Conair GB/ WSB 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
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118

Aller à la page of

Un bon manuel d’utilisation

Les règles imposent au revendeur l'obligation de fournir à l'acheteur, avec des marchandises, le manuel d’utilisation Conair GB/ WSB. 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 Conair GB/ WSB 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 Conair GB/ WSB 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 Conair GB/ WSB devrait contenir:
- informations sur les caractéristiques techniques du dispositif Conair GB/ WSB
- nom du fabricant et année de fabrication Conair GB/ WSB
- instructions d'utilisation, de réglage et d’entretien de l'équipement Conair GB/ WSB
- 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 Conair GB/ WSB 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 Conair GB/ WSB et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Conair 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 Conair GB/ WSB, 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 Conair GB/ WSB, 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 Conair GB/ WSB. 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

    Gra vimetric Blender s Instant Access P arts and Ser vice (800) 458-1960 (814) 437-6861 www .conairnet.com The Conair Group , Inc. One Conair Drive Pittsburgh, P A 15202 Phone: (412) 312-6000 F ax: (412)-312-6320 GB and WSB models with 4-component contr ol UGB006/ 1103 Installation Maintenance Operation T r oubleshooting[...]

  • Page 2

    It’ s a good idea to record the model and serial number(s) of your equipment and the date you recei ved it in the User Guide. Our service department uses this information, along with the manual number , to provide help for the specif ic equipment you installed. Please keep this User Guide and all manuals, engineering prints and parts lists togeth[...]

  • Page 3

    The Conair Group Inc. FOUR COMPONENT SOFTWARE GB and WSB Model Blenders TABLE of CONTENTS GETTING STARTED, READ THIS PAGE ................ Page 3 SAFETY HAZARDS ................................. Page 4 DISCLAIMERS .................................... Page 5 PART I - ASSEMBLY Assembly and Installation Instructions ......... Page 6 Wiring Considerati[...]

  • Page 4

    Page 2 GETTING STARTED, READ THIS PAGE. THE NEXT 9 PAGES OF THIS MANUAL WILL GUIDE YOU, STEP BY STEP, TO A SUCCESSFUL STARTUP. IT WON'T TAKE LONG; SO.... PLEASE, DON'T SKIP AHEAD. HERE ARE THE STEPS YOU WILL FOLLOW. SAFETY HAZARDS: Two hazards exist on this unit: mix blades and Page 4 slide valves. Read this short sensible page so no one [...]

  • Page 5

    Page 3 SAFETY HAZARDS +-----------------------------------------------------------+ ¦ MIX BLADES ¦ ¦ ¦ ¦ Mix blades are driven with substantial torque. ¦ ¦ ¦ ¦ NEVER place your hand in the mix chamber ¦ ¦ unless power is completely disconnected. ¦ ¦ ¦ ¦ SERIOUS INJURY may result. ¦ +--------------------------------------------------[...]

  • Page 6

    Page 4 DISCLAIMERS PRODUCTION of FAULTY PRODUCT Processing conditions and materials vary widely from customer to customer and from product to product. It is IMPOSSIBLE for us to anticipate ALL processing conditions and requirements, or to be certain that our equipment will perform properly in all instances. You, the customer, must observe and verif[...]

  • Page 7

    Page 5 +--------------------------------------------------------------------+ ¦ PART I - ASSEMBLY ¦ +--------------------------------------------------------------------+ ASSEMBLY and INSTALLATION INSTRUCTIONS CAUTION: LOAD CELLS ARE EASILY DAMAGED. If the FRAME is dropped from TWO FEET, the load cells WILL be DAMAGED. PLEASE, BE CAREFUL. The fol[...]

  • Page 8

    2. Slide the WEIGH BIN into position. It rests high in the frame and is inserted from the side that has the hinged access window. Install with the air cylinder toward you. If bin is already in place, remove any shipping materials, tape or string. 3. Hang the Color and Additive Feeders: a. Lift side latches and fully extend slide assembly. Remove th[...]

  • Page 9

    WIRING CONSIDERATIONS The wiring of your blender is very important to its proper operation. Electronics are very susceptible to voltage spikes and static charges, both of which are very common in plastics factories. To MINIMIZE these things, consider the following. 1. The power supply should be solid; a strong supply, not limited by a "just ad[...]

  • Page 10

    CHECK OUT PROCEDURE As you go through this procedure, if WHAT SHOULD HAPPEN, doesn't happen, see the next section, DIAGNOSTICS, for what to check. NOTE: 100 and 200 series models (3K load cells), display all weight readings in 1/10 grams ( x.x). 400, 900, and 1800 series models (10K load cells) display in FULL grams, no decimal. On this page w[...]

  • Page 11

    PRESS "REG" KEY Regrind air solenoid will operate. LED # 1 will light. The Regrind dump valve will open. Press "REG" repeatedly to observe operation. PRESS "NAT" KEY Natural air solenoid will operate. LED # 2 will light. The Natural dump valve will open. Press "NAT" repeatedly to observe operation. PRESS &quo[...]

