Parker SmogHog SHM-C User manual
SMOG-HOG®Media Mist Collector
Owner’s Manual
Models SHM-C & SHM-F
i
KNOW YOUR EQUIPMENT
READ THIS MANUAL FIRST.
Your SMOG-HOG®SHM should provide many years of trouble-free service. This
manual will help you understand the operation of your SHM unit. It will also help you
understand how to maintain it in order to achieve top performance. For quick future
reference, fill in the unit information in the spaces below. Should you need assistance,
call the Parker customer service number shown below. To expedite your service, have
the following information available when contacting Parker.
Parker Order #: _______________________________________________________________
Unit Model #: _________________________________________________________________
Unit Serial #:__________________________________________________________________
System Accessories:
______________________________________________________________________________
______________________________________________________________________________
______________________________________________________________________________
Installation Date: ______________________________________________________________
Parker Hannifin Customer Service
1-800-343-4048
ii
TABLE OF CONTENTS
Page
Safety Precautions.......................................................................................... ii
1. Important notice......................................................................................... 1
2. Introduction................................................................................................. 1
2.1 SMOG-HOG Nomenclature ....................................................................... 1
2.2 Equipment Description.............................................................................. 1
2.3 Principal of Operation................................................................................ 1
3. Installation...........................................................................................................3
3.1 Inspection and Off Loading........................................................................ 3
3.2 Installation Preparation and Planning......................................................... 3
3.3 Discharge Component Installation ............................................................ 3
3.4 Mechanical Installation............................................................................... 3
3.5 Electrical Connection.................................................................................. 4
3.5.1 Electrical Supply Power....................................................................... 5
3.5.2 Electrical Basic Controls...................................................................... 5
3.5.3 Electrical Touchscreen Controls........................................................... 5
3.5.4 Electrical Remote Panel Controls......................................................... 5
3.5.5 Machine Interlock Dry Contact............................................................. 6
3.6 Filter Installation.......................................................................................... 6
3.6.1 Installation Procedure for After-Filters................................................... 6
3.6.1.1 Hold Down.................................................................................... 6
3.6.1.2 Enclosure....................................................................................... 6
3.7 Drains......................................................................................................... 6
4. Unit Operation.....................................................................................................8
4.1 Start-up...................................................................................................... 8
4.2 System Operation....................................................................................... 8
4.2.1 Airflow Adjustment Using Manual Speed Control................................. 8
4.2.2 Airflow Adjustment Using Auto-Flow Control....................................... 8
4.3 Touchscreen Operation.............................................................................. 8
4.3.1 Start-Up And Home Screen................................................................. 8
4.3.2 Standard Format..................................................................................10
4.3.3 Basic Screens......................................................................................10
4.3.4 Auto-Flow Screen................................................................................11
4.3.5 After-Filter.............................................................................................11
4.3.6 Customer Settings...............................................................................11
5. Service................................................................................................................13
5.1 General Maintenance Guidelines.................................................................13
5.2 Filter Service...............................................................................................13
5.2.1 Installation Procedure For Coalescing Peach
Saturated Depth Filter Elements...........................................................13
5.2.2 Installation Procedure For Pre-Filter & Bag Filter...................................14
5.3 Contaminant Removal................................................................................14
6. Troubleshooting Guide..................................................................................... 15
7. Replacement Parts..........................................................................................16-17
APPENDIX - Wiring Diagrams.........................................................................18-27
Product Warranty.............................................................................................. 28
iii
SAFETY PRECAUTIONS
We have provided many important safety messages in this manual. Always read and obey all safety messages.
• Use proper lifting and rigging equipment to install your
dust collector.
• The dust collector should be properly grounded.
• Disconnect power before servicing.
• Replace all access panels before operating.
• Electrical connections should only be made by qualified per-
sonnel, and be in accordance with local and national codes
and regulations.
• Do not use in explosive atmospheres unless the dust
collector is equipped with the appropriate accessories.
• Keep flammable materials and vapors, such as gasoline,
away from dust collector.
• The unit should be inspected frequently and dirt removed to
prevent excessive accumulation which may result in flash-
over or fire damage.
• Operate only in a safe and serviceable condition.
• Do not allow any individual to put lit cigarettes or any
burning objects into the hood or ducting of any dust
control system.
!
!DANGER
This is the safety alert symbol.
This symbol alerts you to potential hazards that can kill or hurt you and others. All safety messages will follow the
safety alert symbol and the word “DANGER”, “WARNING” or “CAUTION”. These words mean:
Indicates a hazardous situation which, if not avoided, will result in death or serious
injury.
Indicates a potentially hazardous situation which, if not avoided, could result in death
or serious injury.
Indicates a potentially hazardous situation which, if not avoided, may result in minor
or moderate injury.
CAUTION used without the safety alert symbol indicates a potentially hazardous
situation which, if not avoided, may result in property damage.
IMPORTANT SAFETY INSTRUCTIONS
To reduce the risk of fire, electric shock, or injury when using the air cleaner, follow these basic precautions:
!WARNING
!WARNING
!CAUTION
CAUTION
1
COMBUSTIBLE DUST HAZARDS –
SMOG-HOG®and DUST-HOG®Pollution Control Systems
Pursuant to National Fire Protection Agency (NFPA) Standards, the owner/user is required to test their dust mixtures
to evaluate and understand potential combustion or deflagration hazards that may exist. In addition, NFPA standards
require the owner/user to perform and have record of a Dust Hazard Analysis (DHA) if there is potentially a combustible
material involved within or exposed to the process.
