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[Graphic Division] Graphic Division - Product description page 10.01 Tables to select the pneumatic pumps page 10.02 Pneumatic suction pumps Art. PA 40, PA 70 and PA 100 page 10.03 Pneumatic suction pumps Art. PA 140, PA 170 and PA 200 page 10.04 Pneumatic suction pumps Art. PA 250 and PA 300 page 10.05 Pneumatic blowing pumps Art. PS 40, PS 70 and PS 100 page 10.06 Pneumatic blowing pumps Art. PS 140, PS 170 and PS 200 page 10.07 Pneumatic blowing pumps Art. PS 250 and PS 300 page 10.08 Pneumatic suction and blowing pumps combined: Art. PA 40 100 with PS 40 100 page 10.09 Art. PA 140 200 with PS 140 200 page 10.10 Art. PA 250 300 with PS 250 300 page 10.11 Holding supports for pneumatic pumps page 10.12 Suction filters for pneumatic pumps page 10.13 Special vacuum cylinders page 10.14 Disc cups page 10.15 10
[Graphic Division] From the experience and the productive capacity of Vuototecnica, one of the first companies in Europe that made vacuum pumps and vacuum accessories, a division fully devoted to assist the graphics and printing field originated. A reference reality from engineering to service, able to offer innovative and advantageous technological solutions under all points of view: performances, reliability, life, operational economy. A significant demonstration of the specialist skill of Graphic Division is the new line of products. Among the most representative we offer: PNEUMATIC SUCTION AND BLOWING PUMPS This new generation of very flexible pumps with multiple ejectors, able to suck or blow according to what is required, represents a real technological advancement compared to the traditional pumps with rotating vanes. Characterized by newly conceived ejectors, these exclusive pumps have an extraordinary ratio between the quantity of compressed air used and the sucked (or generated) air, a big advantage for the operational consumption. Furthermore they have the ability to adjust the vacuum level (or pressure level) and the capacity, based on the pressure of the supply air. Moreover the choice of high tech materials of the latest generation, reduces their weight, thus allowing the installation directly on the machine. Vuototecnica s research centre turned its highest attention to the reduced noise of these new pumps, thanks to solutions that provide a full soundproofing with no moving components, thus improving life and avoiding troublesome vibrations. In addition they are based on the Venturi principle that exploits the kinetic energy of the compressed air by means of ejectors in line and consequently they do not develop any heat. The excellent filtering of the compressed air supply and of the sucked air provides oil free blow air as well as being free of oil vapours, water condensate and impurities for the sheet separation on the machine and the working environment with regard to air pollution. Maintenance being reduced to only periodic filter cleaning and an incomparable reliability complete the range of advantages of this safe and competitive technology. These pneumatic suction and blowing pumps are shown and described on the following pages. SPECIAL VACUUM CYLINDERS By assembling a cup on a hollow stem and creating a vacuum, the cup will be quickly brought into contact with the sheet or the object to be taken, will automatically lift it and will keep it as long as the vacuum supply remains. Thanks to this feature, cylinders of this series, used in connection with the cups, are recommended for the separation of paper or plastic sheets. They offer the following advantages: high speed in operation, automatic compensation of the height of the objects to be taken, non-rotating stems, extremely simple fixing. These special cylinders for vacuum are shown and described on the following pages. CUPS Made in the most varied shapes and dimensions, to assure a quick and safe grip, they can be supplied in an anti abrasive natural para rubber, in nitrile rubber, in silicone, in Viton, in polyurethane and in other compounds too, according to the specific requirements. Cups are shown and described in detail in chapter 1; in this chapter only disc cups are shown. 10.01