  • Page 12

    DIAGNOSTICS - for the CHECK OUT PROCEDURE If display fails to come on at all: check for power at outlet. Check the 1/2 amp fuse on panel front. If first display says ( TWELVE ), this is NOT the correct manual for this software. Obtain a TWELVE software manual. Possible model numbers are: 140, 220, 240, 420, 440, 940, 1840. If model number is not co[...]

  • Page 13

    We program every controller to match the model it is shipped with. If your controller DOES NOT display the correct model (first two digits only) on power up, follow these instructions. There are SEVEN basic models of Weigh Scale Blenders. The MODEL number your unit is set for (first two digits only) is displayed during the start up sequence every t[...]

  • Page 14

    +--------------------------------------------------------------------+ ¦ PART II - OPERATION ¦ +--------------------------------------------------------------------+ LOAD CELL CALIBRATION NOTE: Display examples shown here are in tenths of grams as displayed On 100 and 200 series models. 400, 900 and 1800 series models display full grams, no decim[...]

  • Page 15

    RATE CALIBRATION RATE CALIBRATION is probably not necessary. The software initially expects STANDARD hardware. However, if you are using an auger feeder on a model with four dispense valves, or a 1/2 inch auger instead of a 1" auger, the software will take 10 or 20 cycles to adjust to correct operation. This slows down the process for a short [...]

  • Page 16

    SELECTED MODELS - SPECIAL INSTRUCTIONS This section relates SPECIAL information about a few selected models. MICRO PULSE Micro Pulse valves are available on models: GB/WSB MB (MICRO Blender) with optional MICRO PULSE valves. GB/WSB 122 with optional MICRO PULSE valves. GB/WSB 131 with optional MICRO PULSE valves. GB/WSB 140 with optional MICRO PULS[...]

  • Page 17

    INSTRUCTIONS FOR NORMAL OPERATION OPERATION: ....very simple. 1. Fill HOPPERS: REGRIND, NATURAL, COLOR, ADDITIVE: in hoppers as labeled. If auger feeders are used: COLOR in RIGHT side feeder, ADDITIVE in LEFT side feeder. 2. Set THUMBWHEEL switches for percentages desired. REGRIND, enter as a percent of the entire mix. (xx percent) COLOR, as a perc[...]

  • Page 18

    NORMAL OPERATING SEQUENCE - EACH CYCLE As the sensor is uncovered, the cycle begins. The target weight of a complete depends on model; 400, 1000, 2000, 4000, 9000, or 18000 grams. REGRIND, if requested, will dispense first. After the Regrind dispense the space remaining in the weigh bin is calculated. NATURAL will dispense second. This dispense is [...]

  • Page 19

    To run a LOWER PERCENTAGE then 00.1 percent, read: PARAMETERS, _XT parameter. To place UPPER LIMITS on the thumbwheel settings, read: PARAMETERS, _SE Parameter. To LOCK OUT others from changing settings, read: KEYPAD, STAR FUNCTIONS, (*78) - Changing the Password. To blend TWO NATURAL materials instead of Natural and Regrind, read: KEYPAD, STAR FUN[...]

  • Page 20

    CONTROLS and OUTPUTS 1. POWER ON switch. Controls all power to the controller and all outputs. When power is switched off, battery backed-up RAM preserves all internal totals and parameters. All other functions are reset for normal start-up when power is restored. 2. STOP END OF CYCLE / CONTINUE switch This is the PREFERRED STOP switch. This switch[...]

  • Page 21

    7. ALL AIR SOLENOID outputs This is a single 17 pin Amphanol plug located on the front of the control panel. This provides 24 volt power for the NATURAL, REGRIND, WEIGH BIN DUMP, and FLOW CONTROL (optional) air solenoids. On Models 140, 240, 440, 940, and 1840 (FOUR valve units), COLOR and ADDITIVE dispense valve solenoids are also powered. These p[...]

  • Page 22

    10. LED LIGHTS The LED lights in two vertical columns of eight located above the 8 character display indicate the following: LEFT COLUMN: 1. REG Regrind dump solenoid operating. 2. NAT Natural dump solenoid operating. 3. COL Color drive relay operating. 4. ADD Additive drive relay operating. 5. DMP Dump valve solenoid operating. 6. ALM Alarm output[...]

  • Page 23

    14. MIXER MOTOR OUTLET This outlet is energized continuously when the MIXER SWITCH is ON (up). In the TIMED position, it stays energized for a time period following the dump of the weigh bin. You may adjust this time in the parameter table (MIX 03010). This time should be just long enough to provide adequate mixing. Mixing for a longer period may c[...]

  • Page 24

    19. COMPUTER input / output If you choose to gather material usage data automatically and continuously by computer, this connector allows for connection to an IBM PC type computer operating under MS-DOS or WINDOWS. The COMPUTER port is a DB9 (9 pin) male port. You will need a specially wired cable from us to connect to the serial output on your sta[...]

