GENERAL INFORMATION
Bullard's 88E Series airline respirators, when properly used, provide a continuous flow of air
from a remote air source to the respirator wearer. 88E Series respirators offer protection from
airborne contaminants that are not immediately dangerous to life or health or that do not exceed
concentrations allowed by applicable regulations and recommendations. If you have any ques-
tions concerning the use of this respirator, or if you are not sure whether the atmosphere you
are working in is immediately dangerous to your life or health, ask your employer. All instructions
for the use and care of this product should be supplied to you by your employer as recommended
by the manufacturer.
88E Series airline respirators are approved to provide respiratory protection in general purpose
applications including heavy and light-duty abrasive blasting. The cape is designed to protect the
worker's body from abrasive rebound.
This respirator, when properly fitted and used, significantly reduces, but does not completely
eliminate, the breathing of contaminants by the respirator wearer. When properly fitted, used
and maintained, it will provide protection up to 1000x occupational exposure limit. (Check regula-
tory requirements to determine exposure limits.)
Improper respirator use may damage your health and/or cause your death. Improper use may
also cause certain life-threatening delayed lung diseases such as silicosis or pneumoconiosis.
This respirator is not suitable for use in flammable atmospheres and is not designed for use in
exceptionally low or high temperatures where moisture in the air could freeze or the worker
could be at risk for heat exhaustion. The air supply moisture content should be controlled to avoid
freezing the apparatus when used at temperatures below 4° C.
FACE AND EYES
The respirator's inner lens provides protection to EN 166 (low energy impact). Wear appropriate
safety glasses or goggles if higher protection levels are required.
HEAD
This respirator is designed to provide limited head protection by reducing the force of falling
objects striking the top of the helmet.
This table defines the air pressure ranges necessary to provide 88E Series respirators with a volume of air that falls within the required range.
The respirator provides an air flow of 210-345 lpm to the user. The minimum length of air supply hose is 10 meters, and the maximum length is
20 meters.
1
AIR SOURCE
FLOW CONTROL DEVICE
Stationary or portable
COMPONENT CONCEPT
Bullard's 88E Series airline respirators consist of three compo-
nents (Figure 1): respirator helmet assembly, breathing tube
assembly and air supply hose.
1. RESPIRATOR HELMET ASSEMBLY: Includes inner shell,
headband suspension, chin strap and cape.
Respirator Helmet*
88E
* NOTE: Optional accessories: 88VXLC Lens Cover.
2. BREATHING TUBE ASSEMBLY: Connects respirator
helmet to air supply hose by an adjustable airflow control
device (F100E) and belt.
3. AIR SUPPLY HOSE: Connects breathing tube to air source
supplying clean breathable air.
Hose for High Pressure Compressed Air Source
E10
3/8" I.D. Hose
E1010
E1020
Available in 10 and 20 meter lengths.
1
Breathing Air Pressure Table
2
3
HOSE LENGTH
F100E
10 meter
F100E
20 meter
Respirator Helmet with Cape Attached
Cape
4644E
Breathing Tube Assembly
Clean, Breathable Air Source
Low Flow Indicator
The low flow indicator is located on the F100E flow control device. The indicator must be checked
periodically when the respirator is in use. During use, the needle on the low flow indicator should
point into the green section of the gauge indicating proper flow levels. If the needle dips into the
red section, leave the work area immediately as you are receiving less than the required air flow
for safe operation.
The Low Flow indicator must be checked periodically while the respirator is in use.
Breathing Air Pressure
Air pressure must be continually monitored at the point-of-attachment while operating this
respirator. A reliable air pressure gauge must be present to permit you to continually monitor
the pressure during actual respirator operation.
Failure to supply the minimum required pressure at the point-of-attachment for your
hose length and type will reduce airflow and may expose you to life-threatening
conditions, diseases or death.
Breathing Air Pressure
CE approved Bullard air supply hose(s) MUST be used between the breathing tube connection
fitting on the wearer's belt and the point-of-attachment to the air supply (Figure 3).
When connecting lengths of E10 hose together, only use Bullard V11 hose-to-hose adaptors.
Secure connection(s) until wrench-tight and leak-free. Total connected hose length and number
of hoses MUST be within the ranges specified on the Breathing Air Pressure Table.
The breathing tube connection fitting MUST be secured to the belt that is supplied with this respi-
rator. Securing the air entry connection fitting helps prevent the air supply hose from snagging,
disconnecting or pulling the respirator helmet off your head.
Before you can size the headband suspension, the cape and headband must be removed from
the helmet using the following steps:
4
POINT OF ATTACHMENT PRESSURE
Bar
(PSIG)
4.8-5.0
(69-72)
5.0-5.2
(72-75)
➀
Inner and Outer Window
➁
➂
Air Supply Hose
➤
OPERATIONS
�
WARNING
�
WARNING
�
WARNING
At very high work rates, the pressure in the hood
may become negative at peak inhalation flow. To
minimize this potential, utilize the maximum air pres-
sure specified in the Breathing Air Pressure Table
and adjust flow control valve to maximum flow.
Suspension
Lenses
Chin Strap
Air Flow
Control Device
Inner Shell
Cape
Belt
Figure 1