PL119259B2 - Measuring flume with venturi tube for volumetric measurement of liquid flow rateb"emnogo izmerenija raskhoda zhidkosti - Google Patents

Measuring flume with venturi tube for volumetric measurement of liquid flow rateb"emnogo izmerenija raskhoda zhidkosti Download PDF

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Publication number
PL119259B2
PL119259B2 PL21757679A PL21757679A PL119259B2 PL 119259 B2 PL119259 B2 PL 119259B2 PL 21757679 A PL21757679 A PL 21757679A PL 21757679 A PL21757679 A PL 21757679A PL 119259 B2 PL119259 B2 PL 119259B2
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Poland
Prior art keywords
channel
liquid
zhidkosti
raskhoda
izmerenija
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PL21757679A
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Polish (pl)
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PL217576A2 (en
Inventor
Jerzy Przech
Krzysztof Michalowski
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Ct Tech Komunal
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Priority to PL21757679A priority Critical patent/PL119259B2/en
Publication of PL217576A2 publication Critical patent/PL217576A2/xx
Publication of PL119259B2 publication Critical patent/PL119259B2/en

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Description

Przedmiotem wynalazku jest koryto pomiarowe ze zwezka typu Venturiego do objetosciowego pomiaru natezenia przeplywu cieczy, zwlaszcza scieków lub wody.Znane koryta pomiarowe ze zwezka typu Venturiegoskladaja sie z prostokatnego kanalu doplywowego, zwezki typu Venturiego i prostokatnego kanalu odplywowego. Kanal doplywowy i odplywowy maja spadki dna o odpowiedniej wielkosci. Ksztalt zwezki okresla sie na podstawie badan laboratoryjnych. Dno zwezki wykonywane jest bez spadku lub z uskokiem. Znane sa równiez zwezki, których dno ma próg lub zmienny spadek.Pomiar natezenia przeplywu cieczy przy pomocy omówionego wyzej koryta prowadzi sie w taki sposób, aby w kanale doplywowym i odplywowym zachodzil ruch jednostajny i spokojny. Zwierciadlo cieczy jest wówczas równolegle do dna kanalu, a glebokosc cieczy jest taka sama na calej dlugosci kanalu. W zwezce* ustala sie ruch rwacy niezatopiony, to znaczy glebokosc cieczy za zwezka nie wplywa na glebokosc cieczy przed zwezka.Wada tego urzadzenia jest koniecznosc dokladnego wykonania spadków kanalów, co czesto przekracza mozliwosci wyjconawcy. Na skutek tego, pomiar natezenia przeplywu prowadzony w takim korycie jest niedokladny.Koryto wedlug wynalazku zlozone jest z prostokatnego kanalu doplywowego, zwezki Venturiego i prostokatnego kanalu odplywowego, przy czym dno kanalu doplywowego, dno zwezki Venturiego i dno kanalu odplywowego maja spadek równy zero. Dlugosc kanalu doplywowego i odplywowego sa równe co najmniej 10 szerokosciom kanalu.W korycie tym glebokosc cieczy w przekroju podluznym kanalu doplywowego i kanalu odplywowego jest zmienna na dlugosci kanalu. W kanale doplywowym przed zwezka glebokosc cieczy zmniejsza sie w kierunku zwezki. Wkanale odplywowym za zwezkaglebokosc cieczy zmniejsza sie w kierunku konca kanalu.W obu kanalach zmniejszenie glebokosci odbywa sie w kierunku przeplywu cieczy. Glebokosc cieczy na koncu kanalu odplywowego powinna byc przy tym od glebokosci krytycznej, co zapewnia w kanale ruch nadkrytyczny. Korzystnie jest, gdy glebokosc ta wynosi 1,1 do 1,5 glebokosci krytycznej i równoczesnie glebokosc cieczy na poczatku kanalu odplywowego wynosi co najwyzej 0,8 glebokosci cieczy na poczatku zwezki. Glebokosc cieczy na koncu kanalu doplywowego jest nie wieksza niz glebokosc cieczy na poczatku zwezki,a glebokosc cieczy na poczatku kanalu doplywowegojest mniejsza od wysokosci kanalu zmniejszonej o rezerwe. Wynalazek jest wyjasniony w dalszym ciagu opisu na przykladzie wykonania przedstawionym na rysunku, przy czym fig. 1 przedstawia szkic koryta pomiarowego w widoku z góry, llg. 2przedstawia przekrój2 119259 wzdluz linii A-A wedlug fig. 1. Wedlug fig. 1 koryto pomiarowe sklada sie z kanalu doplywowego 1, zwezki typu Venturiego 2, kanalu odplywowego 3 oraz urzadzenia pomiarowego 4 umieszczonego w odpowiedniej odleglosci przed zwezka 2. Dno 5 kanalu doplywowego 1, dno 6 zwezki typu Venturiego 2orazdno 7kanalu odplywowego 3 maja spadek równy 0.Zastrzezenie patentowe Koryto pomiarowe ze zwezka typu Venturiego do objetosciowego pomiaru natezenia przeplywu cieczy, zlozone z prostokatnego kanalu doplywowego i prostokatnego kanalu odplywowego, znamienne tym, ze dno (5) kanalu doplywowego (1), dno (6) zwezki Venturiego (2) i dno (7) kanalu odplywowego (3) maja spadek równy zero, przy czym dlugosc kanalu doplywowego i odplywowego sa równe co najmniej 10 szerokosciom kanalu.FIG. 1 TOT^T^mT^ Pracownia Poligraficzna UP PRL. Naklad 120 egz.Cena 100 zl PLThe subject of the invention is a measuring trough with a venturi type tube for volumetric measurement of the flow of liquid, especially sewage or water. The known measuring troughs with a venturi type tube consist of a rectangular inlet channel, a venturi type tube and a rectangular drainage channel. The inlet and outlet channels have bottom slopes of an appropriate size. The shape of the taper is determined on the basis of laboratory tests. The bottom of the taper is made without a fall or with a step. There are also knots, the bottom of which has a threshold or a variable slope. The measurement of the liquid flow rate by means of the trough discussed above is carried out in such a way that the inlet and outflow canals move smoothly and calmly. The liquid table is then parallel to the bottom of the channel and the depth of the liquid is the same along the entire length of the channel. In a taper *, rushing motion is established, not flooded, that is, the depth of the liquid behind the taper does not affect the depth of the liquid before the taper. As a result, the measurement of the flow rate carried out in such a trough is inaccurate. The trough according to the invention is composed of a rectangular inlet channel, a venturi tube and a rectangular drainage channel, the bottom of the inflow, the bottom of the venturi and the bottom of the drainage channel have a zero slope. The length of the inlet and outflow canals are equal to at least 10 canal widths. In this trough, the depth of the liquid in the longitudinal section of the inlet and outflow canal is variable along the length of the canal. In the inflow channel in front of the venturi, the depth of the liquid decreases in the direction of the venturi. In the drainage channel behind the narrower, the depth of the liquid decreases towards the end of the channel. In both channels, the reduction in depth occurs in the direction of the flow of the liquid. The depth of the liquid at the end of the drainage channel should be at the critical depth, which ensures supercritical movement in the channel. Preferably, this depth is 1.1 to 1.5 times the critical depth and at the same time the depth of the liquid at the beginning of the drainage channel is at most 0.8 of the depth of the liquid at the beginning of the taper. The depth of the liquid at the end of the inlet channel is not greater than the depth of the liquid at the beginning of the channel, and the depth of the liquid at the beginning of the inlet channel is less than the height of the channel reduced by the reserve. The invention is explained in the following by means of an embodiment shown in the drawing, wherein Fig. 1 shows a sketch of the measuring trough in plan view, IIg. 2 shows a section 2 119259 along line AA according to Fig. 1. According to Fig. 1, the measuring trough consists of an inlet channel 1, a venturi tube 2, an outflow channel 3 and a measuring device 4 placed at a suitable distance upstream of the tube 2. Bottom 5 of the inlet channel 1, the bottom 6 of the venturi type 2 and the 7 of the outflow channel 3 may have a slope of 0. Patent disclaimer Measurement trough with a venturi type for volumetric measurement of the fluid flow rate, composed of a rectangular inlet channel and a rectangular outflow channel, characterized by the bottom (5) of the inlet channel (5) 1), the bottom (6) of the Venturi (2) and the bottom (7) of the drainage channel (3) have a slope of zero, the length of the inlet and outlet channels being at least 10 channel widths. 1 TOT ^ T ^ mT ^ Printing studio of the PRL. Mintage 120 copies Price PLN 100 PL