  • Page 25

    Detailed explanations are given on the pages that follow. AUTOMATIC OPERATION MODE: (normal operation on power up) These keys are operational in this mode. VIEW: View Data: date, time, cycles, and lbs of Reg, Nat, Col, Add. Press VIEW,* to print all data. At end press 00 to clear data. RCP: Enter and retrieve stored RECIPES. BTCH: Blend a preset we[...]

  • Page 26

    Three (3) operation Modes are available; AUTOMATIC, MANUAL, PROGRAM. KEYPAD - AUTOMATIC OPERATION MODE This is the NORMAL operating mode. When power is turned on, the unit is in this mode. Automatic dispensing occurs ONLY in this mode. The AUTOMATIC mode is indicated by the ABSENCE of the letter "P" or "M" at the left end of the[...]

  • Page 27

    Press RCP to look at another recipe. Display = (GET __). Enter 2 digits to retrieve one of 99 recipes. Display will flash through the current stored data: (RCP __), (R = xx ), (C = xx.x), (A = xx.x), (*TO LOAD) Press * to LOAD this recipe into memory. Routine will exit automatically. Press RCP or EXIT to return to the display (GET __). Press RCP or[...]

  • Page 28

    the ONLY way to CONTINUE OPERATION after a BATCH amount has been run. Assuming a proper "FLG" parameter is set: Press the BTCH key once to view the desired BATCH WEIGHT. Display will say (BW #####). BATCH WEIGHT is the amount you wish to dispense before stopping and/or sounding the alarm. Press again to view the CURRENT PORTION, of the ba[...]

  • Page 29

    NOTE: Fractional cycles are not blended. Total weight may be in over the target by as much as one cycle weight. The EXIT key will exit the BTCH sequence at any point but will NOT cause the system to start a new batch. If an additional 120 volt output is desired for an alarm, substitute a 4 or 7 for the 00001. 4 turns on the Additive outlet, 7 turns[...]

  • Page 30

    These numbers are for your TRACKING of information ONLY. They have NO EFFECT on the operation of the Weigh Scale Blender. WORK ORDER number (6 digits) allows you to tag all information with an internal accounting number such as a job or purchase order number. OPERATOR number (3 digits) allows you to track who is operating the equipment. RECIPE numb[...]

  • Page 31

    The following manual functions are available in the MANUAL mode. SETTING: Press once followed by one of 3 keys: REG, COL, or ADD. The (SET) current thumbwheel setting is displayed. If, while in the program mode, the keypad was used to enter this setting then it will not match the thumbwheel setting. EXIT will exit the sequence. OPERATE: Press once [...]

  • Page 32

    For this key to function, you must first set the weight calibration flag ON. Press *99 to observe flag status. Press * to toggle flag ON or OFF. With flag set ON, press EXIT. Power-off always resets this flag to OFF. Since the bin, even when empty, weighs about 1300 grams, it is necessary on initial setup of equipment to instruct the controller of [...]

  • Page 33

    the WEIGH SCALE BLENDER is to dispense materials in the proper ratios. Because all components are weighed by the same load cells, the accuracy of these ratios is not affected by zero or full scale errors. STAR FUNCTIONS available in this mode. *00 Press (*,0,0) to CLEAR ALL DATA fields. These are the material usage totals that are viewed with the V[...]

  • Page 34

    A new setting may be entered at this time by keypad if so desired. (CE will cancel entry before last digit is entered.) Settings entered by keypad CAN NOT BE ALTERED by the thumbwheel switches. After entering a setting by keypad, verify this by rotating the appropriate thumbwheel switches. An LED will light indicating that the internal setting bein[...]

  • Page 35

    alter the display only. In all other respects, the blender will operate normally. *05 Press (*,0,5) to inhibit the (00=CLEAR) display at the end of the VIEW sequence. Customers using MLAN or G2 software for retrieval of material usage information, may wish to restrict an operators ability to clear the material usage data at the controller. This opt[...]

  • Page 36

    poor electrical environment of a factory. Should some unforeseen circumstances cause the data in RAM to be corrupted or lost, a CLEAR-RESTART procedure is provided that will retrieve the parameter table stored in the EEPROM and copy it into RAM memory for use. If you make changes to the PARAMETER table, these changes reside only in RAM and may be l[...]

  • Page 37

    Normal operation is to end the cycle EMPTY. The (END FULL) option is ONLY for SPECIAL installations where the sensor has been relocated BELOW the mix chamber and the purpose of the unit is to calculate exact material usage rates in order to control an extruder. Leave this flag set to (END EMTY), unless you have specific instructions to do otherwise[...]

  • Page 38

    *57 For LIQUID COLOR applications only. This function usually operates in conjunction with an additional two air solenoids mounted on the blender frame. Press (*,5,7) to allow automatic switch over to a full drum when the current drum of color runs out. When function is off, display will say (COL= 4 ). Press * to toggle to (COL= 4+7). When display [...]

