Français dropdown-ico

Micronics 216 manuel d'utilisation

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

Aller à la page of

Les manuels d’utilisation similaires

Un bon manuel d’utilisation

Les règles imposent au revendeur l'obligation de fournir à l'acheteur, avec des marchandises, le manuel d’utilisation Micronics 216. Le manque du manuel d’utilisation ou les informations incorrectes fournies au consommateur sont à la base d'une plainte pour non-conformité du dispositif avec le contrat. Conformément à la loi, l’inclusion du manuel d’utilisation sous une forme autre que le papier est autorisée, ce qui est souvent utilisé récemment, en incluant la forme graphique ou électronique du manuel Micronics 216 ou les vidéos d'instruction pour les utilisateurs. La condition est son caractère lisible et compréhensible.

Qu'est ce que le manuel d’utilisation?

Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Micronics 216 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

Donc, ce qui devrait contenir le manuel parfait?

Tout d'abord, le manuel d’utilisation Micronics 216 devrait contenir:
- informations sur les caractéristiques techniques du dispositif Micronics 216
- nom du fabricant et année de fabrication Micronics 216
- instructions d'utilisation, de réglage et d’entretien de l'équipement Micronics 216
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

Pourquoi nous ne lisons pas les manuels d’utilisation?

Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Micronics 216 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Micronics 216 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Micronics en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Micronics 216, comme c’est le cas pour la version papier.

Pourquoi lire le manuel d’utilisation?

Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Micronics 216, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Micronics 216. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    1 PORTAFLOW 216 Flowmeter Operating Manual Micron ics Ltd, Knaves Beech Busin ess Cen tre, Davies Way, Loudw ater, H igh Wy com be, Buc ks. HP10 9QR TEL : +44 (0)1628 810456 FA X: +44 ( 0)1628 531540 e-m ail: sales@ micronicsltd.co.uk www.micronicsltd.co.uk Publication: March 2001 Document Num ber 740-1001D Software Version: 1.00[...]

  • Page 2

    2 CONTENTS Page No Introduction 2 Fast track procedure 3-4 Parts and accessories 4 Battery and Charg er 5 Transducers/Separation Distance/Fluid Types 6 Program ming – Main Menu 6 Main Menu – Quick Start 6-9 Main Menu – View/Edit site data 9-10 Main Menu – Select sensor mode 11 Main Menu – Set up Instrum ent 12 Pulse output/ Display/Sign a[...]

  • Page 3

    3 Select Qu ick Start - Press ENTER . Dimension Units? – Scroll to select units required, pres s ENTER . Pipe OD – Enter data, pr ess ENT ER . Pipe Wall T hickness – Enter data, pres s ENT ER. Pipe Lining Thickn ess – Enter data, press ENTER . ENT ER Zero if ther e is no lining on the application. Select Wall M aterial – Select using s cr[...]

  • Page 4

    4 For Reflex Mode attach the gu ide rail (Figure 3) to the pipe as shown below . Turn the locking n ut on the fix ed transducer an ti-clockw ise, screw ing it down on to the pipe surf ace. Do not over-tig hten , caus ing the g uide rail to lift of f the pipe. Set the separation distance (Figure 3) by sliding the floating transducer along the scale [...]

  • Page 5

    5 Figure 5:- Battery mains charger. Is supplied with additional plug heads for use Worldw ide. The charger is rated 90Vac to 265Vac 47/63m hz @ 1.1A Battery Circuit A battery manag ement circu it controls the battery recharg e. The circuit helps to prevent the batteries from being damaged thro ugh ove rcha r ging. T he c irc ui t auto matica l ly c[...]

  • Page 6

    6 Separation Distance The instrum ent calculates the separation dist ance w hen all param eters have been entered via the k eypad. Al so the instrum ent calcu lates the m axim um flow velocity allowed w ith th e standard sens ors and indicates w h ether Reflex or Diagon al mode s hould be u sed. Ultrasonic Couplant Ultrasonic couplan t/grease m ust[...]

  • Page 7

    7 The instrument no w asks for the Pipe outside diameter? A fter entering th e outside diameter in m illimeters press ENTER . QUICK START Dimen sion un its mm Pipe O.D.? 58.0 Pipe wall thickness now appears on the display. Enter the pipe wall th ickness in m illimeters, then press ENTER. QUICK START Dimen sion un its MILLIMETRES Pipe O.D.? 58.0 Wal[...]

  • Page 8

    8 QUICK START Select pipe lining m aterial: Steel Rubber Glass Epoxy Concre te Other (m ps) Select fluid type now appears on the display . Use the scroll keys to select the fluid ty pe and press ENTER . If the liquid is not listed select Other and enter a liquid s ound speed in m etres/second. The sou nd speed inform ation can be fo und in t he ba [...]

  • Page 9

    9 The display will n ow show the sensor seperation distance. Adjust the m oveable sensor to the required distance. Press ENTER to read flow . READ FLO W now appears on the dis play. Batt CHRG Sig 48% (ERROR MESSAGES APP EAR HERE) m/s When reading volum etric flow the instrum ent w ill display a positive and neg ative total. Selecting OPTIONS from t[...]