The DHA serves as a systematic review of the process to:
1) Identify where fires and explosions can occur;
2) Identify the potential causes and consequences, and;
3) Determine if existing and proposed safeguards are sufficient.
It is the responsibility of the owner/user to evaluate, interpret and document any associated risk in their process
including adherence and compliance to any and all applicable local, state and federal codes, standards, laws and
regulations.
It is the sole responsibility of the equipment owner/user of record to coordinate and perform sample material collection
and combustion/explosivity testing of any and all dust and material that will be extracted and filtered by the Air Pollution
Control (APC) filtration equipment and to notify Parker of the results prior to any discussion involving equipment
specification and solution recommendation. It is recommended to utilize a Certified Industrial Hygienist (CIH) or certified
safety expert that is properly trained, licensed and approved and to use a licensed and approved dust testing facility
for proper dust and material analysis, testing protocol and reporting procedures. A sample of testing facilities and list of
Industrial Hygiene (CIH) and other occupational and environmental health and safety (OEHS) consultants can be located
through AIHA (American Industrial Hygiene Association) website.
To minimize the risk of fire or explosion, user must ensure proper installation, operation and maintenance of Parker
equipment. Since application, installation, operation and maintenance are beyond the control of Parker, Parker disclaims
any liability or responsibility for damage from fires or explosions regardless of origin. Parker recommends that all APC
dust collection equipment, installation and application conform to any and all applicable local, state and federal
standards, codes, laws and regulations including the addition of appropriate fire or explosion protection systems
including but not limited to venting, mitigation, suppression and isolation when and where required. Installation of
Parker equipment should be by a licensed contractor that is also experienced in potential fire and explosion hazards
and adheres to related local, state and federal codes, standards, laws and regulations. Parker is not an expert nor
certified design consultant in relation to spark, fire or explosion mitigation including but not limited to detection,
mitigation, suppression and isolation pf combustible dusts and materials. Therefore, Parker recommends that any
industrial air filtration system recommendation, design or solution be reviewed, approved, stamped and signed by
an industry expert consultant in air filtration systems, combustible dust/materials or certified safety expert such as a
Certified Industrial Hygienist (CIH) or a Certified Professional Engineer (PE) who is a licensed and certified expert with
industrial filtration system design and application including adherence and compliance to any and all applicable local,
state and federal codes, standards, laws and regulations.
Pursuant to Parker’s Offer of Sale (terms and conditions) and by accepting the purchased equipment, Buyer and owner/
user agree to defend, indemnify, and hold harmless Parker, its successors, assignees, suppliers, shareholders, directors,
officers, employees, agents, and affiliated companies from all losses, costs, damages, demands, claims, liabilities, fines,
penalties or any other expenses (including attorneys’ fees, court costs, and expert fees) (collectively “losses”), caused or
contributed to in any way by Buyer or owner/user’s failure to follow these instructions and/or failure to properly install,
apply, operate, or maintain the equipment purchased from or supplied by Parker, or losses caused or contributed to in
any way by Buyer’s and owner/user’s failure to provide accurate information, specifications or dust explosivity values.
Page intentionally left blank
3
1. Important Notice
This manual contains important safety information and precau-
tionary measures. It is impossible to list all potential hazards
associated with every collection system in each application.
Proper use of the equipment should be discussed with Parker.
Operating personnel should be aware of, and adhere to, the most
stringent safety procedures.
2. Introduction
Thank you for selecting Parker oil mist collection equipment
to assist you in your commitment to a clean and safe envi-
ronment. We trust that in purchasing our product, you have
recognized our commitment to offering air cleaning equipment
which is engineered to each oil mist collection need and manu-
factured to the highest standards. If at any time you have a ques-
tion about oil mist collection, please do not hesitate to call Parker
customer service.
The purpose of this manual is to provide the proper operating
and maintenance guidelines for the SHM system supplied
by Parker. As you review this manual, refer to Figure 1 for
assistance in identifying oil mist collector parts.
The SHM oil mist collector has been designed to provide you
with exceptional oil mist collection capabilities and reliable, long
term field operation. We suggest that you thoroughly review this
manual prior to installation and startup of your system.
If your SHM has optional equipment included as part of your
order, specific operations and maintenance manuals for these
accessory systems will be included. If applicable, site specific
installation and other drawings will also be included.
If you require assistance in the installation, startup, operation,
maintenance, or troubleshooting of your air cleaning equipment,
contact your local Parker sales representative.
2.1 SMOG-HOG Nomenclature
SMOG-HOG oil mist air cleaners are available in a variety of
configurations and sizes. The model string for each given unit
represents the base configuration. The model number completely
identifies the design and can be found on the unit nameplate.
SHM models are defined according to descriptions listed below
(see bold):
SHM-XXX
Filter type
Quantity of filter modules deep
Quantity of filter modules wide
C - PEACH Saturated Depth
F - Fiberglass Bag Filter
Models SHM-11C, SHM-12C, SHM-21C, SHM-31C,
SHM-22C, & SHM-32C
Models SHM-11F, SHM-12F, SHM-21F, SHM-31F,
SHM-22F, SHM-32F
The SMOG-HOG is a free standing, self contained, multistage,
oil mist filtering unit with inlet sump or direct mount flange,
mechanical prefilter, primary filter, blower cabinet, and controls.
