VACUUM CUPS Cups are vacuum accessories which allow in an easy way to lift or to manipulate things, plates of other bodies, difficult to grip with traditional holding systems, because they have no grips or they are breakable or because they can easily be deformed. VUOTOTECNICA cups are manufactured by compression under vacuum and they can be supplied in different compounds, the most common being: OIL-RESISTANTRUBBER This excellent compound has a hardness of 0 Shore, resists oil, fats, hydrocarbons, and gas. In addition to these chemicophysical characteristics, this compound has optimum mechanical characteristics making it suitable for heavy work involving jerking, squashing, impact, etc. It can resist temperatures up to 0-70º C. NATURAL PARA RUBBER A compound with hardness 4 Shore. Compared to the oilresistant rubber, it is extremely flexible, making it suitable for solving problems of difficult grip, like irregular shapes or surfaces. The chemicophysical characteristics are inferior to those of oil-resistant rubber and it cannot, for example, be used in contact with oil or grease. In compensation it has better mechanical characteristics. It can tolerate temperatures of 0 to 0º C without alteration. SILICONE This compound has a hardness of 4 Shore. Because of its chemicophysical characteristics, it can be used in contact with oils, hydrocarbons, and gas, as with the oil-resistant rubber. Thanks to its excellent flexibility it can be used to grip loads with irregular shapes of surfaces, as with natural Para rubber. Its excellent heat resistance means it can be used in contact with surfaces at up to 20 C. Compared with the other rubber compounds described above, silicon rubber has poor mechanical resistance. TECHNICAL DATA The holding force of the cups has been calculatedusing the following formula: = S x P η S = Surface area of the cup, expressed in sqcm P = exerted by the atmospheric pressure expressed in kg/sqcm η = Safety Factor SAFETY FACTOR: Our cups have been designed to theoretically hold a load equal to three times of the value of the force shown in the tables. The stated figures have been obtained based on the following: P = 0,7 kg/sqcm, value created by a vacuum level of 70 mbar η = 3; safety factor, valid when the grip plane of the cups is horizontal. For example, a cup ø 0 mm (Art. 01 0 10), which has a surface area, S, of 28,2 sqcm, will obtain the following holding force using this calculation: Forza = 28.2 x 0.7 = Kg. 7.0 3 This is based upon the following conditions: A vacuum level of 70 mbar, equal to 0,7 kg/sqcm. Horizontal grip plane of the cups. A non-porous load and with regular grip surface CUPS WITH SUPPORT E3-1
BELLOWS CUPS WITH SUPPORT BELLOWS CUPS WITH SUPPORT SPECIAL CUPS AND VACUUM CUPS HOLDERS On request we can supply special cups with and without support, plate and rubber strips, and vacuum cups holders: do not hesitate to ask technical sheet to our technical department. E3-2
