the flow rate correction calculation unit 9. After being cleared, the counter 8 counts the flow rate pulse input for a period T, and at the end of the period T. The counting result is transferred to the flow rate correction calculating section 9, where it is immediately cleared and the counting operation for the next period T is started. Therefore, the flow pulses during the measurement period are counted without much dropout.

流量補正演算部9は、計数期間TKおける悌個の入力流
量パルスを検知し、ます別に与えられたプロセス変数入
力の値にしたがい、補正流量演算を行なう、演算結果の
流量補正係数を8とするとき、このsFi、更に0<8
’<1となる値8′に正規化される0次に、値S′に計
数値襲を乗じた値!が計算される。
The flow rate correction calculation section 9 detects ten input flow rate pulses during the counting period TK, and performs a correction flow rate calculation according to each separately given process variable input value, and sets the flow rate correction coefficient of the calculation result to 8. When, this sFi is further 0<8
0th order normalized to the value 8 where '<1', the value S' multiplied by the count value! is calculated.

ψ■襲・8′ ここで得られた値1が、流量補正演算部9がら、加減算
器10へ出力される。加減算器10は、値曽と、前回の
加、算における結果の小数部とを加算する。次に、この
加算結果の整数部から流量パルスが入力される毎に、1
ずつ減算される。
The value 1 obtained here is output from the flow rate correction calculation section 9 to the adder/subtractor 10. The adder/subtractor 10 adds the value Z and the decimal part of the result of the previous addition. Next, every time a flow rate pulse is input from the integer part of this addition result, 1
is subtracted by

減算のための流量パルス入力は、ANDゲート12を介
して加減算器100減算入方へ加えられる。
The flow pulse input for subtraction is applied to the subtraction input of adder/subtractor 100 via AND gate 12.

ANDグー)121t、加減算器1oの加算結果値の整
数部がl □ lでない限ヤ11′を出力する整数部零
判別器11によシゲート制御される。したがって、整数
部の値に等しい数だけの流量パルスが、ANDゲート1
2から加減算器1Gに与えられたとき、整数部の値は1
01となシ、ANDゲート12は閉ざされる。このとき
得られるANDゲート12の出力が、補正流量パルスと
して取シ出される。
(AND) 121t is gate-controlled by the integer part zero discriminator 11 which outputs y 11' unless the integer part of the addition result value of the adder/subtractor 1o is l □ l. Therefore, a number of flow pulses equal to the value of the integer part are applied to the AND gate 1
When input from 2 to adder/subtractor 1G, the value of the integer part is 1
01, AND gate 12 is closed. The output of the AND gate 12 obtained at this time is taken out as a corrected flow rate pulse.

加減算器10Kbいて、小数部が次の計数期間の補正値
S′に累算されるようにしたことにょシ、長い計測期間
では誤差を無視できる程度にまで減少させることができ
る。
By using the 10Kb adder/subtractor so that the decimal part is accumulated into the correction value S' for the next counting period, the error can be reduced to a negligible level over a long measurement period.

上述した実施例の場合の補正可能範囲は、はぼθ〜1の
値となる。
In the case of the embodiment described above, the correctable range is approximately a value of θ to 1.

また計数期間T#−i、流量補正演算部9が補正演算処
理を実行するために必要とされる蟻大時間に見合うよう
に設定されればよく、流量パルスのパルス・レートが大
幅に変化しても、設定値の変更は必要なしに高精度の流
量パルス補正を行なうことができる。
In addition, the counting period T#-i only needs to be set to match the length of time required for the flow rate correction calculation section 9 to execute the correction calculation process, and the pulse rate of the flow rate pulse will not change significantly. However, highly accurate flow rate pulse correction can be performed without the need to change set values.

第3図は、本発明の他の実施例の構成図である。FIG. 3 is a block diagram of another embodiment of the present invention.