  • Page 10

    10 Pipe O.D. 58.0 Wall thick 4.0 Lini ng 0.0 Wall MILD STEEL Lining --------- Fluid WATER Read flow Exit Note : • Site Zero is alw ays the QUICK START data an d cannot be ch anged. • Changin g the data in any site is automatically saved w hen leaving this men u. Data will h ave to be re-entered to over ride th e old data. List Sites Selecting L[...]

  • Page 11

    11 Read Flow Selecting Read fl ow inform s the u ser of th e mode of operation an d the approxim ate m axim um flow rate . Press the appropriate key can chan ge the units required. Attach sensor set in REF LEX m ode Approx . max . flow : 7.22 m/ s ENTER to co ntinue SCROLL changes mod e Pre ssing ENTER asks the user to en ter a temperature in °C. [...]

  • Page 12

    12 Main Men u - Set Up Instrumen t Pulse Output K ey This can on ly be operat ed in fl ow m ode. Use the scroll key to move the cursor up or down th e display. To change the flow units press the key required. This will also change the f low un its wh en returning to the flow mode. Changin g the flow units w ill also re-scale the litres per pulse. P[...]

  • Page 13

    13 Sensor Parameters This facility is passw ord protected . It sto res sensor inform ation used by Micronics and is n ot available for the user. WARNING! Sensor shou ld only be edited followin g instruction from the factory Enter pas sw ord Factory Settings The facility is us ed by Micronics in the process of instrum ent calibration. Press ENT ER t[...]

  • Page 14

    14 Set Z ero Flow On some applic a tions and in so me conditions it may be that altho ugh there is no flow the instrument m ay show a small offset due to sy stem n oise. T he offset can be cancelled out and w ill increase the accuracy of the instru ment. Selectin g this option and pressing ENTER the display w ill show the f ollowing. Stop th e flow[...]

  • Page 15

    15 Measurement µ µ µ µ s A point in the sig nal transm itted, where the f low m easurem ent is taken from . It is used to see if the sign al is being taken from th e burst at the correct time to get the strong est signal. It is norm ally us ed on smaller pipes wh en the instrum ent is being u sed in dou ble or triple bou nce as sign als can som[...]

  • Page 16

    16 Warning Messages W1: CHECK SITE DATA This mes sage occurs w hen the application inf ormation has been entered in correctly an d the w rong sens ors have been attached to the w rong pipe s ize causing the sy stem timing to be in error. The site data needs to be ch ecked and the instru men t reprogram m ed. W2: SIGNAL TIMING POOR Unstable si gnal [...]

  • Page 17

    17 Enter a lining th ickness first This mes sage appears w hen in VIEW/EDIT SITE DATA the user has tried to enter a pipe lining m aterial before entering a thick ness. APPLICATION INF ORMATION The PORTAFL OW 216 is a Transi t Time u ltrasoni c flow m eter. It has been desig ned to w ork w ith Clam p On transducers, th us enablin g flow ing liqu id [...]

  • Page 18

    18 TRANSDUCER POSITIONING As th e transducers f or the Portaflow 216 are clamped to the ou tside surf ace of the pipe, the m eter has no w ay of determining exactly w hat is h appening to the liquid. The assumption therefore has to be made that th e liquid is flowing uniform ly alon g the pipe either under fu lly turbul ent conditions or under lami[...]

  • Page 19

    19 An u neven surf ace that prevents the transducers f rom sitting f lat on the surface of th e pipe can cause Signal Lev el and Zero Off set problem s. The follow ing procedu re is offered as a guide to g ood practice with respect to positionin g and moun ting the tran sducers. 1) Select the site follow ing the rules laid dow n on page 19 - Transd[...]

  • Page 20

    20 If the Portaflow 216 is to be us ed on lam inar flow applications it will be n ecessary to calculate the Rey nolds No f or each application. To calculate the Rey nolds No it is n ecessary to know the Kinem atic viscosity in Cen tistokes; th e flow velocity and the pipe insi de diameter. Please follow the table below MAX I MUM F LO W The max imu [...]

  • Page 21

    21 Figure 12: Attaching the sensor t o t he pipe Figure 13: Marking the Separation distance Figure 14: Positioning of the sensor cables Program the Electronics with the application data to obtain the calculated separation distance. Measure the circumference of the pipe and m ark a position at the halfway point. (Outside Diam eter of the pipe times [...]

  • Page 22

    22 PORTAFLOW™ 216 SPECIFICATION ENCLOSURE: Protection Class IP55 Material A BS Weigh t < 1.5 Kg Dim en sions 235 x 125 x 42 m m Display Graphics LCD display Key pad 1 6 Key Tactile Mem brane Connecti o ns IP6 5 Le mo Co nnecto rs Temperatu re Rang e 0°C to +50°C (operating ) -10° to +60° C (storage ) SUPPLY VOLTAGE: Pow er supply /ch arger[...]

