Maintenance – Multiquip LS-600P User Manual

page 48 — MaYCO LS600p CONCReTe pUMp • OpeRaTiON MaNUaL — Rev. #0 (05/13/13)

Accumulator Circuit

The accumulator circuit has two functions in the hydraulic

system.

„

The accumulator circuit furnishes the hydraulic pressure

to cycle the shuttle tube.

„

The accumulator circuit also furnishes the pilot pressure

necessary to activate the hydraulic system.

The accumulator circuit is equipped with a bladder type

accumulator (Figure 55) charged with 1100 PSI of dry

nitrogen. The accumulator stores one gallon of hydraulic

oil, which is, under 1750 PSI of pressure.

Figure 55. Accumulator

When the pump cycles, a part of the stored oil is released

to the shuttle cylinder. This released oil pressure assures

the shuttle tube has enough force to shear the cylinder of

concrete passing from the concrete cylinder to the concrete

delivery line during the cycle phase.

Checking Accumulator Bladder Pressure

The normal accumulator charge pressure should be

approximately 1100 PSI. To check the accumulator

pressure:

DANGER

Improper accumulator charging

can result in an explosion causing

serious injury or death! Never

use oxygen or compressed air

to charge the accumulator! Only

qualified personal should perform

this procedure. Use only dry nitrogen to charge the

accumulator. Contact your Mayco service department

or your local Hydac representative for proper charging

procedure

MAIntEnAncE

1. Start the engine and stroke the pump. The accumulator

pressure gauge (Figure 30) should read 1750 PSI.

2. To determine the actual accumulator PSI, stop the

engine and observe the pressure gauge. As the PSI

reading slowly decreases, it will reach a point where

there will be a sudden drop in the PSI. The PSI reading

should be taken just prior to this sudden drop. If you

do not read 1100 PSI, the accumulator may require

charging or bladder replacement.

Wear Plate and Cutting Ring

Due to the abrasive nature of concrete, it is normal for the

cutting ring to wear on its sides as it shears through the

concrete inside the hopper. The metal-to-metal friction and

the abrasiveness of the concrete will cause extreme wear

and reduce sealing capability between the cutting ring and

wear plate.
If the two components do not properly seat against each

other, slurry will pump into the hopper rather than out the

discharge line. See Figure 56. This condition can easily

be observed.
1. The sudden change of the level of concrete inside the

hopper during each pumping stroke

2. Concrete slurry squirting into the air from the hopper

(Volcano effect)

3. When the output volume at the end of the delivery line

decreases in pressure

4. Unusual frequent material packs in the Shuttle tube
It is important that the wear components be inspected

weekly for proper sealing. Failure to inspect will eventually

cause severe damage to the nun-plate and material

cylinders. Visually inspect wear plate and cutting ring to

ensure surfaces are sealed against each other.
If a deep groove or a wide space has developed on the

sealing surfaces, it is time for replacement. Due to the

motion of the

shuttle tube, the cutting ring experiences

a quicker rate of wear as opposed to the wear plate. The

wear ring typically requires replacement two times per wear

plate (2 to 1). When replacing the wear ring, also replace

the rubber energizer ring.