Godet Columbus (DIN 15232)
Godet d'élévateur Type G
G80, G90, G100, G110, G120, G130, G150, G160/1.5, G160/2.0, G180/1.5, G180/2.0, G200/1.5, G200/2.0, G225/1.5. G225/2.0, G250/1.5, G250/2.0, G300/1.5, G300/2.0, G350/1.5, G350/2.0, G400/2.0, G400/2.5, G500, GS350-230, GS350-240, GS500/1 HDP, GS500HDP

Godet d'élévateur de fabrication emboutie, adapté à la manutention de produits s’écoulant librement dans des élévateurs à vitesse moyenne.

Columbus elevator bucket (DIN 15232)
Product Features
  • Fabrication emboutie
  • Godet d'élévateur adapté à la manutention des produits s'écoulant librement sur des élévateurs à vitesse moyenne
  • Fourni avec des trous de fixation emboutis standard
Material
Inox,
Acier
Use by Industry
Agriculture
Use by Product
Céréales,
Pellets & Produits légers,
Industrie légère
    Godet Columbus (DIN 15232) - drawing
     G-TYPE - Columbus A B C D* T Weight Capacity Capacity Holes E F G
    STANDARD RANGE (mm) (mm) (mm) (mm) (mm) (kg) Z2 (total) Z3 (water) No. (Ø mm) (mm) (mm)
    G80 80 75 80 40 1.0 0.13 0.25 0.16 2 8.0 43 19
    G90 90 80 85 45 1.0 0.16 0.33 0.22 2 8.0 46 19
    G100 100 90 91 48 1.0 0.18 0.42 0.27 2 8.0 58 23
    G110 110 95 95 50 1.0 0.21 0.51 0.33 2 8.0 64 26
    G120 120 100 105 55 1.0 0.25 0.70 0.41 2 8.0 67 29
    G130 130 105 110 58 1.0 0.30 0.81 0.49 2 8.0 78 32
    G140 140 115 117 63 1.0 0.33 1.05 0.62 2 8.0 86 35
    G150 150 125 123 66 1.0 0.36 1.21 0.75 2 8.0 87 33
    G160/1.5 160 125 126 70 1.5 0.57 1.31 0.89 2 9.5 101 36
    G160/2.0 160 125 126 70 2.0 0.76 1.31 0.89 2 9.5 101 35
    G180/1.5 180 130 130 76 1.5 0.67 1.62 1.04 2 9.5 110 39
    G180/2.0 180 130 130 76 2.0 0.89 1.62 1.04 2 9.5 110 39
    G200/1.5 200 140 145 88 1.5 0.84 2.25 1.50 2 9.5 131 45
    G200/2.0 200 140 145 88 2.0 1.12 2.25 1.50 2 9.5 131 45
    G225/1.5 225 145 153 90 1.5 1.01 2.81 1.80 3 9.5 70 40
    G225/2.0 225 145 153 90 2.0 1.30 2.81 1.80 3 9.5 70 40
    G250/1.5 250 150 158 92 1.5 1.13 3.15 2.07 3 9.5 77 45
    G250/2.0 250 150 158 92 2.0 1.46 3.15 2.07 3 9.5 77 45
    G300/1.5 300 155 160 95 1.5 1.35 4.20 2.75 3 9.5 104 48
    G300/2.0 300 155 160 95 2.0 1.74 4.20 2.75 3 9.5 104 48
    G350/1.5 350 180 190 100 1.5 1.86 6.37 4.03 4 11.0 90 54
    G350/2.0 350 180 190 100 2.0 2.35 6.37 4.03 4 11.0 90 54
    G400/2.0 400 200 212 112 2.0 3.00 8.17 5.32 4 11.0 100 80
    G400/2.5 400 200 212 112 2.5 3.75 8.17 5.32 4 11.0 100 80
    G500 500 224 236 125 3.0 6.00 14.50 9.50 5 14.0 100 90
    G-TYPE - Columbus A B C D* T Weight Capacity Capacity Holes E F G
    SPECIAL RANGE (mm) (mm) (mm) (mm) (mm) (kg) Z2 (total) Z3 (water) No. (dia mm) (mm) (mm)
    GS350-230 359 232 236 108 2.5 3.85 9.97 5.22 4 12.0 80 90
    GS350-240 359 244 236 125 2.5 3.91 10.25 6.80 4 12.0 80 90
    GS500/1 HDP 500 226 247 117 9.0 2.35 13.35 6.90
    GS500HDP 500 240 253 117 8.5 2.44 14.58 7.98

    * Note: les dimensions sont intérieures selon norme DIN.