Optional after filters are available for third stage filtration.
2.2 Equipment Description
This section will briefly describe each component in the SHM
and its role in the system’s operation.
Inlet Sump
Most units will include an inlet sump with multiple 10˝ inlets
where all incoming dirty air will enter. The sump provides an
expanded volume allowing contaminant to drop out of the airst-
eam reducing loading on the filters. A 1-1/2” FNPT coupling is
included at the peak of a sloped bottom allowing the collected
contaminant to be reclaimed or drained.
Filter Cabinet
Each unit has a filter access door that provides access to both
the prefilter and primary filter for service and replacement. The
mesh prefilter rests on tracks near the bottom of the cabinet.
The PEACH coalescing filter option is mounted on a removable
cassette secured by a cam bar mechanism. The fiberglass bag
option uses a hanging rod system.
Filter Elements
Stage 1: Mist-Stop fine fiber aluminum mesh
Stage 2: Primary coalescer featuring PEACH Saturated Depth
Coalescing Technology - or - fiberglass bag
Blower Cabinet
Most units will have a blower cabinet where the motorized
impeller style blower is housed, as well as the electrical controls.
2.3 Principal Operation
The purpose of the SHM is to collect fugitive mist generated
by various industrial processes during operation. The collected
contaminate is drained off of the coalescing filters into the sump
below or directly back into the machine. The sump is attached
to a drain system of the customers choice for recycling or dis-
posal, or emptied manually at regular intervals.
Do not let the oil level in the sump reach the height
of the air inlet opening.
Differential Pressure
Differential pressure, also referred to as pressure drop (Δ P), is
an indication of the resistance to airflow across the filter ele-
ments. Differential pressure is commonly measured in inches of
water column (W.C.) or Pascals (Pa). It is normal for the differ-
ential pressure to increase as the collector operates. Any sud-
den increase or decrease in differential pressure may indicate
a problem in the collector (blinded filters, leaks or other cause)
that requires immediate attention. See trouble shooting guide in
Section 6 for assistance.
The operating differential pressure displayed on the unit
will typically run between 0.5 to 4 in. W.C. (124 to 995 Pa) for
a Fiberglass Bag filter, and between 0.75 to 4 in. W.C. (187 to
995 Pa) for a Coalescing Cartridge filter. The expected pressure
range for the after-filters is 0.5 to 3.0 in. W.C. (124 to 746 Pa).
CAUTION
4
FIGURE 1B
SHM Equipment Description
61-10113
FIGURE 1A
SHM Equipment Description
5
Ensure there is adequate access to the electrical components with
ducting installed.
3.3 Discharge Component Installation
Ensure to position the unit so that the clean air discharge is directed
into an open area free of obstructions and with consideration for
personnel safety.
3.4 Mechanical Installation
CRUSH HAZARD
Use adequate safety measures when lifting and
assembling any heavy components. Consult your
plant safety personnel for recommendations.
Connect lifting slings and spreader bars to lifting lugs
with clevis pins. Use spreader bars to distribute the
load evenly. Location must be clear of all obstruc-
tions, such as utility lines or roof overhangs.
When the SHM unit is to be mounted directly to a machine, you
will be furnished with a mounting flange and drawing to illustrate
the bolt pattern and hardware required for proper mounting to their
equipment. Be sure to seal around the entire perimeter between the
mounting flange and the existing machine with an appropriate seal-
ant in a figure-eight pattern around each bolt hole.
Units with sumps utilize 10˝ inlets and optional collar flange(s) that
come mounted to the unit. They can be rearranged and mounted
however desired based on application needs. Be sure to use a poly-
urethane sealant or gasket to prevent leaks. It is recommended to use
ducting that is liquid tight to prevent leaks.
All other transitions, ducting or plenums required for unit set-up and
operation are not included with the equipment.
Unit should always be secured to the floor when
installed in this configuration.
Secure the unit at all four corners using the standard unit feet or exten-
sion leg foot pads. At least one of the two holes per foot pad on the
extension legs should be secured. See Figure 1 for reference.
Ceiling mounted units are suspended by means of 1⁄2˝ threaded rods
(item #1 in Figure 3) which run through weld nuts (item #2 in Figure 3)
in the top corners of the units. Refer to Figure 2 for weld nut locations
on SHM-11 models. Additional support should be used for auxiliary
equipment or ducting. Do not suspend units larger than the SHM-11
from the ceiling.
The SMOG-HOG should not be used for support of
personnel or material. Check with local building code/
structural engineer to ensure proper installation to roof
truss or any other mounting method.
3. Installation
3.1 Inspection and Off Loading
As soon as your equipment arrives, it should be carefully inspected
to make certain that it is in good condition and that all items listed
on the packing list have been received. Even though the items are
carefully loaded and tied down at the time of shipment, it is possible
for them to be damaged or become dislodged in transit.
Report any damage(s) and/or shortage(s) immediately. It becomes
increasingly difficult for either the carrier or the supplier to assume
responsibility for any damages after too much time has elapsed.
Check all loads separately.