  • Page 23

    23 Figure 15 :- POR T A FLOW 216 Flow Range PORTAFLOW 216 F LOW RA NGE - DIAGONA L MODE PORTAF LOW 216 FL OW RA NGE – REF LEX MODE WARRANTY The mat erial and w orkm ans hip of t he PORTAF LOW 216 is g uarant eed by MIC RONICS L TD for one y ear from the date of pu rchase prov ided the equi pmen t has been used for th e purpose f or wh ich it has [...]

  • Page 24

    24 LIQUID SOUND SPEEDS Liquid Sound Speeds Note: All the fo llowing so und speeds are calculat ed a t 25°C. The speed of sound in liquids at t emp eratures other t han 25°C are calcula t ed as follow s. Example: Substance Form Index Specific Gravity Sound Speed ∆ ∆ ∆ ∆ v/ºC - m/s / º C Glycol C 2 H 6 O 2 1.113 1658 2.1 Water, distilled [...]

  • Page 25

    25 Substance Form Index Specific Gravity Sound Speed ∆ ∆ ∆ ∆ v/ºC - m/s / º C Acetic anh ydride (22) (CH 3 CO) 2 O 1.082 (20ºC) 1180 2.5 Acetic acid, anh ydride (22) (C H 3 CO) 2 O 1.082 (20ºC) 1180 2.5 Acetic acid, nitrile C 2 H 3 N 0.783 1290 4.1 Acetic acid, ethy l ester (33) C 4 H 8 O 2 0.901 1085 4.4 Acetic acid, m ethy l ester C 3[...]

  • Page 26

    26 Cy clohexanol C 6 H 12 O 0.962 1454 3.6 Cy clohexanon e C 6 H 10 O 0.948 1423 4.0 Decane (46) C 10 H 22 0.730 1252 1-Decene (27) C 10 H 20 0.746 1235 4.0 n-Decyle ne (2 7 ) C 10 H 20 0.746 1235 4.0 Diacetyl C 4 H 6 O 2 0.99 1236 4.6 Diamy lamine C 10 H 23 N 1256 3.9 1,2 Dibrom o-eth ane (47) C 2 H 4 Br 2 2.18 995 trans- 1,2-Dibrom oethene(47) C [...]

  • Page 27

    27 Fluoro-benzen e (46) C 6 H 5 F 1.024 (20ºC) 1189 Formal dehy de, meth yl es ter C 2 H 4 O 2 0.974 1127 4.02 Formam ide CH 3 NO 1.134 (20ºC) 1622 2.2 Formic acid, am ide CH 3 NO 1.134 (20ºC) 1622 Freon R 12 774.2 Furfural C 5 H 4 O 2 1.157 1444 Furfury l alcohol C 5 H 6 O 2 1.135 1450 3.4 Fural C 5 H 4 O 2 1.157 1444 3.7 2-Furaldeh yde C 5 H 4[...]

  • Page 28

    28 2-Meth ylph enol (46) C 7 H 8 O 1.047 (20ºC) 1541 3-Meth ylph enol (46) C 7 H 8 O 1.034 (20ºC) 1500 Milk, h omog enized 1548 Morpholine C 4 H 9 NO 1.00 1442 3.8 Naphth a 0.76 1225 Natu ral Gas (37) 0.316 (- 103ºC) 753 Neon (45) Ne 1.207 (-246ºC) 595 Nitrobenzen e (46) C 6 H 5 NO 2 1.204 (20ºC) 1415 Nitrogen (45) N 2 0.808 (-199ºC) 962 Nitr[...]

  • Page 29

    29 Propyl ene (17,18,35) C 3 H 6 0.563 (-13ºC) 963 6.32 Py ridi ne C 6 H 5 N 0.982 1415 4.1 Refriger ant 11 ( 3,4 ) CCl 3 F 1.49 828.3 3.56 Refriger ant 12 ( 3) CCl 2 F 2 1.516 (- 40ºC) 774.1 4.24 Refri gerant 14 (14) CF 4 1.75 (-150ºC) 875.24 6.61 Refriger a nt 21 ( 3 ) CHCl 2 F 1.426 (0ºC) 891 3.97 Refriger a nt 22 (3 ) CHClF 2 1.491 (-69ºC)[...]

  • Page 30

    30 PORTAFLOW 216 Battery Charge circuit Operation. Charging Controller IC: A Maxim I C MAX712 or MAX 713 controls the Ni-C d and Ni-Mh battery charger. It has two modes, fast charg e and trickle charg e; an output indicates the fast-charg e status. In both m odes it supplies, via a PNP power transistor, a constant current to the battery, by keeping[...]

  • Page 31

    31 Quicker full charge: T he fastest way to fully charge the battery is to charg e for 4.5 hrs, then switch the power supply off and on again, thus re- starting the fast charg e for another 4.5 hr period, followed by trickle charg e. Warning: If the battery is getting warm, that would indicate that it is full, and the power supply should not be con[...]

  • Page 32

    32 Micronics Ltd Knaves Beech Bu siness C entre, Davie s Wa y, Lo udwater , Hi gh Wycombe , Bucks . HP10 9QR U.K. Telephone: +44 (0) 1628 810456 Fax: +44 (0) 1628 531540 www.mi c r o n ic s l td . c o . uk e-m ail – sales@micronicsltd.co.uk[...]