Claims (1)

1. Zastrzezenie patentowe Koryto pomiarowe ze zwezka typu Venturiego do objetosciowego pomiaru natezenia przeplywu cieczy, zlozone z prostokatnego kanalu doplywowego i prostokatnego kanalu odplywowego, znamienne tym, ze dno (5) kanalu doplywowego (1), dno (6) zwezki Venturiego (2) i dno (7) kanalu odplywowego (3) maja spadek równy zero, przy czym dlugosc kanalu doplywowego i odplywowego sa równe co najmniej 10 szerokosciom kanalu. FIG. 1 TOT^T^mT^ Pracownia Poligraficzna UP PRL. Naklad 120 egz. Cena 100 zl PL1. Patent claim A measuring trough with a venturi type tube for volumetric measurement of the flow rate of a liquid, composed of a rectangular inlet channel and a rectangular outflow channel, characterized by the bottom (5) of the inlet channel (1), the bottom (6) of the venturi tube (2) and the bottom (7) of the drainage channel (3) have a slope of zero, the length of the inlet and drainage channel being at least 10 channel widths. FIG. 1 TOT ^ T ^ mT ^ Printing studio of the PRL. Mintage 120 copies Price PLN 100 PL
PL21757679A 1979-08-03 1979-08-03 Measuring flume with venturi tube for volumetric measurement of liquid flow rateb"emnogo izmerenija raskhoda zhidkosti PL119259B2 (en)

Priority Applications (1)

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PL21757679A PL119259B2 (en) 1979-08-03 1979-08-03 Measuring flume with venturi tube for volumetric measurement of liquid flow rateb"emnogo izmerenija raskhoda zhidkosti

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PL21757679A PL119259B2 (en) 1979-08-03 1979-08-03 Measuring flume with venturi tube for volumetric measurement of liquid flow rateb"emnogo izmerenija raskhoda zhidkosti

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PL119259B2 true PL119259B2 (en) 1981-12-31

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