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Length
361 [mm]
Width
152 [mm]
Height
240 [mm]
Magnet type
Neodymium
Maximal hoisting capacity
1000 [kg]
Minimal thickness of lifted element
10 [mm]
Maximum working temperature
≤ 80 [°C]
Weight
42 [kg]
Performance parameters
Nominal hoisting capacity: 1000 [kg]
Maximum load capacity (breaking load): >3400[kg] - The safety factor for static tests is 3.5 and complies with EN 13155:2021-05
DO NOT LIFT LOADS THAT ARE HEAVIER THAN THE NOMINAL HOISTING CAPACITY !
Lifting magnets are used to lift and move heavy iron and magnetic steel components. These devices do not require any power supply. The magnetic field is switched on and off by adjusting a manual lever. The magnetic field of the lifters is generated by neodymium magnets. They are used in steel yards, factories, warehouses, workshops and docks. They are useful for handling sheet metal, plates, profiles, bars, angles, channels, round and square pipes and other large ferrous workpieces.
♦ 5 year guarantee
♦ declaration of conformity "CЄ"
♦ capacity measuring protocol
♦ operating instructions
♦ quick reference guide
Magnet 1000 kg
Maximum load capacity (breaking load): >3400[kg] - The safety factor for static tests is 3.5 and complies with EN 13155:2021-05
DO NOT LIFT LOADS THAT ARE HEAVIER THAN THE NOMINAL HOISTING CAPACITY !
Lifting magnets are used to lift and move heavy iron and magnetic steel components. These devices do not require any power supply. The magnetic field is switched on and off by adjusting a manual lever. The magnetic field of the lifters is generated by neodymium magnets. They are used in steel yards, factories, warehouses, workshops and docks. They are useful for handling sheet metal, plates, profiles, bars, angles, channels, round and square pipes and other large ferrous workpieces.
Each FX series lifting magnets we attach:
♦ 5 year guarantee
♦ declaration of conformity "CЄ"
♦ capacity measuring protocol
♦ operating instructions
♦ quick reference guide
All steel components of the FX lifters are nickel-plated, giving them enhanced corrosion resistance. This is a unique feature that applies to all lifting magnets in the FX series.
The actual lifting capacity of each lifters depends on the following factors:
♦ thickness and shape of the workpieces to be lifted (for each lifters the relationship between the lifting capacity and the thickness of the workpieces is given). For cylindrical solid workpieces (cylinders, rods), the lifting capacity is approximately 50% less.
| Minimum component thickness at which the lift can be used | 10 mm |
Workpieces that are too thin may be attracted weakly because the magnetic field of the lifting magnets is not fully utilised. In addition, thin workpieces bend and their contact area with the lifters decreases, so that the pulling force decreases. The best lifting performance is obtained for sufficiently thick workpieces.
| Thickness of the workpiece to be lifted at which the lifting capacity is 100%. | 25 mm |
|---|
Before starting work, it is important to consider the percentage dependence of the lifting capacity as a function of the thickness of the steel to be lifted (lifting capacity curves can be found in the manual).
When handling round parts such as pipes, rods, steel shafts, the maximum load capacity is reduced:
| Type | Shaft diameter | Max. shaft length | Max. load capacity |
| FX-1000 | 100-450 [mm] | 4500 [mm] | 500 [kg] |
The actual lifting capacity of each lifting magnets also depends on:
♦ the size of the air gap between the lifters surface and the workpiece to be lifted (for each lifting magnets, the capacity characteristics as a function of the size of the non-magnetic gap are given).
| Workpiece thickness [mm] | Nominal load capacity of the FX-1000 [kg] | ||
| Non-magnetic gap D between the lifters and the workpiece to be lifted | |||
| D < 0,3 mm | D = 0,3-0,5 mm | D = 0,5-0,6 mm | |
| 25 | 1000 | 850 | 750 |
| 20 | 900 | 750 | 675 |
| 15 | 600 | 500 | 450 |
| 10 | 350 | 300 | 260 |
The load capacity depends on the air gap between the gripper surface and the workpiece to be lifted. If the surface roughness of the load Ra is less than 6.3 μm, the capacity of the gripper will not decrease. This is the case for a very clean, flat and sanded surface. If the surface roughness of the materials to be lifted Ra will be greater than 6.3 μm, the gap between the gripper and the workpiece to be lifted should be taken into account.
For rusty rolled surfaces, a gap in the range (0.1-0.3 mm) can be assumed, while for rough porous surfaces the gap is estimated in the range (0.3-0.5 mm).
Before starting work, refer to the instructions for the percentage relationship of load capacity as a function of non-magnetic gap.
The actual lifting capacity of each lifting magnets also depends on:
♦ The composition of the load to be lifted (the higher the iron content, the higher the lifting capacity):
| Type | Nominal hoisting capacity [kg] |
Load capacity permissible for the material * [kg] |
|||
| FX-1000 | 1000 | Low carbon steel 100% | High carbon steel 90% | Low-alloy steel 75% | Cast iron 50% |
| 1000 | 900 | 750 | 500 | ||
*) it will be the permissible load for a component made of a given material, if not reduced by other factors (thickness, surface quality, shape).
♦ the ambient temperature and the temperature of the workpiece to be lifted (it must not be higher than 80[oC]).
In lifting magnets, the source of the magnetic field is sintered neodymium magnets, whose maximum operating temperature is 80oC.
We offer:
- consulting,
- service,
- spare parts,
- annual inspections and load capacity tests of lifting magnets, confirmed by a certificate.
Magnet 1000 kg
CHMFX1000
Specific References