Maximum suction capacity generated by a corresponding electric pump Maximum vacuum generated by a corresponding electric pump -0.1 bar -0.2 bar -0.3 bar -0.4 bar -0.5 bar -0.6 bar -0.7 bar -0.8 bar -10 kpa -20 kpa -30 kpa -40 kpa -50 kpa -60 kpa -70 kpa -80 kpa 10 cum/ h PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 15 cum/ h PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 PA 70 20 cum/ h PA 40 PA 40 PA 40 PA 40 PA 40 PA 40 PA 70 PA 70 25 cum/ h PA 40 PA 40 PA 40 PA 40 PA 40 PA 70 PA 70 PA 70 30 cum/ h PA 40 PA 40 PA 40 PA 40 PA 70 PA 70 PA 70 PA 100 40 cum/ h PA 40 PA 70 PA 70 PA 70 PA 70 PA 100 PA 100 PA 140 60 cum/ h PA 70 PA 70 PA 70 PA 70 PA 100 PA 140 PA 140 PA 170 80 cum/ h PA 100 PA 100 PA 100 PA 100 PA 140 PA 140 PA 170 PA 200 100 cum/ h PA 100 PA 100 PA 100 PA 100 PA 140 PA 170 PA 200 PA 250 120 cum/ h PA 140 PA 140 PA 140 PA 140 PA 170 PA 200 PA 250 PA 300 140 cum/ h PA 140 PA 140 PA 140 PA 140 PA 200 PA 250 PA 300 -- --- 160 cum/ h PA 170 PA 170 PA 170 PA 200 PA 250 PA 300 -- --- -- --- 180 cum/ h PA 170 PA 170 PA 200 PA 250 PA 300 -- --- -- --- -- --- 200 cum/ h PA 200 PA 200 PA 200 PA 250 PA 300 -- --- -- --- -- --- 250 cum/ h PA 250 PA 300 PA 300 PA 300 -- --- -- --- -- --- -- --- 300 cum/ h PA 300 PA 300 PA 300 -- --- -- --- -- --- -- --- -- --- [Table to select the suction pumps] Example: We have to replace an electric pump having a capacity of 80 cum/h and a residual vacuum of 0,6 bar. In the table cross line 80cum/h with column -0,6bar. At the intersection of the line with the column you will find that pump PA 140 is the ideal one for the replacement. Maximum blowing capacity generated by a corresponding electric pump Maximum overpressure generated by a corresponding electric pump +0.1 bar +0.2 bar +0.3 bar +0.4 bar +0.5 bar +0.6 bar +0.7 bar +0.8 bar +10 kpa +20 kpa +30 kpa +40 kpa +50 kpa +60 kpa +70 kpa +80 kpa 25 cum/ h PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 30 cum/ h PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 40 cum/ h PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 PS 40 60 cum/ h PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 80 cum/ h PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 100 cum/ h PS 70 PS 70 PS 70 PS 70 PS 70 PS 70 PS 100 PS 100 120 cum/ h PS 100 PS 100 PS 100 PS 100 PS 100 PS 100 PS 100 PS 100 140 cum/ h PS 100 PS 100 PS 100 PS 100 PS 100 PS 100 PS 100 PS 140 160 cum/ h PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 180 cum/ h PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 200 cum/ h PS 140 PS 140 PS 140 PS 140 PS 140 PS 140 PS 170 PS 170 250 cum/ h PS 200 PS 200 PS 200 PS 200 PS 200 PS 250 PS 250 PS 250 300 cum/ h PS 250 PS 250 PS 250 PS 250 PS 250 PS 300 PS 300 PS 300 350 cum/ h PS 300 PS 300 PS 300 PS 300 PS 300 PS 300 PS 300 PS 300 400 cum/ h PS 300 PS 300 PS 300 PS 300 PS 300 PS 300 -- --- -- --- [Table to select the blowing pumps] Example: We have to replace an electric pump having a capacity of 80 cum/h and an overpressure of +0,6 bar. In the table cross line 80cum/h with column +0,6bar. At the intersection of the line with the column you will find that pump PS 70 is the ideal one for the replacement. 10.02
suction pumps PA40, PA70 and PA100] Art. PA 40 Maximum vacuum level -KPa 14 30 46 65 82 90 Air consumption Nl/s 1.0 1.5 2.0 2.4 2.8 3.2 Vacuum air flow capacity cum/h 14 22 28 32 36 40 Weight Kg 6.2 Art. PA 70 Maximum vacuum level -KPa 14 30 46 65 82 90 Air consumption Nl/s 2.0 3.0 4.0 4.8 5.6 6.4 Vacuum air flow capacity cum/h 25 40 50 56 62 68 Weight Kg 6.2 Art. PA 100 Maximum vacuum level -KPa 11 28 45 65 82 90 Air consumption Nl/s 3.0 4.5 6.0 7.2 8.4 9.6 Vacuum air flow capacity cum/h 26 52 68 80 89 98 Weight Kg 6.2 N.B.: All the vacuum values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic suction pumps having an extraordinary ratio between the quantity of consumed and sucked air, and to offer the user the possibility to adjust the vacuum level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum vacuum of 90% and a suction capacity ranging from 14 to 98 cum/h, measured at a normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the suction connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow off air free from oil vapours, water condensate and impurities in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.03
