Marshalltown SP684 SURFACE SHARK Surface Planer User Manual

SP684 SuRFACE ShARK SuRFACE PLANER

PAGE 25

2) Flail cutting depth is controlled by the height

adjustment lever . Rotate the lever counterclockwise

to raise the flail drum off the work surface. Rotate

the lever clockwise to lower the flail drum to the work

surface. The height adjustment lever can be locked

in position by dropping the connecting capscrew head

through one of the two holes provided. Each complete

turn will raise or lower the flail drum approximately

1/16 inch (1.6 mm). using the height adjustment lever,

lower the flail drum into the work surface to the desired

depth.

3) Proper operator position will enhance operational

safety and overall productivity. FIGuRE 24. operate

the engine at maximum, governed speed. Consult the

material supplied by the engine manufacturer and the

Specifications section for specific information.

FIGuRE 23

4) The wide variety of potential work surface

materials along with the corresponding variety of job

site environments, makes it impossible to develop

a standardized operating procedure for the Surface

Planer. use of the Surface Planer will require constant

trial and error testing until satisfactory results are

achieved. Experience gained over time and common

sense will help to minimize the amount of necessary

testing. Many factors will directly affect the operating

parameters and/or techniques utilized for a specialized

job application. Some of these factors include:

FIGuRE 24

a) Work surface material yield and tensile value. As

a general rule, these values will determine the cutting

depth achieved in one pass. Materials with high yield

and tensile values will characteristically resist/limit

flail penetration. For such materials, the accepted

procedure is to make a number of shallow passes

over the work surface rather than attempt to make a

single, deep pass. The net effect is to actually increase

productivity: more material removed in less time.

other added benefits to this technique are decreased

vibration, less operator fatigue and increased flail

service life.

b) higher material removal rates can sometimes be

achieved by making a series of shallow passes 90

degrees to each other to form a waffle like pattern.

This technique is especially useful when planing

misaligned sidewalks and joints.

c) Job specifications may require a wide variety of

work surface finishes and textures. The smoothest

surface texture available from the Surface Planer is

very similar to a “broom” type finish. If a smoother

finish and texture is required to meet specifications, a

grinding finish must be specified. This process utilizes

a different process and can not be achieved with the

Surface Planer.

5) The Surface Planer features a “down feed” type

design for the flail drum. The flail drum rotates forward

and towards the front of the machine before the

flails impact the work surface and remove material.

The rotational direction of the drum produces a

“self-propelled” effect that assists the operator when

pushing the machine forward. Conversely, when the

operator pulls the machine back towards himself, he

must exert an additional force to overcome the “self-

propelling” force.