Metcore s.r.o.

Linear servomotors

linear.jpg Series motors are frameless permanent magnet, three phase brushless servomotors. Fundamentally, a linear motor is a rotary motor that is rolled out flat.The two primary components of permanent magnet brushless rotary motors are the stator (primary coils) and the rotor (secondary or rotating magnets). In brushless linear motors the rotor is rolled out flat to become the magnet track (also called the magnet way). The primary coils of the rotary motor are rolled out flat to become the coil assembly (also sometimes called the slider). In most brushless linear motor applications it is typical for the magnet way to be stationary and the coil assembly to be in motion, because of the relative masses of the two components. But it is also perfectly acceptable and sometimes advantageous to reverse this arrangement. The basic electromagnetic operating principles are the same in either case and are identicalto those of a rotary motor.

Two types of linear motors are available, Ironcore and Ironless. Each one provides characteristics and features that are optimal depending upon the application. Ironcore motors have coils wound on silicon steel laminations, to maximize the generated force, with a single sided magnet way. Using a patented electromagnetic design, linear motors have the highest rated force per size, a high Km motor constant (equals low thermal losses), and low cogging forces without the need for skewing of the magnets. The high thrust forces possible with these motors make them ideal for accelerating and moving high masses, and maintaining stiffness during machining or process forces. Ironless motors have no iron, or slots for the coils to be wound on. Therefore, these motors have zero cogging, a very light mass, and absolutely no attractive forces between the coil assembly and the magnet way. These characteristics are ideal for applications requiring very low bearing friction, high acceleration of lighter loads, and for maximizing constant velocity, even at ultra low speeds. The modular magnet ways consists of a double row of magnets to maximize the generated thrust force and to provide a flux return path for the magnetic circuit.

Datasymb.unitICD05– 050ICD10– 050ICD10– 100IC11– 030IC11– 050IC22– 030IC22– 050IC22– 100IC33– 150IC44– 150
Max. powerFmaxN28056011303756257501250250056257500
Max. currentImaxA8,515,815,811,311,311,011,022,033,144,1
Constant power (with 130°C)FNN87171615151276298548119827183617
Constant current (with 130°C)INA2,03,83,54,04,43,94,49,514,419,2
Current meziobv.UDCV330560
Mot. constant (with 130°C)KMN/W14,520,531,318,926,926,437,758,590,7105
Current. constant (with 25°C)KEV/m/s36,336,472,830,951,461,7103103154154
Power constant (with 25°C)KFN/A44,544,689,237,862,975,6126162189189
Max. . lossPCW3669101641061282124208971193
Resit two stage (with 25°C)R2Phohmů4,52,23,91,92,63,95,32,22,11,5
Ind. two stage with distance airL2PhmH14,47,313,916,726,733,453,426,025,819,3
Air distance less case mm0,8 ( /- 0,2)
Air distance with case mm0,6 ( /-0,2)
Temp. resist coil upon condenserRth°C/W2,91,521,041,640,990,820,500,250,120,088
Gravity powerFakN0,91,83,61,11,92,33,97,817,723,5
Teoretic max. accelerationamaxg30,230,733,715,317,715,918,520,421,021,0
Case  IP 55
Category cover  F(DIN 57530)
Tepl. sepnutí termost.°C120 /-5
Termistorsohmy/120°C1650
Second parts (k=lenght)symb.unitMC- 050-kMC- 050-kMC- 100-kMC- 030-kMC- 050-kMC- 030-kMC- 050-kMC- 100-kMC- 150-kMC- 150-k
Efektiv width magnetsbmm505010030503050100150150
Lenght sec. partkmm64, 128, 256
Lenght prim. part mm135,5183,5183,5200,2200,2376,2376,2376,2552,2728,2
Weight prim. part /-15%mpkg123,52,53,55712,52736
Weight sec. part /-15%mskg/m4475,57,55,57,5132121
Na vrch