The following steps should be taken immediately upon receipt
of your shipment; this will assure and expedite claim payments
and replacement of missing or damaged items.
1. Begin your inspection of the shipment BEFORE it is unloaded.
2. Check for damage to any exposed items, particularly at the tie-
down locations.
3. Photograph any damage. Do this BEFORE the equipment is
unloaded.
4. Check Bill of Lading quantities and description. Note any discrep-
ancies on all copies of the Bill of Lading and have them acknowl-
edged (the carrier should sign). Damage description should also
be written directly on, or attached to, the Bill of Lading, and
should also be signed by the driver.
Contact the insurance company and the shipper at once so that
damages and/or shortages can be corrected and a claim can be
filed without delay.
TIP OVER HAZARD
Lift the SHM unit and components by the packing
skids or on the lifting eyes located on the top of the
unit in each corner. Do not lift the unit by placing
lift truck forks through the legs on the underside of
the unit.
3.2 Installation Preparation and Planning
Prior to the actual installation of the SHM, the location should
be readied. This would include having an adequate lay-
down area for all components, and access for the crane,
forklifts and other machinery. The unit will come pre-assembled.
The majority of installation will be electrical hook-up, and hanging,
mounting, or securing the unit. An electrical source, lighting and
other equipment should be readily available to aid in the installation.
In most cases engineering drawings of your specific equipment and
options will be provided. These and all available documentation
for your system should be thoroughly reviewed prior to beginning
any installation work. This includes the unit and electrical controls.
Ensure to leave an appropriate amount of room around your unit to
allow for maintenance and servicing. A minimum of 2-1/2 feet (0.76
m) of clearance is recommended for service in front of the filter
access door and 3 feet (1 m) for the rear electrical access per NEC.
!DANGER
!DANGER
CAUTION
CAUTION
6
61-10116
FIGURE 2
SHM Weights and Lifting Info
Metal Truss Supported Ceilings. Figure 3 shows an SHM-11
unit suspended from a metal truss supported ceiling. Customer should
take care to determine that the truss will be sufficient to support the
weight. As shown, angle iron braces are secured between two steel
trusses. Rod length should be kept to a minimum and cut to length
as necessary.
In this instance, the rods instead will be installed in the exact same
fashion into the weld nuts found in the blower cabinet.
Be sure rods are threaded adequately into weld nuts, about 1˝ (25.4
mm) of rod extending inside the cabinet is acceptable.
Tighten lock nuts (item #3 in Figure 3) in place to be sure unit does not
vibrate lose or fall over time.
3.5 Electrical Connection
The SHM is available with various controls configurations. Refer to
the section headings below and follow the section instructions that
best align with your specific unit. Multiple sections may apply to the
same unit. The SHM customer electrical connections are located on
the rear of the unit as shown in Figure 1B.
FIGURE 3
Ceiling Mounted Unit
7
The supply voltage and FLA will be noted on the nameplate. The
blower and pulse cleaning system controls are factory pre-wired
for operation. The touchscreen controls are also pre-wired for the
integral option, but require field wiring and connections for the
remote display enclosure option. Wiring diagrams for the various
SHM controls, blower arrangement and supply voltage options are
available within the appendix of this manual. Note that the SHM
does not contain the main disconnect or fuses for the supply power.
Electrical installation should be completed by a qualified professional
and done in accordance with all applicable codes and regulations.
Power cord and connection into unit will be supplied by the cus-
tomer.
Unit is available in the voltages shown below:
TABLE 1
SHM Voltage and Full Load Amps
Note: When making the main power connections to the unit,
fan rotation check is not required.
3.5.1 Electrical Power Supply
The main power supply is connected to the SHM unit through a 1˝
FNPT coupling located on the rear of the unit shown in Figure 1B.
After feeding wires through the coupling, terminations are made on
the main bus bar terminal for each phase and frame ground con-
nection. The rear electrical panel also contains the unit circuit break-
ers and DC power supply for the controls components. Utilize Table
1 for wire, fuse and disconnect sizing for your respective product
model. A second plugged 1˝ FNPT coupling is also located on the
rear of the cabinet for low optional voltage connections using the
Machine Interlock feature to automate operation. Ensure that the
rear electrical panel cover is in place and secured prior to operating
the unit. Refer to the electrical wiring diagrams in Table 2 for addi-
tional wiring information.
3.5.2 Electrical Basic Controls
The basic electrical controls consist of a thermal motor protec-
tion disconnect on the side of the unit. This is set for the FLA of
the single blower motor. This is factory prewired to the blower
motor. When installing this unit in the field the customer will con-
nect their factory power to the disconnect on the line side of the
thermal protector. The disconnect On/Off will supply power to
the unit and allow the blower On/Off switch on the front of the
unit to control the blower. Inside the door on the front of the unit
there is a blower speed adjustment. This will control the speed
of the blower from off to full speed. This should be adjusted by
the customer to meet their process requirements.
3.5.3 Electrical Touchscreen Controls
The main control panel for the SHM unit is a touchscreen interface
located integrally on the front of the unit or remotely in an auxiliary
enclosure (refer to section 3.5.4) that operates the blower.
The touchscreen control panel is powered by 24V DC. Refer to
Section 4 of this manual for operation of the touchscreen. All wir-
ing in the touchscreen controls panel is pre-wired at the factory
and there are no customer connections at this panel. The panel
door should remain closed and locked during operation.
