ew Super Metric all ushing earings Technical ulletin
Super Metric all ushing earings igh performance from superior esign: coefficient of friction as low as 0,001. This allows the use of smaller less expensive motors, belts, gears an ball screws, when replacing high friction, plain bearings. self-aligning capability up to compensates for inaccuracies in base flatness or carriage machining. chieve with Thomson Super earing plates which have efine raius crowns for maximize self-alignment accuracy. ccelerations as high as 150 m/s 2 an steay state travel spees up to 3 m/s without the erating factors commonly require with linear guies. Double lip integral wipers that keep out irt while retaining lubrication. Travel life is maximize. Light weight, wear-resistant, engineere polymer retainers an outer sleeves that reuce inertia an noise. justable, close an open configurations. Quick to ship, rop-in replacement parts for existing applications: Dimensional interchangeable with competitive an legacy applications. asy to orer with local manufacturer s stock available in urope an orth merica. Plus worlwie availability from over 1800 authorize istributors an irect from our manufacturing plants. Genuine Thomson Quality: Thomson all ushing bearings in combination with 60 Case shafting last longer an carry significantly more loa than conventional linear bearings, allowing you to reuce component size, saving space an cost. Thomson is the one an only name you ll nee when choosing a roun rail solution. To complete your application with genuine Thomson 60 Case shafting an shaft supports, please visit www.anahermotion.com/shafting.htm. Thomson is the innovator of linear bearings an has supplie superior quality prouct to the linear inustry for 60 years. Superior Thomson quality translates into better reliability an performance. Traemark of Danaher Motion. DR MOTIO is registere in the U.S. Patent an Traemark Office an in other countries.
ew Super Metric all ushing earings Technical ulletin Super Metric all ushing earings (Close Type) for n Supporte pplications C1 C2 D C Super Metric all ushing earings (Close Type) Without Integral Wipers With One Integral Wiper With Two Integral Wipers (4) D C h14 C1 h13 C2 min umber of ball tracks Mass (kg) Loa W (1)(3) SPM 08 SPM 08 W SPM 08 WW 8 16 25 16.2 1.10 4 0.02 310 340 SPM 12 SPM 12 W SPM 12 WW 12 22 32 22.6 1.30 5 0.02 830 910 SPM 16 SPM 16 W SPM 16 WW 16 26 36 24.6 1.30 5 0.03 1020 1120 SPM 20 SPM 20 W SPM 20 WW 20 32 45 31.2 1.60 6 0.06 2020 2220 SPM 25 SPM 25 W SPM 25 WW 25 40 58 43.7 1.85 6 0.13 3950 4350 SPM 30 SPM 30 W SPM 30 WW 30 47 68 51.7 1.85 6 0.19 4800 5280 SPM 40 SPM 40 W SPM 40 WW 40 62 80 60.3 2.15 6 0.36 8240 60 SPM 50 SPM 50 W SPM 50 WW 50 75 100 77.3 2.65 6 0.66 12060 13 Loa Limit (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing an shaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. (4) Internal bearing iameter is affecte by the housing bore, see Table 1. OT: xternal seals an retaining rings are available. See vance Linear Motion Metric Components catalog for specifications. OT: For aitional technical ata, see the ngineering Support section of vance Linear Motion Metric Components catalog. OT: For a corrosion resistant bearing a suffix-cr to the part number an reuce the loa capacity by 30%. Kθ SP M20 SP M25 SP M30 SP M40 SP M50 SP M12 SP M16 SP M08