  • Page 39

    NOTE: Do not use these features in combination with *82. *71 and *72 This flag for SPECIAL APPLICATIONS ONLY. Press (*,7,1) to change the Color setting to be interpreted as percent of the entire MIX instead of percent of the Natural. Press (*,7,2) to change the Additive setting in the same way. The display will say (CPM -OFF) or (APM -OFF). Press &[...]

  • Page 40

    Natural will dispense after the Color (or Additive) dispense and will be calculated to assure the most exact percentage ratio for the selected component. Because the Natural dispense is larger, this method allows for more exact ratioing of the one selected critical component. NOTE: Do not use this feature in combination with *69. *83 Press (*,8,3) [...]

  • Page 41

    know the number. But we still will, just in case. Then your own selected regular password will work and as long as you don't forget it, your ok. Blenders are pre-programed with two normal passwords; (22222) is the default password for the PROGRAM mode, (11111) is the default password for the MANUAL mode. You can alter these passwords to any 5 [...]

  • Page 42

    Date: 11/09/93 Time: 17:22:01 Machine number: 002 Display Readout: P 500.0 This is useful for obtaining printed verification of load cell accuracy to comply with ISO-9000 and British Standards rules. The recommended procedure is: 1. Place the unit into the Program mode. 2. Press *88 for printout of empty bin TARE weight. 3. Place a KNOWN CERTIFIED [...]

  • Page 43

    PARAMETERS All WEIGH SCALE BLENDER controllers operate according to certain internal PARAMETERS. Because customer requirements vary widely, we have made over 60 parameters accessible for change through the keypad. BRIEF explanations are given first. FULL information is given in the section that follows. NOTE: Values shown here are initial ROM value[...]

  • Page 44

    JOG 03030 Mix blade JOG count and interval This parameter sets how many jogs will occur and how often. FCV 00006 TIME the Flow Control valve delays before opening (sec.). This parameter holds each batch in the mix chamber for a time to assure mixing. This is only for units equipped with the optional flow control valve under the mix chamber. DTI 000[...]

  • Page 45

    for extremely fluffy or very heavy material. MAX prevents overflowing of the weigh bin. It is reset automatically if the FUL parameter is changed. TH 01000 The highest and lowest acceptable TARE weights for TL 00500 blend cycle to start. (full or tenth grams) TL prevents starting with the weigh bin out of place. No change is required. TH prevents s[...]

  • Page 46

    RMI 00001 Minimum valid dump rate GRAMS/sec. (full or tenth grams) NMI 00001 Error correction is bypassed when dispense rate is lower. CMI 00001 AMI 00001 On power up, these are always set to 1. After several consistent cycles, they are reset to 80 percent of actual flow rate. These prevent excessive swings in flow rate calculations if material is [...]

  • Page 47

    SCR 00000 Special Customer Request function to be activated. BCR 00000 For BAR CODE input equipped blenders. The following parameters are all related to EXTRUSION CONTROL only. XTP 05050 Extrusion Control - TRIP POINT for a Rate adjustment. As batch timing errors accumulate, this number determines how large the accumulated error must be to force an[...]

  • Page 48

    FULL EXPLANATION OF PARAMETERS Most parameters begin with R, N, C, or A. These letters indicate which dispense the parameter controls: REGRIND, NATURAL, COLOR, or ADDITIVE. In the following explanations, only the 2nd and 3rd letters are referenced for each group of codes that start with R, N, C, and A. ==============================================[...]

  • Page 49

    pulsed operation. The first three digits (001xx) controls ON time in tenths of seconds. The last two digits (xxx01) controls OFF time. Larger numbers produce slower dispense rates without any increase in accuracy. Smaller numbers may not allow enough time for the slide to shift fully. Pulsed Output may also assist in dispensing regrind and some pow[...]

  • Page 50

    other correction to allow the process to continue. 00031 to 00039 = DO NOT sound alarm. After specified number of retries stop the retries and continue with the remainder of the cycle. The last digit determines the number of retries before continuing with the process. This would be appropriate if you wish to make several attempts at a dispense, suc[...]

  • Page 51

    digits (FCV 000xx). If your unit is equipped with a Flow Control Valve, under the mix chamber, it is programmed to open whenever the sensor is covered. It will close again immediately when the sensor is uncovered. This assures that material has time to mix before dropping into a bin below. When a batch is dropped into the mix chamber the sensor is [...]

  • Page 52

    target weight during the dispense, a BAILOUT occurs. This ends this dispense immediately just like reaching the end of the dispense time. This in no way effects accuracy. The dispense is checked and retries occur if required. A bailout does not occur unless target weight is exceeded by the weight given in the BAILOUT ERROR parameter. This is primar[...]

  • Page 53

    ROC parameter (ROC 10000), will cause a portion of the Regrind to be SUBTRACTED from the Natural portion, instead of added. EXAMPLE: ROC set to (ROC 10020). The 20 means take 20 % of the REGRIND dispense and ADJUST the NATURAL dispense by this amount. The 1 means adjust by SUBTRACTION. Whatever amount of REGRIND is added, 20 percent of this amount [...]