図において、13Fi、パルス整形回路、14はカラ”
ンタ、15は演算制御クロック、16は流量補正演算部
、17はプロセス変数入力部、18は正規化部、19は
加算器、20Fi微分回路、21 FiR8フリップフ
ロップ、22 Fi増巾器を示す。
In the figure, 13Fi is a pulse shaping circuit, and 14 is a color.
15 is an arithmetic control clock, 16 is a flow rate correction calculation section, 17 is a process variable input section, 18 is a normalization section, 19 is an adder, 20 Fi differentiation circuit, 21 FiR8 flip-flop, and 22 Fi amplifier.

入力された流量パルスは、パルス整形回路13で波形整
形され、カウンタ14 K印加される。
The input flow rate pulse is waveform-shaped by the pulse shaping circuit 13 and applied to the counter 14K.

カウンタ14 it、第2図の実施例で説明したカウン
タ8と同じ動作機能をもつ。カラ/り14は、期間Tの
間に計数した流量パルス数鴨を、期間Tの終シに流量補
正演算部16に転送したあとクリアされる。
The counter 14 has the same operational functions as the counter 8 described in the embodiment of FIG. The counter 14 is cleared after the flow rate pulse number counted during the period T is transferred to the flow rate correction calculation section 16 at the end of the period T.

流量補正演算部16は、演算制御クロック15からのク
ロック信号にしたがって動作し、カウンタ14に対する
転送およびクリア信号を発生するとともに、カウンタか
ら読み出した計数値鴨とプロセス変数入力とにしたがっ
て、流量補正演算処理を行なう。、補正量は、流量パル
ス1個分に対するものの饅倍である。
The flow rate correction calculation section 16 operates according to the clock signal from the calculation control clock 15, generates transfer and clear signals to the counter 14, and performs flow rate correction calculation according to the count value read from the counter and the process variable input. Process. , the correction amount is double that for one flow rate pulse.

演算処理され九結果値Sは、正規化部18において、(
0<8’(1)なる範囲の値S′となるように正規化さ
れ、加算器19に送られる。
The arithmetic-processed nine result value S is processed by the normalization unit 18 as (
It is normalized to a value S' in the range 0<8' (1) and sent to the adder 19.

加算器19は、データS/と前回の加算結果の小数部と
を加算し、整数部へのキャリがありた場合、それを微分
回路20へ出力する。
The adder 19 adds the data S/ and the decimal part of the previous addition result, and if there is a carry to the integer part, outputs it to the differentiating circuit 20.

微分回路20は、加算器19からの整数部1】1パルス
を微分し、その前縁パルスを取り出して、R8フリップ
フロップ21の8入力に加え、これを七ッ卜する。この
ため、該フリップフロップのQ出力は“11となるが、
直後に入力された流量パルスが該フリップフロップのR
入力に加えられると、該フリップフロップはリセットさ
れ、Q出力はIOルベルに復帰する。
The differentiating circuit 20 differentiates the integer part 1]1 pulse from the adder 19, extracts its leading edge pulse, adds it to the 8 inputs of the R8 flip-flop 21, and divides it. Therefore, the Q output of the flip-flop is "11", but
The flow rate pulse input immediately after is the R of the flip-flop.
When applied to the input, the flip-flop is reset and the Q output returns to the IO level.

このときのフリッププロップ21のQ出力変化が、増巾
器22で増巾され、補正流賃パルスとして出力される。
The Q output change of the flip-flop 21 at this time is amplified by the amplifier 22 and output as a corrected rate pulse.

この補正流量パルス出力は、電磁カウンタ等の流量指示
器を駆動するために使用される。
This corrected flow rate pulse output is used to drive a flow rate indicator such as an electromagnetic counter.

本笑施例における1計数期間′1゛において生じる補正
流量パルス出力は、1個または0個である。したがって
、計測時間を充分に長くとった場合の、入力流量パルス
数と補正出力流量パルス数との比、すなわち補正係数S
の許容範囲は、0〈S〈1/%となる。
In this embodiment, the number of corrected flow rate pulse outputs generated in one counting period '1' is one or zero. Therefore, when the measurement time is sufficiently long, the ratio of the number of input flow rate pulses to the number of corrected output flow rate pulses, that is, the correction coefficient S
The allowable range is 0<S<1/%.