suction pumps PA140, PA170 and PA200] Art. PA 140 Air consumption Nl/s 4.0 6.0 8.0 9.6 11.2 12.8 Vacuum air flow capacity cum/h 45 80 105 125 140 150 Weight Kg 7.2 Art. PA 170 Air consumption Nl/s 5.0 7.5 10.0 12.0 14.0 16.0 Vacuum air flow capacity cum/h 50 92 120 140 155 170 Weight Kg 7.2 Art. PA 200 Air consumption Nl/s 6.0 9.0 12.0 14.4 16.8 19.2 Vacuum air flow capacity cum/h 60 110 142 170 188 198 Weight Kg 7.2 N.B.: All the vacuum values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic suction pumps having an extraordinary ratio between the quantity of consumed and sucked air, and to offer the user the possibility to adjust the vacuum level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum vacuum of 90% and a suction capacity ranging from 45 to 198 cum/h, measured at a normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the suction connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow off air free from oil vapours, water condensate and impurities in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.04
suction pumps PA250 and PA300] Art. PA 250 Air consumption Nl/s 7.5 11.2 15.0 18.0 21.0 24.0 Vacuum air flow capacity cum/h 90 130 170 200 225 250 Weight Kg 8.1 Art. PA 300 Air consumption Nl/s 9.0 13.5 18.0 21.6 25.2 28.8 Vacuum air flow capacity cum/h 100 150 200 225 250 300 Weight Kg 8.1 N.B.: All the vacuum values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic suction pumps having an extraordinary ratio between the quantity of consumed and sucked air, and to offer the user the possibility to adjust the vacuum level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum vacuum of 90% and a suction capacity ranging from 90 to 300 cum/h, measured at a normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the suction connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow off air free from oil vapours, water condensate and impurities in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.05
blowing pumps PS40, PS70 and PS100] Art. PS 40 Air consumption Nl/s 1.0 1.5 2.0 2.4 2.8 3.2 Blow air capacity cum/h 18 28 35 41 46 52 Weight Kg 6.3 Art. PS 70 Air consumption Nl/s 2.0 3.0 4.0 4.8 5.6 6.4 Blow air capacity cum/h 33 51 65 74 83 92 Weight Kg 6.3 Art. PS 100 Air consumption Nl/s 3.0 4.5 6.0 7.2 8.4 9.6 Blow air capacity cum/h 37 69 90 106 120 133 Weight Kg 6.3 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic blowing pumps having an extraordinary ratio between the quantity of consumed and generated air, and to offer the user the possibility to adjust the pressure level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum pressure of 0,8 bar (g) and a blowing capacity ranging from 18 to 133 cum/h, measured at the normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the air supply connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow in air free from oil vapours, water condensate and impurities between the sheets of paper to be separated and in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.06
blowing pumps PS140, PS170 and PS200] Art. PS 140 Air consumption Nl/s 4.0 6.0 8.0 9.6 11.2 12.8 Blow air capacity cum/h 59 101 134 160 180 196 Weight Kg 7.3 Art. PS 170 Air consumption Nl/s 5.0 7.5 10.0 12.0 14.0 16.0 Blow air capacity cum/h 68 119 156 183 205 228 Weight Kg 7.3 Art. PS 200 Air consumption Nl/s 6.0 9.0 12.0 14.4 16.8 19.2 Blow air capacity cum/h 82 142 185 222 248 268 Weight Kg 7.3 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic blowing pumps having an extraordinary ratio between the quantity of consumed and generated air, and to offer the user the possibility to adjust the pressure level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum pressure of 0,8 bar (g) and a blowing capacity ranging from 59 to 268 cum/h, measured at the normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the air supply connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow in air free from oil vapours, water condensate and impurities between the sheets of paper to be separated and in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.07