  • Page 54

    the system takes this to indicate that the regrind hopper is now empty, and the controls revert back to normal. ====================================================================== RHL (LEVEL SENSORS are required for this parameter to work) (Use only if you have regrind level sensors fitted) RHL instructs the controller to change the regrind sett[...]

  • Page 55

    Example: RHL is set to 90 and 10 percent (RHL 09010). ROV is set to zero, (ROV 00000). The "Regrind" thumbwheel switch is set to 25 percent (025). The Software logic is as follows: If material level is high, above the high sensor, the HIGH sensor is COVERED, (returns NO signal); Regrind runs at the HIGH setting; 90 percent. If material le[...]

  • Page 56

    over 3000 grams probably would exceed the volume capacity of the bin and, therefore, not be accurate. We have set the full batch weight to 2000 grams which we considered a conservative full batch weight. Higher batch weights will increase maximum throughput rates. If your Regrind is very fluffy and you use a lot of it, you may find 2000 grams to be[...]

  • Page 57

    _SE (This might be useful) _SE is the upper SETTING limits for the thumbwheel switches. This allows a reasonable cap to be set for each component so that an operator cannot accidentally set the controls to an excessively high setting. For color and additive, these limits will ensure that expensive material is not wasted. Thumbwheel settings that ar[...]

  • Page 58

    interruption for the full specified DELAY time. To prevent false starts from the mix blade, a 1 second minimum (00244) is recommended. Sometimes throughput is slow enough that each new batch buries the mix blade for a while. When this happens the material on top does not mix well. To reduce this, you can delay the start of a new batch by adding to [...]

  • Page 59

    This rate is used to calculate an exact time period to dump the required quantity of material. Both of these numbers are adjusted by the computer logic after each cycle as a means of continuously calibrating the dispense times. This rate correction takes place continuously and the battery- backed RAM maintains the correct rate even when power is tu[...]

  • Page 60

    corrections will take place. Since no equipment is perfect, we must accept that a certain range of error is normal. To make corrections within this range only adds an additional error due to hunting, and broadens the error range. This parameter controls and prevents this. This parameter is adjusted automatically by the software according to the act[...]

  • Page 61

    to occur when very large dispense percentages are being requested. Depending on the accuracy of the metering device, a certain amount of hunting is to be expected from one dispense to the next. Allowing the software to stop trying when it gets sufficiently close to the target results in more perfect average dispenses. The mix chamber and the barrel[...]

  • Page 62

    is required, the _LA number is very important. A lag time number that is too small will result in no dispense at all because of inadequate time for the device to operate. A lag time number that is too big may result in over dispenses when very small amounts are called for. Since too small a number may stall the process, always add 2 to the minimum [...]

  • Page 63

    If you know ONE bar code input is required to before a new cycle is initiated, set this parameter to 00001. The blender is then prevented from operating until one single valid input is received. If two inputs are expected, set this parameter to 00002, etc. ====================================================================== XCV + XRC For Extrusio[...]

  • Page 64

    batch weight of 2000 grams. The FIRST TWO digits indicate how many cycles must run without a rate adjustment before the operator is permitted to switch from voltage (manual) control to Throughput (automatic) control. This is a factor during startup only. Larger numbers assure a very accurate rate has been learned. This is preferred if you like the [...]

  • Page 65

    PTD Yield Control - extrusion control - Pulse Train Delta This allows some error in the pulse train rate. For example, if the pulses are being generated at a rate of 6030 per minute, which is 100.5 per second, and we count pulses every second, then we will count 100 for one second, 101 for the next, then 100, then 101 and so on. This "error&qu[...]

  • Page 66

    If the alarm is activated, the display will say (TIME OUT). Press the alarm silence button to reset the alarm. A new cycle will also reset the alarm. If another alarm is currently active (material not dispensing for example) then this Monitor alarm is ignored or reset. ====================================================================== Page 67[...]

  • Page 67

    PARAMETER DEFAULT SETTINGS - FOUR SOFTWARE Here is a complete list of the "default" entries for all parameters as they are provided in the original program, and as they will appear after a CLEAR ALL or a model change. The Model 220 list is the ORIGINAL BASE list. Models 240, 140, MB, and 940 show only changes from the 220 list. Models 184[...]

  • Page 68

    NPT 00 ¦ CPT 00 ¦ APT 00 ¦ ¦ RWT 26000 26000 18000 22400 ¦ 30000 20800 20800 RTI 976 976 976 15616 ¦ 976 7808 7808 NWT 26000 26000 18000 22400 ¦ 30000 20800 20800 NTI 976 976 976 15616 ¦ 976 7808 7808 CWT 20480 26000 1280 22400 ¦ 20800 2048 20800 CTI 31232 976 31232 15616 ¦ 7808 31232 7808 AWT 20480 26000 1280 22400 ¦ 20800 2048 20800 AT[...]