3.5.4 Electrical Remote Panel Controls
Both the Basic and Touchscreen Controls can be mounted
remotely from the unit. The max distance is 100 FT (30.5 m).
The controls are provided in a NEMA 4X enclosure for mounting.
VOLT PH
#
BLWR HZ RPMFLA XFMR
208 3150-60 3370 6.5 ---
230 3150-60 3370 5.7 ---
240 3150-60 3370 5.5 ---
380 3150-60 4200 6.7 ---
480 3150-60 4200 5.5 ---
575 3150-60 4200 --- 6kVA
208 3250-60 3370 13.5 ---
230 3250-60 3370 11.5 ---
240 3250-60 3370 11.0 ---
380 3250-60 4200 13.9 ---
480 3250-60 4200 11.0 ---
575 3250-60 4200 --- 10kVA
208 3350-60 3370 18.9 ---
230 3350-60 3370 16.4 ---
240 3350-60 3370 15.5 ---
380 3350-60 4200 19.1 ---
480 3350-60 4200 15.5 ---
575 3350-60 4200 --- 15kVA
FOR BASIC CONTROLS ON SHM-11, SUBTRACT
0.5 AMP FROM FLA VALUES ABOVE.
Descripon of Wire Diagram Appendix
Basic Controls A1
Remote Panel Basic Controls A2
One Blower & Controls A3
Two Blower & Controls A4
Three Blower & Controls A5
Remote Panel Touch Controls A6
One Blower & Remote Controls A7
Two Blower & Remote Controls A8
Three Blower & Remote Controls A9
Transformer 575:48
0A
10
TABLE 2
Wire Diagrams
8
Basic Controls – The remote controls panel/enclosure will
contain the blower speed adjusting potentiometer inside the
enclosure, and an on/off switch on the cover. This enclosure
will be attached to the SHM unit at the factory with 50ft of wire.
The cable can be cut down in length at the time of installation if
needed by disconnecting the wire from the remote panel, cut-
ting to length, and reconnecting. Use the wire diagram on page
A2 for reference.
Touchscreen Controls – The remote touchscreen controls
enclosure will contain the touchscreen and terminal blocks for
the wire connections. There are two cables connected to the
remote enclosure that are 100ft each. One is the 24 VDC power
supply and control cable, and the other is a communication
cable. These wires will need to be connected to the rear control
panel of the SHM unit by the customer at the time of installation.
The first wire is the low voltage controls wire that will connect
to the terminal blocks in the back of the SHM unit on +24VDC,
-24VDC, AN2, AN3, AN4, I0, and O0. Use the wire diagram on
page A6 for wire colors and terminal location for landing. The
second wire is a communication wire that needs landed in the
WAGO 222 Lever Wall Nuts. Match the colors of the wires,
brown with brown and black with black.
3.5.5 Machine Interlock Dry Contact
The customer has the option to control the SHM On/Off oper-
ation with the oil mist generating equipment or process. This
will allow the operator to control the SHM with a dry-contact
off another piece of equipment. Refer to the wiring diagrams
in the appendix for wiring of this option and to Section 4 for
Machine Interlock set up on the touchscreen.
Wiring will be terminated to the terminal blocks located in
the rear electrical panel in Figure 1B. When the machine dry
contact is closed, the SHM blower will be on and when the
contact is open, the SHM unit blower will shut down.
Note: A relay coil cannot be connected to the SHM and will
not work for this type of electrical circuit.
3.6 Filter Installation
The primary filter elements are shipped already installed in the
SHM unit. If an after-filter option is selected by the customer,
those filters will be shipped separate of the unit to be mounted
following unit installation at the customer facility. Filters may
removed from the primary filter cabinet by the customer when
delivered to lessen weight, protect them from damage, and ease
unit installation.
Proper removal and installation of each filter type is shown in
figures 5A & 5B.
3.6.1 Installation Procedure for After-Filters
3.6.1.1 Hold Down
Center the filter(s) atop the unit when viewed from the front. If the
unit is two filters deep, then the two after-filters will be butted against
each other in the center of the unit (looking at it from the side) from
front to back just as with the internal filters.
The hold-down brackets are to be placed on top the filters as
shown in Figure 5A balloon #7 and secured down with all-thread
rods, washers and nuts. Tighten nuts using hand tools and be sure
not to over compress the gasket on the bottom side of the after-
filter. Minimal torque should be applied; just enough to cinch down
each bracket so it will not slide around on top of the filter(s). On
units two filters deep, a center bracket is also supplied that runs in
the same direction, it is placed immediately over the seam where
the two filters are butted together.
Larger size unit after-filter setups will be installed in an identical
fashion. The filters will always be installed in-line, directly over the
perforated square cutouts on the top panel.
3.6.1.2 Enclosure
For units with an after-filter cabinet/enclosure, the after-filters must
be installed into this cabinet. The box-shaped after-filter slides into
the cabinet door on the cam-bars. Be sure the filter(s) is pushed all
the way to the back of the cabinet where it will bottom out on a stop.
Rotate the cam-bars upward as illustrated in figure 5B. This will seal
the filter’s top mounted gasket onto the cabinet’s upper tube sheet.