なお、第3図の実施例では、加算器19からの整数部の
取シ出しは、加算結果の整数部桁位置の値を検出するこ
とで行なわれるが、加算器内の演算レジスタの内容を小
数部のみとし、整数部は加算結果のオーバーフロー信号
として取り出すようにすれば、演算レジスタの内容をそ
のまま次回の加算動作における小数部入力として利用す
ることができる。
In the embodiment shown in FIG. 3, the integer part is taken out from the adder 19 by detecting the value of the integer part digit position of the addition result. If only the decimal part is used and the integer part is taken out as an overflow signal of the addition result, the contents of the arithmetic register can be used as is as the decimal part input in the next addition operation.

以上述べたように、本発明によシ、広範囲なパルスレー
トの流量パルス入力に対して切替えなしで応動する高精
度の流量補正装置が得られ、流皺計測システムの設計、
操作を容易化することができる。
As described above, the present invention provides a highly accurate flow rate correction device that responds to flow rate pulse inputs with a wide range of pulse rates without switching.
Operation can be facilitated.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は従来方式による流量補正装置の構成例を示す図
、第2図は本発明の1実施例の構成図、第3図は本発明
の他の、実施例の構成を示す図である。 図において、8はカウンタ、9け流量補正演算部、30
#−1加減算器、11は整数部零判別器、12はAND
ゲートをそれぞれ示す。
FIG. 1 is a diagram showing an example of the configuration of a conventional flow rate correction device, FIG. 2 is a diagram showing the configuration of one embodiment of the present invention, and FIG. 3 is a diagram showing the configuration of another embodiment of the present invention. . In the figure, 8 is a counter, 9 is a flow rate correction calculating section, and 30 is a counter.
#-1 adder/subtractor, 11 is integer part zero discriminator, 12 is AND
Each gate is shown.

Claims (2)

【特許請求の範囲】[Claims] (1)  流量パルスを入力する手段と、流量補正に必
要な温度、圧力等のプ覧セス変数倉入力する手段と、上
記入力された流量ノくルスを一定周期で繰シ返し計数す
るカウンタと、該カウンタから一足周期毎の計数結果を
読み出し、上記入力され九プロセス変数に基づいて補正
流量を演算する手段と、該演算された結果を上記流量パ
ルスに同期させて出力する手段とをそなえた流量補正装
置。
(1) A means for inputting flow rate pulses, a means for inputting process variables such as temperature and pressure necessary for flow rate correction, and a counter for repeatedly counting the input flow rate pulses at a constant cycle. , comprising means for reading out counting results for each foot cycle from the counter and calculating a corrected flow rate based on the input nine process variables, and means for outputting the calculated result in synchronization with the flow rate pulse. Flow rate correction device.
(2)前記第1項において、演算された結果を流量パル
スに同期させて出力する手段は、演算して得られた流量
補正係数8を0<8’<iする値S′に正規化する手段
と、更に該正規化された値S′と一定周期毎に計数され
友流量パルスの計数結果とを乗算し九値!を一方の入力
とし前回の加算結果の小数部を他方の入力とする加算を
行なうとともに、該加算された結果の整数部から流量パ
ルス入力の減算を行なうように構成された加減算器とを
有し、上記減算において整数部の値が零になるまでに入
力された流量パルスを、同時に補正流量パルスとして出
力することを特徴とする流量補正装置。
(2) In the first item, the means for outputting the calculated result in synchronization with the flow rate pulse normalizes the calculated flow rate correction coefficient 8 to a value S' that satisfies 0<8'<i. Further, the normalized value S' is multiplied by the count result of the friend flow rate pulse counted at regular intervals to obtain nine values! has an adder/subtractor configured to perform addition with the decimal part of the previous addition result as one input and the decimal part of the previous addition result as the other input, and to subtract the flow rate pulse input from the integer part of the added result. A flow rate correction device characterized in that the flow rate pulses inputted until the value of the integer part becomes zero in the subtraction described above are simultaneously output as corrected flow rate pulses.
JP16548481A 1981-10-16 1981-10-16 Correcting device for flow rate Granted JPS5866821A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP16548481A JPS5866821A (en) 1981-10-16 1981-10-16 Correcting device for flow rate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP16548481A JPS5866821A (en) 1981-10-16 1981-10-16 Correcting device for flow rate

