DeVilbiss FLG-G5-14 Operation Manual

SB-E-2-790 ISS.03

Operation Manual

FLG-G5-14

Transtech Gravity Spray Gun

E

P 2 – 8

2 © 2003 ITW Finishing Systems and Products

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Operation Manual

FLG5 – Gravity-feed Spray Gun

Important

Read and follow all instructions and Safety Precautions before using this

equipment

Description

The FLG5 gravity spray gun is fitted with a 1.4 mm nozzle for topcoat applications. Alternative

2.0mm nozzle and needles are available for primer use. The FLG5 gravity-feed spray gun is
approved to ATEX regulations 94/9/EC, protection level;

II 2 G X. Suitable for use in Zones 1 and 2

Important: These spray guns are suitable for use with both water-based and solvent-based

coating materials. The design uses EPA compliant atomising (Devilbiss Trans-Tech®)
technology to reduce overspray and improve coating efficiency. Nozzles and needles are
manufactured in stainless steel. These guns are not designed for use with highly corrosive
and/or abrasive materials and if used with such materials it must be expected that the need for
cleaning and/or replacement of parts will be increased. If there is any doubt regarding the
suitability of a specific material contact your local Distributor or ITW Finishing direct.

Specification

Air supply connection - Universal ¼” BSP and NPS
Maximum static air inlet pressure - P1 = 12 bar (175 psi)
Nominal gun inlet pressure with gun triggered - 2.4 bar (35 psi)
Maximum service temperature - 40°C
Gun weight - 640 g
Air flow - 277 l/min (9.8 cfm)

Materials of Construction

Gun body - Aluminium
Nozzle - Stainless steel
Needle - Stainless steel
Cup - Acetal and stainless steel

ITW Finishing Systems and Products reserve the right to modify equipment specification without prior notice.

© 2003 ITW Finishing Systems and Products 3

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SAFETY WARNINGS

Fire and explosion

Solvents and coating materials can be highly flammable or combustible when sprayed.

ALWAYS refer to the coating material supplier’s instructions and COSHH sheets
before using this equipment.

Users must comply with all local and national codes of practice and insurance company
requirements governing ventilation, fire precautions, operation and house-keeping of
working areas.

This equipment, as supplied, is NOT suitable for use with Halogenated
Hydrocarbons.

Static electricity can be generated by fluid and/or air passing through hoses, by the
spraying process and by cleaning non-conductive parts with cloths. To prevent ignition
sources from static discharges, earth continuity must be maintained to the spray gun
and other metallic equipment used. It is essential to use conductive air and/or fluid
hoses.

Personal Protective Equipment

Toxic vapours – When sprayed, certain materials may be poisonous, create irritation or
be otherwise harmful to health. Always read all labels, safety data and follow any
recommendations sheets for the material before spraying. If in doubt, contact your

material supplier.

The use of respiratory protective equipment is recommended at all times. The type of
equipment must be compatible with the material being sprayed.

Always wear eye protection when spraying or cleaning the spray gun.

Gloves must be worn when spraying or cleaning the equipment.

Training – Personnel should be given adequate training in the safe use of spraying equipment.

Misuse

Never aim a spray gun at any part of the body.
Never exceed the max. recommended safe working pressure for the equipment.
The fitting of non-recommended or non-original spares may create hazards.
Before cleaning or maintenance, all pressure must be isolated and relieved from the equipment.
The product should be cleaned using a gun-washing machine. However, this equipment should

not be left inside gun-washing machines for prolonged periods of time.

Noise Levels

The A-weighted sound level of spray guns may exceed 85 dB (A) depending on the set­up being used. Details of actual noise levels are available on request. It is
recommended that ear protection is worn at all times when spraying.

Operating

Spray equipment using high pressures may be subject to recoil forces. Under certain
circumstances, such forces could result in repetitive strain injury to the operator.