  • Page 69

    CHANGING PARAMETERS To change a PARAMETER, the sequence of keystrokes is as follows: +--------------------------------------------------------------+ ¦ Press: * Display will say: (PASSWORD) ¦ ¦ Press: 22222 Display will say: (P x.x) ¦ ¦ Press: PARA Display will say: (RRAxxxxx) ¦ ¦ Press: PARA Press again to walk FORWARD through list. ¦ ¦ P[...]

  • Page 70

    +--------------------------------------------------------------------+ ¦ PART III - PRINTED OUTPUTS ¦ +--------------------------------------------------------------------+ MONITORING SYSTEM ACCURACY *54 - CYCLE PRINTOUT INFORMATION The best way to monitor system accuracy is to connect a printer to the printer port and turn the printer flag ON (K[...]

  • Page 71

    Notice that REG shows a full percentage only, no tenths. The software only accepts full percentage entries for regrind. Tenths are ignored. TWELVE software will print up to 3 line groups, 4 components per line, printing only those that are currently turned on. The CYCLE heading: ------------ ------------ ------------ ------------ ------ * 11/10/97 [...]

  • Page 72

    If the first dispense weight, (data line 3), matches the final dispense, (data line 1), then no "retries" occurred. In other words, the first try was accepted by the software. If they do not match, then the first try was short and one or more retries occurred. The second number is the dispense time that the software calculated to be a cor[...]

  • Page 73

    RETRIES: (DATA line 3 and 1, FIRST and FINAL dispense) When FIRST time dispense, (DATA line 3), does not equal FINAL dispense, (DATA line 1), one or more retries have occurred. Retries are evidence of a problem that will also cause percentage errors. Retries may indicate possible problems; perhaps the hopper ran out of material, or the flow rate is[...]

  • Page 74

    ERROR CORRECTIONS: RATE NUMBERS. (DATA line 2) The RATE numbers are used by the software, each cycle, to calculate material dispense times. They are adjusted every cycle until flow rates stabilize. When a significant error is detected, the software adjusts the RATE numbers. The GRAM number is adjusted first. The TIME number (interrupts) is changed [...]

  • Page 75

    small amounts, but are using a high rate dispense valve to do the job. An auger, a vertical valve, a horizontal valve with a flow restrictor, or a smaller valve would help to improve accuracy and control. If the timing number is below 5, you are operating in a range were it is difficult for the blender to perform well. The LAG time parameter adds t[...]

  • Page 76

    3. Third, look at the dispense TIME (DATA line 3). Very short times (10, 20, 30 interrupts) indicate dispense devices not well matched to the task. Accuracy on a percentage basis, cycle to cycle, will suffer. This may very well be acceptable as long as overall usage percentages are still accurate. BAILOUT: (line 4) If bailouts occur, vibration is u[...]

  • Page 77

    MATERIAL USAGE INFORMATION Pressing the VIEW key followed by the * key will cause all material usage totals to be printed. The (*54) flag need not be on. These totals are since the last time printed, and since the last time cleared. This same information may be periodically, and automatically, printed by setting the PRT parameter to a time interval[...]

  • Page 78

    +--------------------------------------------------------------------+ ¦ PART IV - TROUBLESHOOTING ¦ +--------------------------------------------------------------------+ WHAT TO DO If you are reading this section, you are having problems. To locate and correct the problem we suggest that you take the following steps: 1. Start by reading the WIR[...]

  • Page 79

    INCREASING THROUGHPUT A correctly sized blender should have throughput that always exceeds your process requirements. If, for some reason, your blender is not keeping up, here are a few ways to increase throughput. 1. If your blender is equipped with a flow control slide gate, under the blender, this will reduce throughput up to 25 percent. To coun[...]

  • Page 80

    TYPICAL PROBLEMS These problems are based on phone calls that we have received from GB/WSB Autoweigh Blender. The display does not read close to zero when power is turned on, bin empty (plus or minus 10 grams). * The load cells are not plugged in. * The weigh bin is not resting properly and freely in its platform or the platform is not resting prop[...]

  • Page 81

    Occasionally, the system gets STUCK doing retries of a component but the retry time is so short that nothing gets dispensed. * The LAG TIME parameter is set for too short a time. See KEYPAD, TIME, and PARAMETER, _LA. * The dispense valve is sticking, slightly delaying it's opening. The time period is too short for the valve to begin moving. Th[...]

  • Page 82

    NORMAL OPERATING SEQUENCE This section tells you how the system is supposed to work. If your system is not operating correctly, this description may help you spot exactly where the system is failing, providing a clue to the problem. Turn POWER ON: The following displays occur for 1 second each: Program version date (V=21031A), the check sum number [...]

  • Page 83

    NATURAL second: The NATURAL dispense occurs next in the sequence. The letter "N" will appear in the display. The exact weight of the NATURAL dispensed is now determined for calculating the COLOR and ADDITIVE dispenses. The TOTAL weight of NATURAL and REGRIND combined will appear in the display 3 seconds AFTER the Natural dispense has ende[...]

