Page 23 - Vmeca_Float
P. 23
3 Suction Cups - Direct Fitting Bellows
Features & Strengths Advantages Examples of use
¬ Compensating for a difference in level ¬ Particularly good for use on curved surfaces and for ¬ Cardboards
¬ Various materials for a wide range of seperating thin sheets of material in stacks. ¬ Veneer Sheets
applications ¬ The bellows cup is very good at compensating for a degree ¬ Packaging Materials
of difference in level and curvature of the work piece. ¬ Plastic Sheets
¬ Fitted directly onto a piece of pipe, making installation very
simple and reducing cup cost. ¬ Thin Film Sheets
135PAGE 137PAGE 139PAGE
Ø12.5
Ø8.5
Ø6
VB-M Series 41 49
30mm Cups 32
Code 9204 Material Colour Temperature Hardness Ø22 £ Ø34 Ø53
VB30M-N Nitrile Black -20°C-110°C 60 Ø24 7.05 Ø36 Ø59
Rubber part
VB30M-S Silicone Red -70°C-200°C 55 VB20M-RUBBER PART VB30M-RUBBER PART VB50M-RUBBER PART
12.00
VB30M-WS White Silicone Translucent White -70°C-200°C 55 12.00
VB30M-WS-FDA White Silicone FDA Translucent White -70°C-200°C 55 14.35 Disc Filter
VB30M-CS Conductive Silicone Smokey Black -45°C-90°C 70 20.35 To Suit VB30M
VB30M-U Urethane Dark Green 0°C-100°C 60 35.90
VB30M-A Mark Free Black -10°C-100°C 75 59.80 Code 9204 Material £
VB30M-PU Polyurethane Translucent Orange 0°C-60°C 60 7.05 VTFE-B30 Polyethylene 2.60
135PAGE 137PAGE 139PAGE
Ø12.5
Ø8.5
VB-M Series Ø6
50mm Cups 41 49
32
Code 9204 Material Colour Temperature Hardness £
Ø22 Ø34 Ø53
VB50M-N Nitrile Black Ø24 -20°C-110°C 60 Ø36 8.45 Ø59
Rubber part
55
VB50M-S Silicone Red VB20M-RUBBER PART VB30M-RUBBER PART VB50M-RUBBER PART
18.25
-70°C-200°C
VB50M-WS White Silicone Translucent White -70°C-200°C 55 18.25
VB50M-WS-FDA White Silicone FDA Translucent White -70°C-200°C 55 21.90 Disc Filter
VB50M-CS Conductive Silicone Smokey Black -45°C-90°C 70 22.85 To suit VB50
VB50M-U Urethane Dark Green 0°C-100°C 60 54.75
VB50M-A Mark Free Black -10°C-100°C 75 91.20 Code B01 Material £
VB50M-PU Polyurethane Translucent Orange 0°C-60°C 60 12.00 VTFE-B50 Polyethylene 2.95
For technical information see page 139
140 Vacuum
03 Vacuum-1.indd 140 27/04/2018 10:40