3.7 Drains
All SHM units are supplied with 1-1⁄2˝ FPT drain connections. Use
a 1-1⁄2˝ drain trap or similar to prevent air from being sucked up
through the drain when unit is running.
NOTES: Main drain line should be sufficiently sloped and vented. All
plumbing should conform with all state and local codes.
Appropriate design criteria as provided by a plumb-
ing/mechanical contractor should be utilized to
ensure proper control of drainage from the SHM
Unit.
CAUTION
9
61-10126
FIGURE 4
Remote Panel Touchscreen Connection
10
4. Unit Operation
4.1 Start-up
Before system start-up, verify that the installation is complete
per Section 3 of this manual. The following are the basic steps to
walk you through as you are starting up.
1. Open the SHM filter access doors and verify that the filters are in
place and properly sealed.
2. Close and latch all access doors and electrical enclosures on
the unit.
3. Ensure that the main power is connected and turned on.
4. Ensure that all circuit breakers are switched on.
5. Follow Section 4.3 for setting changes on the touchscreen to
target the desired airflow volume. Adjust the blower speed to the
RPM % that will provide the targeted airflow. For assistance in
determining the target RPM, contact your local representative.
When using the Auto Flow option, follow the Auto Flow Settings in
Section 4.
6. Press the blower power button on the Home screen to begin
operation. Note that if the oil mist collector is connected to a
process, other equipment will need to be engaged as well.
7. Verify performance of the system by measuring airflow or evaluat-
ing capture at each collection point. It is recommended to record
baseline performance parameters so the system can be reset in
case of an upset condition or system change. The recorded data
should include:
• the static pressure at each collection hood
• system amperage draw and filter pressure drop at a minimum
• any other key pieces of data critical to your process.
8. To optimize system performance and extend filter life, run the unit
at the minimum airflow required to control the process.
4.2 System Operation
As the SHM collects contaminate, a layer builds up on the outside
surface, causing an increased pressure drop through the filters.
As the differential pressure rises, the blower RPM will need to be
increased in order to maintain the desired airflow. When the filters
are saturated, the contaminant drips to the bottom of the unit and
collects within the oil sump where it can be drained and disposed
of. When the system can no longer generate the airflow required
to capture or convey the collected contaminate, the filters must be
replaced.
4.2.1 Airflow Adjustment Using Manual Speed Control
The SHM features an Electronically Commutated (EC blower
that is equipped with airflow adjustment using the blower RPM.
To adjust the airflow, the blower speed (RPM) percentage can
be adjusted from 20 to 100%. As filter pressure builds, it may
be necessary to increase the RPM to maintain proper cap-
ture and transport velocity within the hood and duct system.
The adjustment of the RPM is done in the Blower display screen.
4.2.2 Airflow Adjustment Using Auto-Flow Control
With the Auto-Flow feature, the SHM will automatically adjust the
RPM of the blower to maintain the airflow set-point. When the sys-
tem can no longer maintain airflow, a warning will be provided on the
touchscreen. In the event of a warning or failure on the touchscreen,
refer to the troubleshooting section of this manual to help determine
the cause and associated solution.
4.3 Touchscreen Operation
4.3.1 Start-up and Home Screen
The display will turn on automatically when the system is powered
up. The first screen will display as shown below, see Figure 5. This
screen will also act as a screen saver when the blower is not oper-
ating. After 2-3 minutes of non-use the display will change to this
screen. When you want to use the unit, just tap the screen with
your finger and it will change to the main display screen shown in
Figure 6.
Figure 5
The home display screen shown in Figure 6 will be displayed during
operation. This will act as your status screen and be your gateway
to other screens. The screens are broken up in groups:
Basic – These are your status screens for filters and blower.
Customer settings – These screens are for the customer to make
setting changes to the unit.
Optional screens – These screens are based on customer selected
options like Auto-Flow, After Filter monitoring or unique screens
required for a special application. These screens are based on cus-
tomer order and loaded at the factory.
11
61-10115
FIGURE 5B
SHM Filter Removal & Installation
FIGURE 5A
SHM Filter Removal & Installation
12
Figure 6
4.3.2 Standard Format
The icon key, Table 3, outlines the various icons that are used on
the screen for various reasons and may indicate status or condi-
tions. The Home, Settings, and Information icons are shown at the
bottom of most screens and will take you directly to their associated
screens. The Status indicator icons are also buttons that will take
you to their associated basic screens as outlined in section 4.3.3.
4.3.3 Basic Screens
Filter Screen:
Figure 7
The Filter screen can be displayed by the operator by selecting
the filter status icon on the Home screen shown in Figure 7. The
Filter screen will then be displayed with all available filters. This
screen will display the differential pressure across the filter during
operation.
Blower Screen:
Figure 8
The standard blower screen will display the status of the
blower. If your equipment is equipped with the Auto-Flow option
and it is activated, the Blower screen will look different than that
shown in Figure 8. Refer to section 4.3.4 for additional details.
The only time the blower will shut down is when the blower has
an internal fault. Such faults as: Low line voltage, phase to phase
issues, ground issues, temperature issues, or for a catastrophic
failure. If the blower shuts down, refer to Section 6 for trouble-
shooting.
On the blower screen you are able to adjust the speed of the
blower using one of two different methods. The first adjustment
can be done using the up/down arrows. This adjustment will
achieve a change of +/- 1%. This will increase or decrease the
airflow adjustment by 1% for each touch of the up or down arrows.