SIMPLE VACUUM GENERATORS AND WITH MULTIPLE EJECTORS Vacuum generators - both of simple one and with multiple ejectors - operate using the Venturi principle. When feeding the generator with compressed air in port P, a depression is produced at connection U and at port R the feeding air is released. By interrupting to feed P, the vacuum effect in U stops. They work using compressed air at 4 bar. The simple vacuum generators are generally used for moving by means of cups non-porous objects or on equipment where the capacity and the vacuum degree requirements are very low. The vacuum generators with multiple ejectors are instruments able to produce a maximum depression of % equal to a final vacuum of 100 mbar, with different suction capacities. Below you can find a summary about the sucked air quantity of all models. For any other request or technical sheet, please contact our technical department. supply max use pressure vacuum degree air sucked air (Nl/s)referring to different vacuum degree (-KPa) Bar KPa Nl / s 0 10 20 30 40 0 0 70 80 1 01 10 83 0,9 0,770 0,0 0,10 0,0 0,440 0,2 0,1 0,0 -- 1 02 10 83 0,9 0,770 0,0 0,10 0,0 0,440 0,2 0,1 0,0 -- 1 03 10 8 1,8 1,3 1,300 1,10 1,000 0,8 0,770 0, 0,440 0,040 1 04 10 8 1,8 1,3 1,300 1,10 1,000 0,8 0,770 0, 0,440 0,040 PVP 1 8 0,8 0,270 0,20 0,180 0,120 0,070 0,00 0,030 0,004 PVP 2 8 1,0 0,830 0,700 0,0 0,20 0,370 0,230 0,130 0,070 0,007 PVP 2 M 8 1,0 0,830 0,700 0,0 0,20 0,370 0,230 0,130 0,070 0,007 PVP 3 8 1, 1,030 0,820 0,720 0,10 0,410 0,240 0,10 0,080 0,008 PVP 7 X 8 3,2 2,470 2,280 2,100 1,940 1,440 0,970 0,80 0,40 0,00 PVP 7 SX 8 3,2 2,470 2,280 2,100 1,940 1,440 0,970 0,80 0,40 0,00 GV 1 8 0,7 0,270 0,230 0,200 0,170 0,130 0,00 0,00 0,030 0,004 GV 2 8 0,7 0,270 0,230 0,200 0,170 0,130 0,00 0,00 0,030 0,004 GV 3 8 0,7 0,270 0,230 0,200 0,170 0,130 0,00 0,00 0,030 0,004 M3-M3SSX 8 0,8 1,000 0,830 0,10 0,340 0,180 0,120 0,100 0,070 0,030 M7-M7SXX 8 1,4 1,720 1,280 0,8 0,00 0,370 0,270 0,10 0,110 0,00 M10-M10SSX 8 1,9 2,10 2,000 1,0 0,800 0,40 0,00 0,2 0,1 0,0 M14-M14SSX 8 2, 3,00 2,330 1,720 1,000 0,8 0,70 0,30 0,240 0,110 M18-M18SSX 8 3,,000 3,00 2,780 2,020 1,020 0,70 0,440 0,300 0,140 MVG 3 8 0,8 0,8 0, 0,410 0,230 0,180 0,120 0,100 0,070 0,030 MVG 7 8 1,3 1,830 1,440 1,110 0,30 0,410 0,20 0,10 0,110 0,00 MVG 10 8 1,7 2,0 1,80 1,300 0,70 0,40 0,480 0,300 0,200 0,0 MVG 14 8 2,1 3,400 2,40 1,840 1,00 0,880 0,10 0,30 0,240 0,110 GVMN 3 8 0,8 0,830 0,0 0,380 0,200 0,10 0,110 0,0 0,00 0,020 GVMN 7 8 1,3 1,780 1,300 0,980 0,0 0,440 0,2 0,200 0,140 0,00 GVMN 10 8 1,7 2,20 2,000 1,0 0,970 0,0 0,400 0,10 0,070 GVMN 14 MI 3 8 8 2,1 0,8 3,30 0,830 2,420 0,0 1,840 0,380 0,9 0,200 0,800 0,10 0,80 0,110 0,340 0,0 0,00 0,100 0,020 MI 7 MI 10 MI 14 8 8 8 1,3 1,7 2,1 1,780 2,20 3,30 1,300 2,000 2,420 0,980 1,0 1,840 0,0 0,970 0,9 0,440 0,0 0,800 0,2 0,400 0,80 0,200 0,340 0,140 0,10 0,00 0,070 0,100 AVG 18 8,4 4,830 4,80 4,040 3,80 2,720 1,0 1,80 1,070 0,100 AVG 2 8 9, 7,000,30,80,180 3,940 2,70 2,440 1,40 0,10 PVP 12 MX 1,8,800 4,140 2,70 1,380 0,980 0,780 0, 0,410 0,230 PVP 2 MX 3,2 8,10,10 4,100 2,00 1,40 1,170 0,880 0,10 0,30 PVP 40 M 3,2 11,0 8,320,0 2,770 1,980 1,80 1,1 0,830 0,470 PVP 70 M, 22,220 1,870 10,80,2 3,770 3,020 2,270 1,80 0,0 PVP 100 M 9,8 30,000 