  • Page 84

    VERIFYING LOAD CELL FUNCTION Most Problems are related to LOAD CELL function. There are several ways to VERIFY that the load cells are functioning properly. The slightest touch on the weigh bin should result in a change in the readout. If this is not the case, something is wrong. When the light touch is removed, the display should return to its sta[...]

  • Page 85

    LOAD CELL RAW SIGNAL READOUT Press "CE" key to check this RAW number for several seconds. Load cells put out a very small voltage that varies slightly as the load cell is deflected. This voltage is converted, on the circuit board, to a pulse train and these pulses are counted for 1 full second to determine a weight load. The software can [...]

  • Page 86

    LOAD CELL plus WEIGH BIN TEST to verify correct operation This test is to help you determine if the load cells are working correctly, and if the weigh bin and weigh bin hanger are moving freely and registering weight correctly. Have a pad and pencil ready to write down the weight readings that appear on the display, both before and after each dispe[...]

  • Page 87

    "CLEAR" ROUTINE A "CLEAR" routine is available that will clear all data, flags, and all other current information from memory. Since MEMORY is battery backed up, turning power off does not clear all fields. A great deal of information is intentionally held for later use. A "CLEAR" routine will clear all RAM data and st[...]

  • Page 88

    +--------------------------------------------------------------------+ ¦ PART VI - HARDWARE MAINTENANCE ¦ +--------------------------------------------------------------------+ HARDWARE ADJUSTMENTS AIR PRESSURE Set AIR PRESSURE to about 80 PSI for best accuracy. However, lower pressures will work. If you plant air fluctuates, set the regulator to[...]

  • Page 89

    CLEAN OUT ISSUES We always try to design with clean out in mind. For this reason all models have removable weigh bins, mix blades, and mix chambers. Selected models have additional clean out issues. GBM Micro Blenders and all blenders with removable hoppers use our verticalor pivot style valves. Most pivot valves are fitted with a sleeve over the a[...]

  • Page 90

    MIX PROBLEMS Customers with mix problems have several options available. 1. Decrease the batch size by lowering the FUL parameter value. This does two things. First, it causes the components to be dispensed in smaller, more frequent batches which places more and smaller layers of material into the mix chamber. Second, it lowers the level of materia[...]

  • Page 91

    9. Models GB/WSB-GBM, 100 series, and some 200 series units use an air drive for the mix blade, instead of an electric motor. Air drives have these advantages: a) Improved mixing due to back and forth motion of the blades. b) No EMF (Electro Magnetic Force) feedback to the processor from electrical demands of the motor resulting, the results in les[...]

  • Page 92

    RECALIBRATION OF LOAD CELLS This unit was calibrated at the factory to match the load cells that were supplied with it. If you recalibrate, note the following: Recalibration can not be done until the Recalibration flag is turned ON. The proper sequence of keystrokes is given below. BE SURE the load cell plug is plugged into the side of the controll[...]

  • Page 93

    BLENDER PREVENTIVE MAINTENANCE There are no components of your blender that require periodic maintenance. However, over the years, blenders may be subjected to abuse or difficult conditions, and accuracy can suffer. To maintain control over the cost of expensive color and additives, you must maintain accuracy. We recommend that blenders be examined[...]

  • Page 94

    The blade assembly should slip on and off the motor shaft easily. The need to use excessive force to remove the mixer assembly may bend the blades and they may eventually break off. Correct this if it is a problem. *77 and *54 PRINTOUTS After you have fixed any problems, use the *77 and *54 functions to obtain printouts and fax them to us for evalu[...]

  • Page 95

    SPECIAL TOTALIZER FUNCTION A special function is available that allows throughput TOTALS to be displayed at all times. This flag is for TOTALIZER models only. When set, the display will continuously display the total amount of material that has passed through the unit since the total fields were last cleared. When the unit is functioning as a total[...]

  • Page 96

    COMPUTER OUTPUTS - WIRING SUPPLEMENT 17 pin connector This computer output; | drives this device on the board; | that goes to the outside world through this connector; | to drive this external device. | wire color | formerly optical coupler outputs | 17 pin Amphonal connector | 1 1 pin A weigh bin dump air solenoid brown 2 2 pin B component 1 air s[...]

  • Page 97

    Conair has made the lar gest in v estment in customer suppor t in the plastics industr y . Our ser vice experts are a v ailab le to help with any pr oblem y ou might ha v e installing and oper ating your equipment. Y our Conair sales r epresentati v e also can help analyz e the na tur e of y our pr oblem, assuring tha t it did not result fr om misa[...]

  • Page 98

    A PPENDIX A-2 W ARRANTY I NFORMA TION E QUIPMENT G U ARANTEE P ERFORMANCE W ARRANTY W ARRANTY L IMIT A TIONS IMS0003/0795 Conair guar antees the mac hiner y and equipment on this or der , f or a period as def ined in the quota tion fr om da te of shipment, against def ects in ma ter ial and w or kmanship under the normal use and ser vice f or whic [...]