The second method of airflow adjustment is to touch the box that
shows the percentage of the airflow. A number pad will be shown
in a pop up screen. You can enter any number between 20 and
100. This will correspond to the percentage of blower capability.
The blower is capable of 4,200 RPM at 100%, 3150 RPM for 75%,
2100 RPM for 50%, and 1050 RPM for 20%. These number are
approximate and may display slightly differently on any given unit.
There is a minimum set point for speed which is 20% for the pur-
poses of the blower design. The SHM may have multiple blowers
incorporated within the system to support performance of the unit
depending on the customer application. All of these blowers will
respond in unison with the SHM’s controller.
ICON
DES
C
The Hom
e
you to th
e
The Set
t
take
y
custo
m
s
c
The Inf
o
will tak
custo
m
cont
a
Blo
w
Blower i
s
mode
Stat
u
Norm
a
co
Status
=
Opera
t
nor
m
Statu
Fault c
o
need
s
Decrea
A
Increa
s
A
C
RIPTION
e
icon will ta
k
e
home scree
t
ings icon will
y
ou to the
m
er sengs
c
reen.
o
rmaon icon
e you to the
m
er service
a
ct screen.
w
er is ON
s
in STANDB
Y
and is OFF
s = GOOD
a
l operang
ndion
=
WARNING
t
ing outside
m
al ranges
s = FAULT
o
ndion that
s
aenon
se Speed or
A
irflow
s
e Speed or
A
irflow
Color
k
e
n. Blue
Blue
Blue
Green
Y
Blue
Green
Yellow
Red
Blue
Blue
TABLE 3
Icon Key
13
Information Screen:
Figure 9
The information screen will provide a phone number for customer
service. There is also a web address for our website that can be
used to locate your nearest representative.
4.3.4 Auto-Flow Screen
Figure 10
When Auto-Flow is installed and activated the blower screen will
look like Figure 10. Refer to section 4.3.6 to activate the Auto-
Flow option and to make adjustments to your flow target. The
Auto-Flow blower screen will show the target flow, the actual
flow, the blower speed, and the % of total speed available. The
screen will also show blower status. If there is a warning or fault,
refer to the troubleshooting section for guidance.
4.3.5 After-Filter
Figure 11
When the screen is active you will see the differential pressure
across the filter. The system will monitor this pressure and give
warnings and faults as the differential pressure changes. The
after-filter does not get cleaned by the system and has a finite life
based on the pressure drop across the filter. When the pressure
drop increases to a point that the filter can no longer provide
proper airflow, the fault symbol will appear. You will need to
replace the filter at that time.
4.3.6 Customer Settings
The standard customer settings screen shown in Figure 12 will allow
the operator to make General Settings changes without a password.
The Locked Settings will require a password to be entered. The
default password is 4440.
Figure 12
The General Settings selection will allow the operator to change
the units and check service of the major components like the
blower. These settings are not password protected. To select one
of the items just touch the box with the item you want to make
a change too.
The Locked Settings selection will allow the operator to select
options of the system. One option is Machine Interlock. With
Machine Interlock the operator can allow another device (CNC
machine center, plasma table, or weld machine) to turn the SHM
on when the primary device is in operation. When this option is
selected (see Figure 20) the Blower Power button in Figure 6 will
put the unit in standby when touched by the operator. When this
setting is selected the indicator to the right side will change from
OFF to ON and turn green.
Figure 13
When After-Filter and/or Auto-Flow options are ordered, they will
appear on the Customer Settings screen as shown on Figure 13.
Figure 14
When the units selection is made on the Customer Settings
screen, you will see the screen as shown on Figure 14.
Figure 15
The operator can select the Service settings shown here. Each
of the selection will allow the operator to see the health of the
unit. You are also able to see any pending alarms and the alarm
history for your system using the buttons provided.
Figure 16
The service hours will allow the operator to see how long the pri-
mary filter and the after filter have been in service. These hours
are resettable by holding the specific button and holding it until
the number resets to 0. The operator can also see the total num-
ber of hours the SHM has been in service since being built at
the factory. During factory testing the units are quality checked
and may show a low amount of hours such as 1 or 2 from
this test.
Figure 17
The blower service screen will show all of the connected blow-
ers in the system. The display will show the communication of
the blower. The communication is setup at the factory and will
not need any service in the field. This is only an indication of the
unit for troubleshooting purposes. The display screen will show
the motor temperature and the blower operating RPM.
The Auto-Flow Settings screen can be selected in the Locked
Settings group on the Customer settings screen. The Auto-
Flow is an option that is selected at order time and loaded into
the SHM at the factory. The Auto-Flow Settings will allow the
unit to maintain a precise operating point based on a desired
air volume. The operator will select an air volume setting in
the airflow set point box using the up/down arrows or the
selection box. If the screen is changed, the blower will shut
off. Once the operator has found the air flow setting that gives
their unit the best performance they can touch the Auto-Flow
ON and then accept and lock the settings by touching the lock
button at the bottom of the screen.
Figure 19
The After-Filter setup screen can be selected in the Locked
Settings group on the customer settings screen. The after-filter
is an option that is selected at the order time and loaded into
the SHM at the factory. The after-filter can be monitored by the
unit using its controller to monitor the health of this filter. The
operator can select the monitoring on this screen by touching
the After-Filter ON box and then locking the settings by touch-
ing the Accept and Lock box.