21,420 14,280 7,140,100 4,080 3,00 2,140 1,220 PVP 140 M 13,0 42,220 30,10 20,100 10,00 7,180,740 4,310 3,020 1,720 PVP 170 M 1,3 0,0 3,100 24,070 12,030 8,,870,170 3,10 2,00 PVP 200 M 19,4,0 39,70 2,40 13,220 9,440 7,0,80 3,970 2,270 PVP 20 M 24,0 77,770,0 37,030 18,10 13,220 10,80 7,,0 3,170 PVP 300 M 29,0 88,880 3,480 42,320 21,10 1,110 12,0 9,0,30 3,30 PVP 2 MDX 3,2 11,940 8,30,80 2,840 2,030 1,20 1,220 0,80 0,480 PVP 3 MDX 4,8 1,830 11,300 7,30 3,70 2, 2,10 1,10 1,130 0,40 PVP 0 MDX, 18,880 13,480 8,9 4,4 3,210 2,0 1,930 1,30 0,770 PVP 0 MDX 8,2 2,0 18,20 12,10,080 4,340 3,470 2,10 1,820 1,040 PVP 7 MDX PVP 10 MD 9,8 1,0 28,10,0 20,430 39,80 13,20 2,40,810 13,220 4,80 9,440 3,8 7,0 2,920,80 2,040 3,970 1,10 2,270 PVP 300 MD 32,0 111,110 79,30 2,910 2,40 18,8 1,110 11,30 7,940 4,40 PVP 40 MD PVP 00 MD 47,8 3,2 11,110 208,330 11,070 148,800 7,710 99,200 38,30 49,00 27,3 3,430 21,910 28,340 1,480 21,310 11,20 14,0,80 8,10 IN THE FOLLOWING PAGE THERE ARE SOME MODELS OF VACUUM GENERATORS BY VUOTOTECNICA. FOR HAVING INFORMATION ON OTHER MODELS OF GENERATORS, PRE-VACUUM PUMPS, INSTRUMENTS FOR MEASURE AND CONTROL, VACUUM VALVES, VACUMM ACCESSORIES OR OTHER TECHNICAL INFORMATION YOU CAN CONTACT OUR TECHNICAL DEPARTMENT. E3-3
VACUUM TECHNOLOGY - VUOTOTECNICA - VACUUM GENERATORS Supply pressure bar 4 Sucked air quantity mc/h 2,7 2,8 -KPa 70 Final pressure mbar ass. 40 300 Air consumption Nl/s 0,7 0,8 Working temperature C Noise level db(a) 3 P=COMPRESSED AIR CONNECTION R=EXHAUST U= VACUUM CONNECTION PVP 2 PVP 3 Supply pressure bar 4 4 Sucked air quantity mc/h 2,8 2,9 3,0 3,4 3, 3,7 -KPa 0 70 8 0 70 8 Final pressure mbar ass. 400 300 10 400 300 10 Air consumption Nl/s 0,7 0,9 1,0 1,1 1,3 1, Working temperature C Noise level db(a) 78 80 P=COMPRESSED AIR CONNECTION 1/8" 1/8" R=EXHAUST 1/8" 1/8" U= VACUUM CONNECTION VACUUM GENERATORS WITH EJECTORS 1 02 10 Supply pressure bar 4 4 Sucked air quantity mc/h 2,7 2,8 2,8 4,8 -KPa 70 83 2 78 8 Final pressure mbar ass. 40 300 170 380 220 10 Air consumption Nl/s 0,7 0,8 0,9 1,3 1, 1,8 Working temperature C Noise level db(a) 3 80 Seal kit 00 1 00 00 1 01 P=COMPRESSED AIR CONNECTION R=EXHAUST 1/2" U= VACUUM CONNECTION 3/8" VACUUM GENERATORS PVP7 SX PVP7 SX Supply pressure bar 4 Sucked air quantity mc/h 8, 8,8 8,9 -KPa 0 73 8 Final pressure mbar ass. 400 270 10 Air consumption Nl/s 2,3 2,8 3,2 Working temperature C Noise level db(a) 3 Seal Kit 00 1 27 Silencer SS 03 1 Vacuum gauge 09 03 1 P=COMPRESSED AIR CONNECTION U= VACUUM CONNECTION 3/8" 1 01 10 1 03 10 4 2,8 4,8 83 2 78 8 170 380 220 10 0,9 1,3 1, 1,8 79 1/2" 3/8" 1 04 10 VACUUM GENERATORS PVP 2 MDX / 3 MDX / 0 MDX PVP 2 MDX Supply pressure bar 4 Sucked air quantity mc/h 3 39 43 -KPa 82 Final pressure mbar ass. 30 180 100 Air consumption Nl/s 2,3 2,8 3,2 Working temperature C Noise level db(a) 8 Seal Kit and valves 00 KIT PVP 2 MDX Silencer Vacuum gauge Pressure gauge PVP 3 MDX 4 47 2 7 82 30 180 100 3,4 4,1 4,8 8 00 KIT PVP 3 MDX SSX 3/4" 09 03 1 09 032 PVP 0 MDX 4 7 2 8,0 82 30 180 100 4,7,, 0 00 KIT PVP 0 MDX E3-4
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