blowing pumps PS250 and PS300] Art. PS 250 Air consumption Nl/s 7.5 11.2 15.0 18.0 21.0 24.0 Blow air capacity cum/h 117 170 224 265 300 336 Weight Kg 8.2 Art. PS 300 Air consumption Nl/s 9.0 13.5 18.0 21.6 25.2 28.8 Blow air capacity cum/h 132 198 265 302 340 403 Weight Kg 8.2 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. A line of newly conceived ejectors allowed us to develop this range of pneumatic blowing pumps having an extraordinary ratio between the quantity of consumed and generated air, and to offer the user the possibility to adjust the pressure level and the capacity, based on the pressure of the supply air. Fed by compressed air with a pressure ranging from 1 to 6 bar (g), they can produce a maximum pressure of 0,8 bar (g) and a blowing capacity ranging from 117 to 403 cum/h, measured at the normal atmospheric pressure of 1013 mbar. When designing these new pumps, great consideration was given to noise levels and as they have no moving parts subject to wear and therefore no vibrations, they are extremely quiet in operation. Moreover, as they are based on the Venturi principle, they do not develop any heat. As standard, they are provided with a filterpressure regulator unit for the supply air and with a filter with micro porous cartridge placed on the air supply connection, in order to stop very thin and impalpable powders. The excellent filtering of the compressed air supply and of the sucked air allows to blow in air free from oil vapours, water condensate and impurities between the sheets of paper to be separated and in the working environment, without any problem of pollution. Using light alloys in the manufacture of these pumps, produces a light weight device enabling direct mounting on the machinery. Thanks to their static operation principle, maintenance is limited to simple periodic filter cleaning only. 10.08
suction and blowing pumps combined PA40 100 with PS40 100] Art. PA 40 Maximum vacuum level -KPa 14 30 46 65 82 90 Air consumption Nl/s 1.0 1.5 2.0 2.4 2.8 3.2 Vacuum air flow capacity cum/h 14 22 28 32 36 40 Weight Kg 6.2 Art. PA 70 Maximum vacuum level -KPa 14 30 46 65 82 90 Air consumption Nl/s 2.0 3.0 4.0 4.8 5.6 6.4 Vacuum air flow capacity cum/h 25 40 50 56 62 68 Weight Kg 6.2 Art. PA 100 Maximum vacuum level -KPa 11 28 45 65 82 90 Air consumption Nl/s 3.0 4.5 6.0 7.2 8.4 9.6 Vacuum air flow capacity cum/h 26 52 68 80 89 98 Weight Kg 6.2 Art. PS 40 Air consumption Nl/s 1.0 1.5 2.0 2.4 2.8 3.2 Blow air capacity cum/h 18 28 35 41 46 52 Weight Kg 6.3 Art. PS 70 Air consumption Nl/s 2.0 3.0 4.0 4.8 5.6 6.4 Blow air capacity cum/h 33 51 65 74 83 92 Weight Kg 6.3 Art. PS 100 Air consumption Nl/s 3.0 4.5 6.0 7.2 8.4 9.6 Blow air capacity cum/h 37 69 90 106 120 133 Weight Kg 6.3 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. 10.09
suction and blowing pumps combined PA140 200 with PS140 200] Art. PA 140 Air consumption Nl/s 4.0 6.0 8.0 9.6 11.2 12.8 Vacuum air flow capacity cum/h 45 80 105 125 140 150 Weight Kg 7.2 Art. PA 170 Air consumption Nl/s 5.0 7.5 10.0 12.0 14.0 16.0 Vacuum air flow capacity cum/h 50 92 120 140 155 170 Weight Kg 7.2 Art. PA 200 Maximum vacuum level -KPa 15 35 55 75 85 90 Air consumption Nl/s 6.0 9.0 12.0 14.4 16.8 19.2 Vacuum air flow capacity cum/h 60 110 142 170 188 198 Weight Kg 7.2 Art. PS 140 Air consumption Nl/s 4.0 6.0 8.0 9.6 11.2 12.8 Blow air capacity cum/h 59 101 134 160 180 196 Weight Kg 7.3 Art. PS 170 Air consumption Nl/s 5.0 7.5 10.0 12.0 14.0 16.0 Blow air capacity cum/h 68 119 156 183 205 228 Weight Kg 7.3 Art. PS 200 Air consumption Nl/s 6.0 9.0 12.0 14.4 16.8 19.2 Blow air capacity cum/h 82 142 185 222 248 268 Weight Kg 7.3 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. 10.10
suction and blowing pumps combined PA250 300 with PS250 300] Art. PA 250 Air consumption Nl/s 7.5 11.2 15.0 18.0 21.0 24.0 Vacuum air flow capacity cum/h 90 130 170 200 225 250 Weight Kg 8.1 Art. PA 300 Air consumption Nl/s 9.0 13.5 18.0 21.6 25.2 28.8 Vacuum air flow capacity cum/h 100 150 200 225 250 300 Weight Kg 8.1 Art. PS 250 Air consumption Nl/s 7,5 11,2 15,0 18,0 21,0 24,0 Blow air capacity cum/h 117 170 224 265 300 336 Weight Kg 8.2 Art. PS 300 Air consumption Nl/s 9,0 13,5 18,0 21,6 25,2 28,8 Blow air capacity cum/h 132 198 265 302 340 403 Weight Kg 8.2 N.B.: All the values shown in the table are valid at normal atmospheric pressure of 1013 mbar (a) and obtained with a constant supply pressure. 10.11
[Holding supports for pneumatic suction and blowing pumps] The holding supports shown on this page have been designed to allow a quick assembly of the pneumatic suction and blowing pumps and to easily position them on the machine to be interlocked. They are made with a strong stainless steel plate and are provided with non-slip vibration-damping rubber feet. These holding supports are currently available for both single and combined pneumatic pumps. Art. A B C D E F G H I L M N O P Q Ø Ø GR DIV 01 140 120 10 270 15 30 80 10 264 81 355 170 250 8.5 45 GR DIV 02 284 132 10 270 15 30 224 10 264 81 355 170 250 8.5 45 10.12