Figure 20
Figure 18
14
5.1 General Maintenance Guidelines
Proper maintenance of the SHM is essential for the unit to provide
excellent oil mist collection capabilities and long-term service. By
keeping the unit well-maintained, you will also reduce operating and
parts replacement costs. A scheduled preventive maintenance
program, specifically designed for the SHM and its associated
components, is the best possible method to ensure the unit stays
in proper working order.
Refer to Section 6 for troubleshooting guide to correct any problems
that may occur with your oil mist collection unit. If the problem or
condition continues, contact Parker customer service for assistance.
5.2 Filter Service
Automatic filter replacement warnings should display on units so
equipped.
On unequipped units, when the primary filters reach the point
of not being able to maintain proper unit function they must be
replaced.
To order filters, contact your Parker sales representative. Identify
your filter part number from your sales order, your unit nameplate,
or the inside cover of this manual.
The aluminum mesh pre-filter can be washed and rinsed with a
moderately powerful spray from a power-washer or hose. This filter
can be replaced if contaminants become impossible to remove or
due to excessive wear.
Always wear proper PPE including goggles, dust
mask and work gloves when installing or replacing
filter elements. Oil accumulated on the filter ele-
ments can result in irritation of the lungs, skin, and
/ or eyes.
5.2.1 Installation procedure for PEACH
saturated depth filter elements
Inspect filters to verify there is no damage and all packing materials
have been removed. A supportive piece of foam may be inside the
filter tube and should be removed before operation. Be careful upon
removal not to pull too aggressively to dislodge the inner-most end cap.
Set the header plate (balloon #3 in Figure 5A) on the floor and place a
cartridge in the center of each hole. Lift the header plate up until the top
flange of each cartridge rests on the plate. Slide the filter assembly onto
the cam-bar and into the cabinet while the cam-bar is in the lowered
position (balloon #4 in Figure 5A) (both handles down) until the filter
bottoms out on a stop. Once the entire cassette is inserted into the
cabinet verify that each filter is sitting straight and fully seated in each
header plate hole.
Rotate the cam-bars upward as illustrated in balloon #5 to push the
filter up and seal it against the tube sheet.
!DANGER
Task Maintenance Interval
Check Sump Level, Verify Proper Drainage Weekly (increased frequency may be necessary)
Check For Accumulated Material Monthly (or when filters are replaced or bin emped)
*Add to this list and adjust the maintenance interval as necessary based on applicaon.
TABLE 4
Maintenance Schedule
Remove used filter elements from the collector and dispose of
properly, in accordance with governing restrictions. Be sure there
is no excess oil or residue build-up inside the primary filter cabinet.
Clean or rinse as necessary. Inspect all filter sealing cam bars and
filter support parts for unusual signs of wear or failure. Checking all
gaskets and seals is recommended at this time, as well as replace-
ment if necessary.
The surface of the filter element can be damaged as a result of improp-
er moving or handling. Care must be taken to prevent any damage to
the filter media.
Inspect each filter element for damage from shipping, storage or han-
dling. Do not use damaged elements, they may leak or fail prematurely.
Review installation procedures for filter elements before beginning the
installation procedures and accessing the oil mist collector. Follow the
proper lockout, tagout procedures.
5. Service
Before servicing equipment:
• Wear appropriate protective equipment when
servicing oil mist collector.
• Disconnect and lockout electrical power to the
unit and control panel.
CAUTION
15
16
Filter Type Part #SHM-11SHM-12SHM-21SHM-31SHM-22SHM-32
Aluminum Mesh Pre-filter 33-10117 122346
Coalescing Primary Filter 33-10128 48812 16 24
Fiberglass Bag Primary Filter 33-0221 122346
95% O/M Aer-filter 33-10129 122246
95% O/M for Enclosed Cabinet 33-10131 122246
HEPA Aer-filter 33-10082-0002 122246
HEPA for Enclosed Cabinet 33-10132 122246
Replacement Filter Quanes
5.3 Contaminant Removal
Drain the sump regularly. The required frequency of this action will be
dictated by the load rate and operation.
Be sure oil is not accumulating in any location that could cause
malfunction or a safety concern including, but not limited to, the
motor cabinet, filter header plate, and tube sheet panel.
Be sure to dispose of, or recycle, any waste oil properly.
Dispose of waste in accordance with applicable local, state, and
federal regulations.
5.2.2 Installation Procedure for
Pre-filter & Bag Filter
The pre-filter and primary bag filter must be slid into and out of their
respective tracks in a delicate and uniform fashion to avoid damage
to the filter or jamming inside the tracks.
Be sure the bag filter is slid into place prior to hanging the individual
bags/loops.
For units that are two filters deep, be sure to push the first filter all
way toward the back of the primary filter cabinet until it contacts the
stop. Reference balloon #1 in Figure 5A.
The hanging rod is to be inserted through each filter loop and hung
from a bracket on each side of the primary filter cabinet. Work from
the back of the cabinet toward the front.
Center the filter on each rod, and each rod on its respective bracket.
Verify all bags are hung and supported properly before securely clos-
ing and locking each door/latch. Reference balloon #2 in Figure 5A.
This manual suits for next models
13
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