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Ultrakompaktowe liniowe stoły ślizgowe MicroStage MS firmy Thomson są jednymi z najmniejszych, najtańszych i najlżejszych systemów kulkowych dostępnych obecnie na rynku. Konstrukcja prowadnicy opiera się technologii Super Ball Bushing® firmy Thomson i jest idealna do automatyzacji w niewielkiej przestrzeni.
Dane techniczne / rozmiar wału | MS25 | MS33 |
---|---|---|
Wymiary profilu (szer. x wys.): mm | 50 x 25 | 60 x 33 |
Rodzaj śruby | śruba pociągowa | śruba pociągowa |
Maks. długość suwu: mm (cale) | 705,5 (27,8) | 704 (27,7) |
Maks. prędkość liniowa: m/s (cale/s) | 0,85 (33,5) | 1,02 (40,2) |
Maks. przyspieszenie: m/s2 (cale/s2) | 9,8 (386) | 9,8 (386) |
Powtarzalność: ± mm (cale) | 0,005 (0,0002) | 0,005 (0,0002) |
Dokładność: mm/300 mm (cale/12 cali) | 0,2 (0,008) | 0,2 (0,008) |
Maks. prędkość na wejściu: obr./min | 2000 | 2000 |
Zakres temperatur: °C (°F) | od -20 do 80 (od -4 do 176) |
od -20 do 80 (od -4 do 176) |
Maks. obciążenie dynamiczne Fx: N (funt-siła) | 17,8 (4,0) | 80,1 (18,0) |
Maks. obciążenie dynamiczne Fy: N (funt-siła) | 100 (22,5) | 150 (33,7) |
Maks. obciążenie dynamiczne Fz: N (funt-siła) | 100 (22,5) | 150 (33,7) |
Maks. moment obciążenia dynamicznego (Mx): Nm (funt-siła/cal) |
1,4 (12,4) | 2,8 (24,8) |
Maks. moment obciążenia dynamicznego (My): Nm (funt-siła/cal) |
1,3 (11,5) | 2,5 (22,4) |
Maks. moment obciążenia dynamicznego (Mz): Nm (funt-siła/cal) |
2,7 (23,9) | 5,1 (45,1) |
Maks. siła wału napędowego: N (funt-siła) | 222 (49,9) | 222 (49,9) |
Maks. moment obrotowy wału napędowego: Nm (funt-siła/cal) |
0,08 (0,71) | 0,43 (3,81) |
Średnica śruby pociągowej: mm (cale) | 6,35 (0,25) | 9,53 (0,38) |
Skok gwintu śruby pociągowej: skok w calach (in) skok w jednostkach metrycznych (mm) |
0,025, 0,05, 0,062, 0,2, 0,25 0,5, 1,0, 1,5, 2,3 1,5, 2, 3 |
0,0625, 0,1, 0,125, 0,2 0,375, 0,5, 1,0, 1,2 2 |
Waga: kg (funty) urządzenia przy zerowym suwie na każde 100 mm suwu każdego wózka |
0,47 (1,04) 0,18 (0,40) 0,07 (0,15) |
0,69 (1,52) 0,31 (0,68) 0,12 (0,27) |
Linear Motion Systems | 1257 KB | |
Linear Motion Systems | 1425 KB | |
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Click the button below to use the newest edition of our industry's most advanced sizing and selection tool for linear motion system: LinearMotioneering.
Select system by product family.
Ball Guides
A ball guide consists of a ball rail and a ball bushing. The ball rail is made of hardened steel and runs along the inside of the profile. The ball bushing is attached to the carriage of the unit and contains balls that roll against the rail. The balls in the bushing can be recirculating or have fixed ball positions depending on the type of ball guide. The recirculating type has a longer life and better load capability while the fixed type typically is much smaller. Thomson uses three major types of ball guides in its linear motion systems. Either the compact single rail type with recirculating ball bushing (A), the stronger double rail type also with recirculating ball bushings (B) or the fixed ball position ball bushings type (not shown) which require very little space and are used in the smallest units. Ball guides offer high accuracy, high loads and medium speed.
Prisim or Slide Guides
A slide guide consist of a guide attached to the inside of the profile and a slide bushing attached to the carriage. The guide can be made of different materials (e.g. polished hardened steel, anodized aluminum) while the bushing is made of a polymer material. There are two types of bushings, fixed and prism. Prism bushings can move in relation to the guide which results in longer life and higher load capabilities. Slide bushings are silent, simple, reliable and robust and can be used in dirty and dusty environments. They are also resistant to shock loads, have a long life expectancy and require little or no maintenance.
Wheel Guides
A wheel guide consists of ball bearing wheels that run on a hardened steel rail. Wheel guides are a simple and robust guiding method offering high speeds, high loads and medium accuracy.
Non Guided Linear Motion Systems
A non guided linear motion system has a drive shaft and a ball screw but no guides. In reality a non guided linear motion system is a enclosed ball screw assembly with a carriage that has the same look and outer dimensions as the driven version. Using a non guided unit requires some kind of external guide to which the carriage can be attached.
Repeatability is the ability for a positioning system to return to a location. Some of the factors that affect the repatability are the angular repeatability of the motor, drive and motion control system, system friction and changes in load, speed and deceleration.
In ball screw driven units there are several nut styles used.
Double Ball Nuts
Using double ball nuts will increase the repeatability of the unit. The ball nuts are installed so that they are pre-tensioned against each other eliminating the play between the nuts and the screw. A double nut unit will have a slightly shorter stroke for a given overall length.
The stroke is the length that the carriage can travel from one end of the unit to the other. However, using the maximum stroke means that the carriage will collide with the ends of the profile due to braking and deceleration. The practical usable stroke is therefore shorter. We recommend that you specify a unit that have at least 100 mm longer stroke than the maximum stroke you need so that the unit can stop before colliding with the ends and also allow for some adjustment of the unit postition at the mounting.
How far the carriage will advance with one turn of the input shaft.
All units are designed for use in normal industrial environments. Units which have an open profile (i.e. have no cover band) are more sensitive to dust, dirt and fluids. These units require some kind of cover if they are used in environments where dust, dirt or fluids are present. Wash down or enhanced wash down protection can be ordered for our closed profile units. In all cases where a unit will be exposed to aggressive chemicals, heavy vibrations or other potentially harmful processes we recommend that you contact us for further advice.
Drive Shaft Orientation:
The drive shaft is the is the shaft to which the motor is connected, either directly, via a bell house flange or via a gear box. There are many sizes and types of drive shafts, such as shafts with or without key way or hollow shafts, depending on the type and size of the unit. Belt driven units can often have two drive shafts (same or different type and size), one on each side of the drive station, while screw driven only have on pointing out of the end of the unit. Customized drive shafts are possible, please contact customer service for more information.
The type of shaft on the Right side (insert picture) of a belt driven (right angle) unit or on the other end of double shaft inline (screw driven) units.
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