Super Metric all ushing earings (Open Type) for Continuously Supporte pplications C1 C2 D F2 F1 G2 G1 C Super Metric all ushing earings (Open Type) Without Integral Wipers With One Integral Wiper With Two Integral Wipers (4) D C h14 C1 h13 C2 min F1 G1 F2 G2 ngle α (eg) umber of ball tracks Mass (kg) Loa W (1)(3) SPM 12 OP SPM 12 OP W SPM 12 OP WW 12 22 32 22,3 0 7,0 5 (5) 3,0 - - 70 4 0,02 1060 1170 SPM 16 OP SPM 16 OP W SPM 16 OP WW 16 26 36 24,6 0 9,8 0 3,0 - - 70 4 0,02 1280 1410 SPM 20 OP SPM 20 OP W SPM 20 OP WW 20 32 45 31,2 1,60 1 0 3,0 - - 58 5 0,05 2100 2310 SPM 25 OP SPM 25 OP W SPM 25 OP WW 25 40 58 43,7 1,85 13,0 0 3,0 0 3,5 60 5 0,10 4130 4540 SPM 30 OP SPM 30 OP W SPM 30 OP WW 30 47 68 51,7 1,85 15,3 0 3,5 2,0 3,0 60 5 0,15 5020 5520 SPM 40 OP SPM 40 OP W SPM 40 OP WW 40 62 80 60,3 2,15 21,4 0 3,5 3,0 58 5 0,30 8620 9480 SPM 50 OP SPM 50 OP W SPM 50 OP WW 50 75 100 77,3 2,65 24,0 0 4,5 2,5 5,0 55 5 5 12500 13750 (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing anshaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. Open type bearings have reuce loa capacities when use in pull-off situations. (4) Internal bearing iameter is affecte by the housing bore, see Table 1. (5) ole for anti-rotation pin is above centerline. OT: xternal seals an retaining are available. See vance Linear Motion Metric Components catalog for specifications. OT: For aitional technical ata, see the ngineering Support section of the vance Linear Motion Metric Components catalog. OT: For corrosion resistant bearing a suffix-cr to the part number an reuce the loa capacity by 30%. Loa Limit Table 1 - Stanar Diametral Clearances ominal Shaft Diameter (mm) ominal ousing ore Diameter D (mm) Diametral Clearance ousing ore 7 (µm) ousing ore 6 (µm) 12 22 +33 +4 +26 +3 16 26 +33 +4 +26 +3 20 32 +37 +6 +30 +4 25 40 +37 +6 +30 +4 30 47 +37 +6 +30 +4 40 62 +44 +7 +35 +5 50 75 +44 +7 +35 +5 For Super Metric all ushing bearings mounte in a housing an with LinearRace shafts, h6 tolerance SP M12 OP SP M16 OP SP M20 OP SP M25 OP SP M30 OP SP M40 OP SP M50 OP Traemark of Danaher Motion. DR MOTIO is registere in the U.S. Patent an Traemark Office an in other countries.
ew Super Metric all ushing earings Technical ulletin Super Metric Pillow locks Thomson Pillow locks with factory-installe Super Metric all ushing bearings offer: ccelerations as high as 150 m/s 2 an steay state travel spees up to 3 m/s without the erating factors commonly require with linear guies. Replaceable bearing components for quick, cost-effective machine maintenance an minimal owntime. Light weight, wear-resistant, engineere polymer retainers an outer sleeves that reuce inertia an noise. Stanar, ouble-acting, integral seals at both ens which keep out irt, grit an other contaminants, retain lubrication an maximize bearing life. Lubrication hole for easy maintenance. Tappe or thru hole mounting configuration for ease of installation. Twin version with two Super all ushing bearings proviing twice the loa capacity or 8 times more travel life than the single version. single bearing version that self aligns in all irections, minimizing installation time an cost. ote: See page 2 for information on Thomson Super Metric all ushing bearings.
