D
david_in
New Member
Hello,
my name is Davide and I'm designing a custom Crane for Lifting big tanks. I'm not really
experienced with crane equipments but I've found a solution which fits with my
space requirements.
Each tanks I have to lift is:
-1 ton heavy
-size: L=2m, D=1m
-lift height= 4.5m from the ground
-application indoor
My concept consider of having a telescopic beam supported on the bottom from a square
baseframe (2x2m) driven by 4 wheel, 2 of them motorized. The beam is bolted in the
center of the baseframe and a bearing joint allow to turn it 360°.
The tank is on the top of the beam and is fastened to a shell support which allows
axial shifting. So tank's center of gravity can be moved ±400 mm in axial direction.
Actually the center of gravity of all the system (=lifter+tank) is just 400mm far from
the beam, i.e. it's fully inside the baseframe area.
The proper dimensioning of the structure is no longer an issue.
I'm more concerned in the stability of the system both in static and dinamic conditions.
About the dinamic conditions I'm considering to shift/operate the baseframe
wheels when the load is lifted up just for small adjustment (accelerations negligible).
I wonder what are the normatives/rules to be fulfilled during the certification tests.
Currently I've just found the ISO 4310 (EN13001 and MAchine Directive valid in UE
are not specific for stability checks)
Thanks in advance for your support
regards
Davide
my name is Davide and I'm designing a custom Crane for Lifting big tanks. I'm not really
experienced with crane equipments but I've found a solution which fits with my
space requirements.
Each tanks I have to lift is:
-1 ton heavy
-size: L=2m, D=1m
-lift height= 4.5m from the ground
-application indoor
My concept consider of having a telescopic beam supported on the bottom from a square
baseframe (2x2m) driven by 4 wheel, 2 of them motorized. The beam is bolted in the
center of the baseframe and a bearing joint allow to turn it 360°.
The tank is on the top of the beam and is fastened to a shell support which allows
axial shifting. So tank's center of gravity can be moved ±400 mm in axial direction.
Actually the center of gravity of all the system (=lifter+tank) is just 400mm far from
the beam, i.e. it's fully inside the baseframe area.
The proper dimensioning of the structure is no longer an issue.
I'm more concerned in the stability of the system both in static and dinamic conditions.
About the dinamic conditions I'm considering to shift/operate the baseframe
wheels when the load is lifted up just for small adjustment (accelerations negligible).
I wonder what are the normatives/rules to be fulfilled during the certification tests.
Currently I've just found the ISO 4310 (EN13001 and MAchine Directive valid in UE
are not specific for stability checks)
Thanks in advance for your support
regards
Davide