Audited Supplier
HT
Brake Drums
Steel
ISO9001
Drum
Brake Drum
Magnetic Brake
as Our Catalogue
Depends on The Model
0~ 40centigrade
30%~95%
10000h
Avalible
Shenzhen
Applied in Various Machine
High Speed and Long Service Life
Hartai Magnetic Brake
Standard Package or Follow Your Requirements
ISO
Dongguan, Guangdong
847790
Product Description
Wholesale Air Cooled Compressed Electromagnetic Shaft Clutch High Torque DC 24V Hb Ahb Hc Tension Control Industrial Magnetic Brake
1. These units are developed to ensure that every brake of a given model designation will be matched at a pre-determined torque and current point to every other brake of the same model designation.
2. By possibility of a special adjustment each brake will be matched at the selected match point to within ± 1.5% provided that the match point is above 50 % of the max possible torque.
3. All other points of the curve then are within ± 4% deviation from each other.
4. The use of matched hysteresis brakes is, for example, an advantage for a multi tension control system for multi spool payoff frames.
2. By possibility of a special adjustment each brake will be matched at the selected match point to within ± 1.5% provided that the match point is above 50 % of the max possible torque.
3. All other points of the curve then are within ± 4% deviation from each other.
4. The use of matched hysteresis brakes is, for example, an advantage for a multi tension control system for multi spool payoff frames.
Products display
Hysteresis Brakes Magnetic Clutch Industrial magnetic brake
Standard Hysteresis Brakes produce torque strictly through a magnetic air gap without the use of magnetic particles or friction components. This method of braking provides far superior operating characteristics (smoother torque, longer life, superior repeatability, high degree of controllability, and less maintenance and down time) which make them the preferred choice for precise tension control during the processing of nearly any material, web or strand.
Structural Characteristics
The hysteresis effect in magnetism is applied to torque control by the use of two basic componentsa reticulated pole structure and a specialty steel rotor/shaft assemblyfastened together but not in physical contact. Until the field coil is energized, the drag cup and shaft can spin freely on its bearings. When a magnetizing force from either a field coil or magnet is applied to the pole structure, the air gap becomes a flux field. The rotor is magnetically restrained, providing a braking action between the pole structure and rotor.
Applications
HARTAI Hysteresis Brakes provide precise tensioning for: Armature and coil winding, printing and labeling, wire marking, braiding, material slitting, sheeting, weaving, and many other material process applications. They are ideal for any material, strand or web, including: Copper wire, fiber-optic cable, textiles, tapes, films, foils, paper, rubber products, nylon, and many others.
Standard Hysteresis Brakes produce torque strictly through a magnetic air gap without the use of magnetic particles or friction components. This method of braking provides far superior operating characteristics (smoother torque, longer life, superior repeatability, high degree of controllability, and less maintenance and down time) which make them the preferred choice for precise tension control during the processing of nearly any material, web or strand.
Structural Characteristics
The hysteresis effect in magnetism is applied to torque control by the use of two basic componentsa reticulated pole structure and a specialty steel rotor/shaft assemblyfastened together but not in physical contact. Until the field coil is energized, the drag cup and shaft can spin freely on its bearings. When a magnetizing force from either a field coil or magnet is applied to the pole structure, the air gap becomes a flux field. The rotor is magnetically restrained, providing a braking action between the pole structure and rotor.
Applications
HARTAI Hysteresis Brakes provide precise tensioning for: Armature and coil winding, printing and labeling, wire marking, braiding, material slitting, sheeting, weaving, and many other material process applications. They are ideal for any material, strand or web, including: Copper wire, fiber-optic cable, textiles, tapes, films, foils, paper, rubber products, nylon, and many others.
| Model | Rated Torque | Rated Current | V DC | Coil Resistance | Kinetic Power Ratings | External | Maximum Speed | Weight | |
| (Kg.cm) | (mA) | (Volt) | 25ºC 10% | (Watts) | Inertia | (RPM) | (Kg) | ||
| (Ohms) | Intermittent | Continuous | (Kg. cm²) | ||||||
| HB-300 | 0.03 | 126 | 24 | 190 | 8 | 2 | 3.3 X 10^neg4 | 20000 | 0.12 |
| HB-101 | 0.1 | 160 | 150 | 20 | 5 | 9.2 X 10^neg4 | 0.14 | ||
| HB-201 | 0.2 | 160 | 150 | 25 | 6 | 1.5 X 10^neg3 | 0.15 | ||
| HB-501 | 0.5 | 192 | 125 | 30 | 8 | 6.8 X 10^neg3 | 0.21 | ||
| HB-102 | 1 | 192 | 125 | 55 | 15 | 4.6X 10^neg2 | 0.39 | ||
| HB-202 | 2 | 200 | 120 | 90 | 24 | 6.8 X 10^neg2 | 15000 | 0.51 | |
| HB-502 | 5 | 250 | 96 | 150 | 38 | 1.8 X 10^neg1 | 1.35 | ||
| HB-103 | 10 | 250 | 96 | 350 | 80 | 1.1 X 10º | 1.9 | ||
| HB-203 | 20 | 300 | 80 | 460 | 115 | 3.2 X 10º | 10000 | 3.5 | |
| HB-303 | 30 | 400 | 60 | 680 | 165 | 7.3 X 10º | 5.2 | ||
| HB-603 | 60 | 800 | 30 | 1360 | 330 | 1.4 X 10¹ | 10.4 | ||