Super Metric Pillow locks (Close Type) for n Supporte pplications SP P M08, SP P M12 an SP P M50 only have the two mounting holes marke with (SP P M08 is M6X1 on opposite sie) 2 1 1 Super Pillow locks (Close Type) (4) 1 +/- 1 (5) 2 Mass (kg) Loa W (1)(3) SP P M08 8 15 28 35 17,5 32 20 (6) 25 (6) 12 (5) 8,5 3,3 M4 0,07 310 340 SP P M12 12 18 35 43 2 39 23 (6) 32 (6) 10 1 4,3 M5 0,13 830 910 SP P M16 16 22 42 53 26,5 43 26 40 16 15,7 5,3 M6 0,21 1020 1120 SP P M20 20 25 50 60 30,0 54 32 45 13 20 6,6 M8 0,35 2020 2220 SP P M25 25 30 60 78 39,0 67 40 60 15 23 8,4 M10 0,66 3950 4350 SP P M30 30 35 71 87 43,5 79 45 68 16 26,5 8,4 M10 7 4800 5280 SP P M40 40 45 91 108 54,0 91 58 86 2 30 1 M12 1,81 8240 60 SP P M50 50 50 105 132 66,0 113 50 108 12,5 22 13,5 M16 3,00 12060 13 Loa Limit (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing an shaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. (4) For bearing iametral clearances, see Table 2. (5) SP P M08 lube hole is M6X1 tappe hole locate on opposite sie (6) SP P M08, SP P M12 an SP P M50 pillow blocks have only 2 mounting holes. The mounting holes on these sizes are marke in the chart above with Table 2 - Stanar Diametral Clearances (Close Type) Diametral ominal Clearance Size (mm) (µm) 8 +23 +2 12 +26 +3 16 +26 +3 20 +30 +4 25 +30 +4 30 +30 +4 40 +35 +5 50 +35 +5 For Pillow locks use with LinearRace Shaft, h6 tolerance SP P M20 SP P M25 SP P M30 SP P M40 SP P M50 SP P M12 SP P M16 SP P M08
ew Super Metric all ushing earings Technical ulletin Super Metric Pillow locks (Close justable Type) for n Supporte pplications SP P M08, SP P M12 an SP P M50 only have the two mounting holes marke with justing screw ccess for lubrication M X 1 (SP P M08 is M6X1 on opposite sie) 2 1 1 Super Pillow locks (Close justable Type) 1 +/- 1 2 Mass (kg) Loa W (1)(3) SP P M08 8 15 28 35 17,5 32 20 (6) 25 (6) 12 (5) 8,5 (5) 3,3 M4 0,07 310 340 SP P M12 12 18 35 43 2 39 23 (6) 32 (6) 10 1 4,3 M5 0,13 830 910 SP P M16 16 22 42 53 26,5 43 26 40 16 15,7 5,3 M6 0,21 1020 1120 SP P M20 20 25 50 60 30,0 54 32 45 13 20 6,6 M8 0,35 2020 2220 SP P M25 25 30 60 78 39,0 67 40 60 15 23 8,4 M10 0,66 3950 4350 SP P M30 30 35 71 87 43,5 79 45 68 16 26,5 8,4 M10 7 4800 5280 SP P M40 40 45 91 108 54,0 91 58 86 2 30 1 M12 1,81 8240 60 SP P M50 50 50 105 132 66,0 113 50 108 12,5 22 13,5 M16 3,00 12060 13 Loa Limit (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing an shaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. (4) For bearing iametral clearances, see Table 2. (5) SP P M08 lube hole is M6X1 tappe hole locate on opposite sie (6) SP P M08, SP P M12 an SP P M50 pillow blocks have only 2 mounting holes. The mounting holes on these sizes are marke in the chart above with SP P M20 SP P M25 SP P M30 SP P M40 SP P M50 SP P M12 SP P M16 SP P M08
