15.
Always pay attention to the load.
16.
Do not leave a hanging load unattended.
17.
Never exceed the permissible lifting capacity.
18.
Never store the machine with a payload attached to it.
19.
Avoid situations in which the load could swing.
20.
Lift only one load at a time.
21.
This machine is not designed for permanent load lifting.
22.
Pay particular attention to factors reducing the magnetic attraction force (such as materials which do not conduct
the magnetic field, coarseness and shape of surface, temperature, the ratio of ferromagnetic material to steel, and that
the lifted material must be thick enough to completely absorb the stream of the magnetic field).
23.
Never introduce any modifications to the machine.
24.
Do not conduct mechanical or similar works (welding, cutting, etc.) on a hanging load.
25.
After completion of work, the machine must be secured against unauthorised use.
26.
The machine must be regularly controlled and its damaged or worn and torn parts must be replaced with new ones
by an authorised service.
27.
Load drop poses risk of injury or death.
28.
When transporting and moving magnetic hoists from storage location to application location make sure to follow the
occupational health and safety rules applicable for manual transportation work in the country in which the magnetic
hoists are operated.
Failure to follow safety recommendations and instructions may result in serious injuries or death!
III. INTENDED USE OF THE MACHINE
Magnetic hoists are lifting machines that generate a high force of magnetic attraction with the use of a fixed magnet. They are
designed for the temporary lifting and moving of loads made of ferromagnetic metals. These machines require no internal
or external source of power. Switching the magnetic field on or off is done by changing the position of the manual lever. The
magnetic field of the hoist is generated by sintered neodymium magnets. The force of attraction and nominal lifting capacity
EN
are used when these forces work perpendicularly to the magnetic surface of the hoist. The force of attraction is also affected
by the features of the material, the thickness of the payload and the non-magnetic material separating the magnet's surface
from the payload's surface. For maximum force of attraction, it is necessary to ensure the surface of the lifted material is
clean and there is no gap between it and the magnet's surface. The surface of the payload must be flat and must fully cover
the magnetic surface of the hoist. Magnetic hoists are very comfortable and easy to use. They are ideal for application at
construction sites, storage facilities, workshops, steel storage yards and wherever they may come in handy to handle metal
sheets, slabs and other steel elements.
IV. TECHNICAL SPECIFICATIONS
Top view of the machine
H
R
W
REV. 18.04.2017
L
10
Model
Permissible load
Breaking
Maximum load
(kg)
load
for vertical hois-
ting and rounded
surfaces
kg
kg
SBS-ML 100
100
300
30
SBS-ML 300
300
900
100
SBS-ML 500
500
1500
165
SBS-ML 600
600
1800
200
SBS-ML 800
800
2400
350
SBS-ML 1000
1000
3000
350
SBS-ML 2000
2000
6000
666
SBS-ML 3000
3000
9000
1000
Nominal lifting capacity is dependent on coarseness of the surface and the lifted material
low carbon steel 100%
carbon steel 90%
high carbon steel 80%
low-alloy steel
70%
cast iron 50%
Nominal lifting capacity is dependent on thickness of the metal
Metal thickness
Rated capacity
mm
In-
SBS-ML
SBS-ML
SBS-ML
more
ches
3000
2000
1000
than:
80
3.14
75
2.95
100%
100%
60
2.36
55
2.16
90%
100%
50
1.97
85%
90%
45
1.77
80%
85%
40
1.57
75%
80%
35
1.38
65%
70%
85%
30
1.18
55%
60%
70%
25
0.98
45%
50%
65%
20
0.79
35%
40%
55%
15
0.59
25%
30%
45%
10
0.39
15%
20%
30%
5
0.2
10%
10%
15%
Dimensions of magnetic
Operating
Weight
hoists (mm)
temperature
range
L
W
H
R
°C
kg
132
62
72
160
-40° +80
3
206
94
93
215
-40° +80
10
270
120
115
240
-40° +80
20
270
120
115
240
-40° +80
20
322
138
140
265
-40° +80
35
322
138
140
265
-40° +80
35
410
160
167
360
-40° +80
65
495
160
167
360
-40° +80
82
SBS-ML
SBS-ML
SBS-ML
SBS-ML
SBS-ML
800
600
500
300
100
100%
100%
100%
100%
100%
80%
70%
85%
85%
50%
70%
70%
85%
40%
55%
55%
75%
30%
40%
40%
45%
65%
15%
20%
20%
25%
35%
11
REV. 18.04.2017
EN