    FAQ - Elevator Buckets

    FAQ - Elevator Buckets

    What is a HIGH EFFICIENCY elevator bucket?  
    HIGH EFFICIENCY elevator buckets incorporate all five of the following characteristics: a smooth interior front face with no "breaks", wing-less side walls, close vertical placement on the elevator belt, a tapered bottom and the ability to nest for shipping and storage.  For more details, CLICK HERE  
         
    Why use Low Profile elevator buckets?  
    Low profile elevator buckets are created to achieve the closest vertical spacing possible on the elevator belt, thereby optimizing the system for the greatest potential capacity.  Some styles of elevator bucket require modification and others are low profile by standard design.  Wet or sluggish inputs do not generally load and discharge well in low profile buckets.  Due to the extra capacity that is generated and the weight of the additional buckets and material, belt PIW rating, pulley shaft diameters and motor HP may have to be upgraded.  Check with 4B engineering department about the best way to get the most capacity out of your elevator leg.  
         
    Why add vent holes to the bottom of an elevator bucket?  
    When elevating fluffy or powdery materials, vent holes in the bottom of the elevator bucket allow it to fill and discharge more efficiently.  As material enters the bucket, it encounters a pillow of air resting in the bottom.  Vent holes provide an escape path for this pillow of air, so that the entering material does not bounce out of the bucket and back down the elevator leg casing.  Upon discharge, the vent holes allow air to re-enter the bucket at the material exits, releasing any vacuum that might hold it the bucket too long, creating down legging.  
         
    Are CC style elevator buckets interchangeable with Starco elevator buckets?  
    Starco elevator buckets have a special shallow geometry and are intended to be placed extremely close together on the elevator belt.  Therefore, you should check with the 4B engineering department before replacing Starco elevator buckets with any other brand or design.  
         
    How long of an elevator bolt do I need?  
    When installing buckets on an elevator belt, use this simple formula: 
    (belt thickness + bucket back thickness + washer thickness + nut thickness + 1/4 inch)  
         
     

    What is a "digger" bucket?  
    Some materials can form a hardened crust along the side wall of the elevator boot, and powders sitting over time can become rock hard.  Both of these issues can cause premature elevator bucket wear.  Digger buckets are designed to have slightly more width and projection than standard buckets, thereby "digging" through or breaking apart the hardened material, helping to prevent added wear to the standard buckets.  Digger buckets are traditionally made from steel, however nylon buckets may also be used depending on the application.  
         
    How many digger buckets do I need?  
    For most applications, use one digger bucket for every nine standard buckets.  
         
    Can I use buckets on an overlap splice?  
    An overlap splice doubles the thickness of the belt, so a bucket's projection will increase on the overlap.  Usually this will not cause a problem, but if it does, you can use buckets with one inch less projection or cut the tip of each bucket by half an inch on the spliced area.  
         
    When using an overlap splice, how much extra belt should I use for the splice?  
    The length of the splice should be three times the width of the belt.  
         
    How often should I replace head pulley lagging?  
    Lagging should be replaced every time the elevator belt is replaced.

    Service Design pour Elévateurs à Godets

    Service Design pour Elévateurs à Godets

    A 4B, nous avons conçu des centaines d'élévateurs a godets, pour toutes les applications, y inclus l'alimentation animale, céréales, ciment, sable, charbon et autres.

    Profitez de notre service de design gratuit. Qu'il s'agit d'un élévateur nouveau ou existant, notre equipe d'ingénieurs peut vous donner une recommandation technique détaillée, avec une capacité et des caractéristiques de décharges optimales.

    Pour recevoir une calculation gratuite

    remplissez le formulaire ci-dessous. -Tous les champs doivent être renseignées. .

    A 4B, nous avons conçu des centaines d'élévateurs a godets, pour toutes les applications, y inclus l'alimentation animale, céréales, ciment, sable, charbon et autres.

    Profitez de notre service de design gratuit. Qu'il s'agit d'un élévateur nouveau ou existant, notre equipe d'ingénieurs peut vous donner une recommandation technique détaillée, avec une capacité et des caractéristiques de décharges optimales.

    Pour recevoir une calculation gratuite

    remplissez le formulaire ci-dessous. -Tous les champs doivent être renseignées. .

    Contact

    Votre Elévateur

    If you would like to send us a technical drawing or document with your enquiry, please send to 4b-france@go4b.com.

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