Super Metric Pillow locks (Open Type) for Continuously Supporte pplications SP PO M12 an SP PO M50 only have the two mounting holes marke with 2 1 1 ccess for lubrication M8 X 1 Super Pillow locks (Open Type) (4) 1 +/- 1 2 ngle α (eg) Mass (kg) Loa W (1)(3) SP PO M12 12 18 35 43 2 39 23 (6) 32 (6) 10 1 4,3 M5 70 0,11 1060 1170 SP PO M16 16 22 42 53 26,5 43 26 40 10,8 15,7 5,3 M6 58 0,19 1280 1410 SP PO M20 20 25 50 60 30,0 54 32 45 13 20 6,6 M8 60 0,30 2100 2310 SP PO M25 25 30 60 78 39,0 67 40 60 15 23 8,4 M10 60 0,60 4130 4540 SP PO M30 30 35 71 87 43,5 79 45 68 2 27 8,4 M10 58 2 5020 5520 SP PO M40 40 45 91 108 54,0 91 58 86 2 30 1 M12 55 1,65 8620 9480 SP PO M50 50 50 113 132 66,0 113 50 108 12,5 22 13,5 M16 55 2,60 12500 13750 (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing an shaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. Open type bearings have reuce loa capacities when use in pull-off situations. (4) For bearing iametral clearances, see Table 3. (5) SP PO M12 an SP PO M50 pillow blocks have only 2 mounting holes. The mounting holes on these sizes are marke in the chart above with Loa Limit Table 3 - Stanar Diametral Clearances (Open Type) Diametral ominal Size Clearance (mm) (µm) 12 +26 +3 16 +26 +3 20 +30 +4 25 +30 +4 30 +30 +4 40 +35 +5 50 +35 +5 For Pillow locks use with Linear- Race Shaft, h6 tolerance SP PO M12 SP PO M16 SP PO M20 SP PO M25 SP PO M30 SP PO M40 SP PO M50
ew Super Metric all ushing earings Technical ulletin Super Metric Pillow locks (Open justable Type) for Continuously Supporte pplications SP PO M12 an SP PO M50 only have the two mounting holes marke with justing screw 2 1 1 ccess for lubrication M8 X 1 Super Pillow locks (Open justable Type) 1 +/- 1 2 ngle α (eg) Mass (kg) Loa W (1)(3) SP PO M12 (4) 12 18 35 43 2 39 23 32 10 1 4,3 M5 70 0,11 1060 1170 SP PO M16 16 22 42 53 26,5 43 26 40 10,8 15,7 5,3 M6 58 0,19 1280 1410 SP PO M20 20 25 50 60 30,0 54 32 45 13 20 6,6 M8 60 0,30 2100 2310 SP PO M25 25 30 60 78 39,0 67 40 60 15 23 8,4 M10 60 0,60 4130 4540 SP PO M30 30 35 71 87 43,5 79 45 68 2 27 8,4 M10 58 2 5020 5520 SP PO M40 40 45 91 108 54,0 91 58 86 2 30 1 M12 55 1,65 8620 9480 SP PO M50 50 50 113 132 66,0 113 50 108 12,5 22 13,5 M16 55 2,60 12500 13750 (1) For rate travel life of 100 km. For longer travel lives, reuce loa to W (100/L) 0.33 where L (km) is the require travel life. Do not excee the Loa Rating for (2) The Loa Limit is the maximum loa that may be applie to a bearing an shaft. It is important to analyze the application so that peak an/or shock loas o not excee the Loa Limit. (3) The loa capacities W an W O are vali for a resultant loa applie at with the ball tracks oriente as shown in the polar graphs below. If the resultant acts along another irection, the appropriate multiplicative correction factor Kθ, shoul be applie to W an W O respectively. Open type bearings have reuce loa capacities when use in pull-off situations. (4) SP PO M12 an SP PO M50 pillow blocks have only 2 mounting holes. The mounting holes on these sizes are marke in the chart above with Loa Limit SP PO M12 SP PO M16 SP PO M20 SP PO M25 SP PO M30 SP PO M40 SP PO M50