Publications (2)

Publication Number Publication Date
JPS5866821A true JPS5866821A (en) 1983-04-21
JPH0315684B2 JPH0315684B2 (en) 1991-03-01

Family

ID=15813274

Family Applications (1)

Application Number Title Priority Date Filing Date
JP16548481A Granted JPS5866821A (en) 1981-10-16 1981-10-16 Correcting device for flow rate

Country Status (1)

Country Link
JP (1) JPS5866821A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS62153716A (en) * 1985-12-27 1987-07-08 Toyo Seigyo:Kk Pulse converter between different unit systems
JPS62288519A (en) * 1986-06-06 1987-12-15 Matsushita Electric Ind Co Ltd Flow rate measuring device
US10434563B2 (en) 2016-05-20 2019-10-08 Bowman International Limited Rolling element bearing cage with supporting frame and reinforcing frame

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55447A (en) * 1978-06-19 1980-01-05 Tokico Ltd Flow coefficient compensator

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55447A (en) * 1978-06-19 1980-01-05 Tokico Ltd Flow coefficient compensator

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS62153716A (en) * 1985-12-27 1987-07-08 Toyo Seigyo:Kk Pulse converter between different unit systems
JPH0355768B2 (en) * 1985-12-27 1991-08-26
JPS62288519A (en) * 1986-06-06 1987-12-15 Matsushita Electric Ind Co Ltd Flow rate measuring device
US10434563B2 (en) 2016-05-20 2019-10-08 Bowman International Limited Rolling element bearing cage with supporting frame and reinforcing frame
US10654090B2 (en) 2016-05-20 2020-05-19 Bowman International Limited Method of forming a roller element bearing cage comprising a supporting frame and a reinforcing frame

Also Published As

Publication number Publication date
JPH0315684B2 (en) 1991-03-01

Similar Documents

Publication Publication Date Title
US4760536A (en) Autoranging frequency sensor
JPS5866821A (en) Correcting device for flow rate
JPS5834321A (en) Correcting device for dual rotor type volumetric flow meter
SU668627A3 (en) Device for digital indication for automatic resetting to zero of weighing apparatus
SU851223A1 (en) Device for determination of carbom equivalent in liquid metal
JPS6348300B2 (en)
JP2587474B2 (en) Plant abnormality sign detection device
JPS56142419A (en) Recounting device for digital display counting scale
RU195249U1 (en) Device for monitoring and analyzing product resource consumption
JP2555512B2 (en) Electronic counter scaling method
US3851158A (en) Method and apparatus for deriving the mean value of the product of a pair of analog quantities
SU1077676A1 (en) Apparatus for automatic monitoring of metal in the tolerance range by thickness
SU1405021A1 (en) Apparatus for measuring time duration of pulses
SU828195A1 (en) Digital device for processing information of frequency converters
JP2827446B2 (en) Motor speed detection method
JPH02166923A (en) Bit error rate measuring circuit
GB2616928A (en) Steel Ladle Scale Weighting Device, Weighing Method and System Without Drift
SU896653A1 (en) Shaft angular position-to-code converter
JPS6298265A (en) Speed detecting device
SU661389A1 (en) Digital non-linear mean frequency meter
SU687910A1 (en) Device for accumulating and processing information
SU868617A1 (en) Digital frequency meter
JPH02304388A (en) Digital counting rate meter
SU988394A1 (en) Percentage reduction meter
SU382932A1 (en) DEVICE FOR MEASURING FUEL CONSUMPTION