[Suction filters for pneumatic suction and blowing pumps] These filters have been developed in order to permit pneumatic suction and blowing pumps working also in very dusty environments. When installed on their suction connections, they are able to stop very thin powders, interfering on the flow capacity in an almost negligible way. Actually, the filtering element is made with special treated paper, with a porosity degree of 5 7 micron, pleated to increase the filtering surface. The FP filter bowl is made of a transparent plastic and it is screwed to the head, also made of plastic; a gasket placed between the two elements, assures a perfect seal. The head and bowl of the FC filter are manufactured from steel plate with a special painted surface to prevent oxidization. A gasket placed between the head and bowl assures a perfect vacuum seal and the release clamps, placed on the bowl, allow a quick opening of the head to check or replace the filtering element. Art. d A B C D Max cap. For pumps Ø Ø cum/ h FP 25 3/4 145 169 26 130 70 --- FP 30 1 145 169 26 130 100 PA-PS40 100 FC 38 1 1/2 143 105 44 120 200 PA-PS140 200 FC 55 2 143 170 80 120 300 PA-PS250 300 10.13
[Special vacuum cylinders] Art. 25 05 10 25 10 10 25 15 10 Stroke mm 17 25 30 Thrust force at -KPa 80 Kg 2.0 4.3 12.0 Lifting force at -KPa 80 Kg 0.45 1.0 2.5 Minimum cycle time sec 0.3 0.4 0.6 Minimum vacuum level -KPa 60 60 60 Minimum capacity required Nl/1 15 30 90 Working temperature C 5 80 5 80 5 80 Weight g 55 145 515 A ø 24 35 59 B ø M6 G1/8 M10 C ø M5 G1/8 G1/4 D ø M16x1.5 M22x1.5 M40x1.5 E ø Hose 4 4 4 F 39.5 56 66 G 12 16 17 H 4 6 9 I 55.5 78 92 Ch.1 19 27 50 Ch.2 24 32 55 Ch.3 8 12 17 OPERATING PRINCIPLE The cylinders shown on this page work by vacuum. Making vacuum in the cylinder s front chamber, the stem, integral to the piston, comes out, thus overcoming the opposing spring force. The piston is pushed by the air at atmospheric pressure that gets into the cylinder s rear chamber, through the hollow stem. The larger the pressure differential that is developed between the cylinder front chamber under vacuum and the rear chamber at atmospheric pressure, the larger the piston thrust force. The stem can operate in two ways: 1 st Preventing the inlet of atmospheric air through the hole of the stem and with the vacuum connected, the pressure differential in the cylinder is eliminated; in this condition the forces of the opposing spring and of the atmospheric pressure will prevail on the stem itself, consequently it is pushed in its initial position. 2 nd By cutting out vacuum, the atmospheric pressure in both cylinder chambers is restored; also in this case, as there is no more pressure differential, the stems returns in its initial position, pushed by the opposing spring only. The first way described above is the real operating principle for which the cylinder has been designed. Actually, by assembling a cup on the cylinder s hollow stem and making vacuum, the cup will be quickly brought in contact with the object to be taken, will automatically lift it and will keep it as long as vacuum is connected. Thanks to this feature, special vacuum cylinders, combined with the cups, are especially recommended for taking and handling small machined, moulded or thermoformed objects, to separate paper, plastic, or thin plate sheets, etc. and to pick up printed circuits or thin plastic panels. Short and quick cycles, operated by only one vacuum interception valve, automatic compensation of the height of the objects to be taken and no compression on them, non-rotating piston, very simple fixing: these are the real advantages offered by the special vacuum cylinders. Made entirely of anodized aluminium, they are provided with a special self-lubricating bush that assures their long life.
[Disc cups] With the exception of some standard rubber discs, these parts are generally produced on customer s specifications and for minimum quantities specified in our offers. They can be punched by sheets, or moulded, in nitrile rubber, in natural para rubber, in silicone rubber or in special compounds; they can also be manufactured in linen-faced rubbers or polyurethanes. The above described discs are used in the printing industry, as an alternative to cups, for handing and moving paper,cardboard and plastic sheets. Art. D d S Ø Ø 01 17 31 17 3.5 0.8 01 30 41 30 4.0 1.5 01 57 81 57 8.5 1.3 10.15