Super Metric Twin Pillow locks (Close Type) for n Supporte pplications (SP TW M08 is M6X1 on opposite sie) 2 1 1 (4) 1 +/- 1 2 Mass (kg) Loa W (1)(3) Loa Limit SP TW M08 8 15 28 35 17,5 62 50 25 12 (5) 31 (5) 3,3 M4 0,15 500 550 SP TW M12 12 18 35 43 2 76 56 32 10 38 4,3 M5 0,27 1350 14 SP TW M16 16 22 42 53 26,5 84 64 40 16 42 5,3 M6 0,41 1660 1830 SP TW M20 20 25 50 60 30,0 104 76 45 13 52 6,6 M8 0,66 3280 3610 SP TW M25 25 30 60 78 39,0 130 94 60 15 65 8,4 M10 1,22 6410 7050 SP TW M30 30 35 71 87 43,5 152 106 68 16 76 8,4 M10 1, 7800 8580 SP TW M40 40 45 91 108 54,0 176 124 86 2 88 1 M12 3,57 13380 14720 SP TW M50 50 50 105 132 66,0 224 160 108 20 112 13,5 M16 6,30 195 21550 (Close justable Type) for n Supporte pplications justing screw (SP TW M08 is M6X1 on opposite sie) 2 1 1 1 +/- 1 2 Mass (kg) Loa W (1)(3) SP TW M08 8 15 28 35 17.5 62 50 25 12 (5) 31 (5) 3,3 M4 0,15 500 550 SP TW M12 12 18 35 43 21.5 76 56 32 10 38 4,3 M5 0,27 1350 14 SP TW M16 16 22 42 53 26.5 84 64 40 12 42 5,3 M6 0,41 1660 1830 SP TW M20 20 25 50 60 30.0 104 76 45 13 52 6,6 M8 0,66 3280 3610 SP TW M25 25 30 60 78 39.0 130 94 60 15 65 8,4 M10 1,22 6410 7050 SP TW M30 30 35 71 87 43.5 152 106 68 20 76 8,4 M10 1, 7800 8580 SP TW M40 40 45 91 108 54.0 176 124 86 2 88 1 M12 3,57 13380 14720 SP TW M50 50 50 105 132 66.0 224 160 108 20 112 13,5 M16 6,30 195 21550 See footnotes (1) (2) (3) (4) (5) on page 6. For iametral clearances, see single versions of pillow block. (5) SP TW M08 lube hole is M6X1 tappe hole locate on opposite sie Loa Limit
ew Super Metric all ushing earings Technical ulletin Super Metric Twin Pillow locks (Open Type) for Continuously Supporte pplications 2 1 1 (4) 1 +/- 1 2 ngle α (eg) Mass (kg) Loa W (1)(3) Loa Limit SP TWO M12 12 18 28 43 21.5 76 56 32 10 38 4,3 M5 70 0,22 1350 14 SP TWO M16 16 22 35 53 26.5 84 64 40 18 42 5,3 M6 58 0,37 1660 1830 SP TWO M20 20 25 41 60 30.0 104 76 45 16 52 6,6 M8 60 7 3280 3610 SP TWO M25 25 30 50 78 39.0 130 94 60 15 65 8,4 M10 60 5 6410 7050 SP TWO M30 30 35 60 87 43.5 152 106 68 16 2 76 1 8,4 M10 58 1,76 7800 8580 SP TWO M40 40 45 77 108 54.0 176 124 86 2 88 1 M12 55 3,22 13380 14720 SP TWO M50 50 50 88 130 66.0 224 160 108 20 112 13,5 M16 55 5,50 195 21550 1 (Open justable Type) for Continuously Supporte pplications justing screw 2 1 1 1 +/- 1 2 ngle α (eg) Mass (kg) Loa W (1)(3) SP TWO M12 12 18 28 43 21.5 76 56 32 10 38 4,3 M5 70 0,22 1350 14 SP TWO M16 16 22 35 53 26.5 84 64 40 18 42 5,3 M6 58 0,37 1660 1830 SP TWO M20 20 25 41 60 30.0 104 76 45 16 52 6,6 M8 60 7 3280 3610 SP TWO M25 25 30 50 78 39.0 130 94 60 15 65 8,4 M10 60 5 6410 7050 SP TWO M30 30 35 60 87 43.5 152 106 68 16 76 8,4 M10 58 1,76 7800 8580 SP TWO M40 40 45 77 108 54.0 176 124 86 2 88 1 M12 55 3,22 13380 14720 SP TWO M50 50 50 88 130 66.0 224 160 108 20 112 13,5 M16 55 5,50 195 21550 See footnotes (1) (2) (3) (4) on page 8. For iametral clearances, see single versions of pillow block. Loa Limit