  • Page 99

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS GBM22 GBM31 GBM40 Perf ormance characteristics Batch size lbs {g} .882 {400} .882 {400} .882 {400} Maximum throughput lbs/hr {kg/hr}* 97 {44} 111 {50} 132 {60} Bin capacity - large bins ft 3 {liter} 0.4 {11.3} 0.4 {11.3} 0.4 {11.3} Maxi[...]

  • Page 100

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS GB122 GB131 GB140 Perf ormance characteristics Batch size lbs {g} 2.2 {1000} 2.2 {1000} 2.2 {1000} Maximum throughput lbs/hr {kg/hr}* 200 {90} 280 {128} 450 {204} Bin capacity - main ingredient ft 3 {liter} 1.0 {28.32} 1.0 {28.32} 1.0 {[...]

  • Page 101

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com GRA VIMETRIC B A TCH BLENDERS GB 220 and 420 Models SPECIFICA TION NOTES: Each bin compar tment will suppor t a 12-inch to 15-inch loader or vacuum receiver . * Throughput rates are based on using no more than 5% additiv e or colorant material[...]

  • Page 102

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com B A GRA VIMETRIC B A TCH BLENDERS A utoW eigh GB240 and GB440 Models SPECIFICA TION NOTES: Each bin compar tment can suppor t a 12-inch to 15-inch loader or vacuum receiver . * Throughput rates are based on using no more than 2% additive or co[...]

  • Page 103

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS GB920 GB940 GB960 Perf ormance characteristics Batch size lbs {g} 19.8 {9000} 19.8 {9000} 19.8 {9000} Maximum throughput lbs/hr {kg/hr}* 5200 {2359} 3300 {1497} 2124 {965} Bin capacity - main ingredient ft 3 {liter} 8.5 {240.7} 6.7 {189[...]

  • Page 104

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS GB1840 GB1860 Perf ormance characteristics Batch size lbs {g} 39.7 {18000} 39.7 {18000} Maximum throughput lbs/hr {kg/hr}* 4114 {1870} 2566 {1166} Bin Capacity - Main Ingredient ft 3 {liter} 6.7 {189.7} 3.8 {107.6} Bin Capacity - Minor [...]

  • Page 105

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS WSBM22 WSBM131 WSBM140 Perf ormance characteristics Batch size lbs {g} 0.882 {400} 0.882 {400} 0.882 {400} Maximum throughput lbs/hr {kg/hr}* 97 {44} 111 {50} 132 {60} Bin capacity - standard bins ft 3 {liter} 0.4 {5.7} 0.4 {5.7} 0.4 {5[...]

  • Page 106

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS WSB122 WSB131 WSB140 Perf ormance characteristics Batch size lbs {g} 2.2 {1000} 2.2 {1000} 2.2 {1000} Maximum throughput lbs/hr {kg/hr}* 200 {91} 280 {128} 450 {204} Bin capacity - main ingredient ft 3 {liter} 1.0 {28.3} 1.0 {28.3} 1.0 [...]

  • Page 107

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com 0 0 0 0 0 0 0 0 0 B A GRA VIMETRIC B A TCH BLENDERS WSB 220 and 420 Models SPECIFICA TION NOTES: Each bin compar tment will suppor t a 12-inch to 15-inch loader or vacuum receiver . * Throughput rates are based on using no more than 5% additiv[...]

  • Page 108

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS WSB240 WSB241 WSB242 WSB440 WSB441 WSB442 Perf ormance characteristics Batch size lbs {g} 4.4 {2000} 4.4 {2000} 4.4 {2000} 8.8 {4000} 8.8 {4000} 8.8 {4000} Maximum throughput lbs/hr {kg/hr} * 993 {451} 678 {308} 518 {235} 1645 {748} 983[...]

  • Page 109

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS WSB920 WSB940 WSB950 WSB960 Perf ormance characteristics Batch size lbs {g} 19.8 {9000} 19.8 {9000} 19.8 {9000} 19.8 {9000} Maximum throughput lbs/hr {kg/hr}* 5200 {2359} 3300 {1487} 2492 {1132} 2124 {965} Bin capacity - main ingredient[...]

  • Page 110

    One Conair Drive ● Pittsb urgh, P A 15202 ● 412-312-6000 ● F AX 412-312-6227 ● www .conair net.com MODELS WSB1840 WSB1850 WSB1860 Perf ormance characteristics Batch size lbs {g} 39.7 {18000} 39.7 {18000} 39.7 {18000} Maximum throughput lbs/hr {kg/hr}* 4114 {1866} 3160 {1433} 2566 {1164} Bin Capacity - Main Ingredient ft 3 {liter} 6.7 {189.7[...]

  • Page 111

    APPENDIX C[...]

  • Page 112

    APPENDIX C[...]

  • Page 113

    APPENDIX C[...]

  • Page 114

    APPENDIX C[...]

  • Page 115

    APPENDIX C[...]

  • Page 116

    APPENDIX C[...]

  • Page 117

    APPENDIX C[...]

  • Page 118

    APPENDIX C[...]