Heavy series For Tipper

References

Reference ØA ØB Z Course
Stroke
Hub
H I B ØT1 ØT2 ØT3 ØT4 ØT5 ØT6 Nombre de sections
Number of sections
Anzahl elemente
A A Poussée
Thrust
Schub
B C D D max E F F' F min G H HT min I J K L M N O P T X X min Y Max* Vol. (Ltr) Vol. (cm3) Pression
Pressure
Druck
(bar)
Vérin
Cylinder
Zylinder
Débit
Flow
Leistung (vol)
Débit
Flow
Leistung (Ltr
min)
Poids
Weight
Gewicht (Kg)
Pression max
Max pressure
Max druck
Débit max
Max flow
Max leistung
Rapport de pilotage
Pilot ratio
Aufsteuerung
OPTION
Berceau
Cradle
Ring N°
Longueur
Length
Länge (m)
pressostat Téléchargement
Download
423 L 1810 88 107 126 147 45 50 198 50 592 50 35 175 1/2 85 200 25 100 4 423 L
424 L 2250 88 107 126 147 45 50 198 50 702 50 35 175 1/2 85 203 31 115 4 424 L
529.I 3250 88 107 126 147 170 45 50 238 50 805 50 35 202 1/2 84 206 47 152 5 529.I
632 L 3867 88 107 126 147 170 200 65 65 280 65 806 70 45 232 3/4 110 328 69 229 632 L
425 L 2200 107 126 147 170 45 50 238 50 702 50 35 202 1/2 104 200 41 125 5 425 L
429.I 2600 107 126 147 170 45 50 238 50 802 50 35 202 1/2 104 203 43 152 5 429.I
530 L 2705 107 126 147 170 200 65 65 280 65 703 70 45 232 3/4 119 325 58 190 530 L
532 L 3205 107 126 147 170 200 65 65 280 65 803 70 45 232 3/4 119 325 65 210 532 L
430 L 2146 126 147 170 200 65 65 280 65 703 70 45 232 3/4 123 325 49 185 430 L
432 L 2546 126 147 170 200 65 65 280 65 803 70 45 232 3/4 123 325 58.5 203 432 L

Features

The study, the conception and the technical specifications are only suitable for tippers

– Max pressure : 200 bars
– Proof pressure : 300 bars
– Maximum speed : 0.2m/s
– Temperature : – 30°C to + 90°C
– Hydraulic mineral oil

• Materials
– Seamless tube NFA 49311/312 tube machined, ground, trated and polished Ra < 0.4µ
– Cold-drawn tube
– Round bar Steel C35R, machined, ground and polished Ra < 0.4µ
– Each component is nitrited (except cylinder
bottom)

• Seals
– Rod: compact polyurethane lip seal + 1 polyurethane
wiper seal
– Cylinder bottom: O RING 80 shore + back up
ring or static seal

• Marking
On the tube or bottom: REFERENCE + CH +
WEEK/YEAR of manufacture

• Testing by “pick up”

Recommendations

– Protect the hydraulic circuit by a relief valve and a filter;
– Check the state of purity of the fluid (foreign bodies);
– Remember to purge the cylinders and the
hydraulic circuit;
– Do not weld onto the cylinder;
– Do not, under any circumstances, use the
tipping system as a mechanical stop;
– Never allow the body to lean against the cylinder
when in stowed position (gap > 20mm).

• Storage:
– The cylinder rod must be greased before being
stored;
– Protect the cylinder shaft and trunnions during
high pressure steam cleaning.

• Spare parts: joint pockets, see price list.

• Instructions: on request.

• Guarantee: please refer to the general sales
conditions.

The normal operation of a CHAPEL telescopic
cylinder consists in the regular lifting of a tipper
body to progressively empty its load over its
path, whilst respecting the operating and safety
conditions.

A tipping system is solely a lifting device, it cannot,
under any circumstances, stabilise or guide
the tipper body.

On choosing a cylinder, the weight C is equal
to the weight of the body added to the weight of
the load.

Additional information

SAFETY PROCEDURES TIPPING
Plan a gap from 20 to 30mm

Ensure that:
– The necessary tipping pressure is less than
the maximum recommended operating pressure;
– The load is compatible with the vehicle;
– The ground is stable and flat;
– There are no people or obstacles in the working
perimeter (at ground level and high up),
– The load has been distributed uniformly;
– The tyre pressure is correct;
– The load is progressively emptied.

PAY ATTENTION to loads sticking in the body
(wet earth, etc…)
Strong adhesion to the body may cause the
vehicle to tip over.

THE FOLLOWING IS STRICTLY PROHIBITED:
– Do not move the vehicle during tipping;
– Rapid operation of the cylinder tipper control;
– Working under a raised tipper body that has
not been secured;
– Tipping if the wind is buffeting the vehicle.

«Not following the above safety procedures
may cause considerable over-pressures and
transverse forces that are not allowed by the
cylinder.
This may therefore cause considerable damage
and place the operator in danger.»

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