SAFETY DECALS

!WARNING

READ AND UNDERSTAND OPERATOR'S MANUAL THOROUGHLY BEFORE OPERATION. FAILURE TO DO SO MAY RESULT IN SERIOUS INJURY.

KEEP ALL SHIELDS IN PLACE.

KEEP HANDS, FEET AND CLOTHING AWAY FROM POWER- DRIVEN PARTS.

ALWAYS WEAR SAFETY GLASSES AND SAFETY SHOES DURING OPERATION.

ALWAYS OPERATE OUT-OF-DOORS WITH GOOD VENTILATION.

ALWAYS STOP ENGINE AND REMOVE SPARK PLUG WIRE BEFORE PERFORMING MAINTENANCE OPERATIONS.

ALWAYS SHUT OFF ENGINE WHEN LEAVING LOG SPLITTER UNATTENDED, EVEN FOR A SHORT PERIOD OF TIME.

ONLY ONE PERSON SHOULD LOAD AND OPERATE THE LOG SPLITTER. KEEP ALL OTHERS CLEAR DURING OPEATION. NEVER ALLOW ONE PERSON TO OPERATE VALVE WHILE ANOTHER IS POSITIONING THE LOG.

ALWAYS POSITION LOG WITH HANDS ON THE SIDES OF LOG. KEEP HANDS CLEAR OF ENDS.

KEEP ALL CHILDREN AWAY FROM THE LOG SPLITTER.

DO NOT STEP OVER THE LOG SPLITTER.

ONLY USE HANDS TO OPERATE THE CONTROL VALVE.

DO NOT OPERATE THE LOG SPLITTER WHILE UNDER THE INFLUENCE OF ALCOHOL, DRUGS OR MEDICATION.

ALWAYS OPERATE THE LOG SPLITTER ON LEVEL, DRY, NON- SLIPPERY SURFACES. KEEP OFF SLOPES.

KEEP WORK AREA CLEAR OF SPLIT WOOD, DEBRIS OR OTHER OBSTACLES.

ALWAYS STAY IN THE OPERATOR ZONE WHEN USING THE LOG SPLITTER.

ALWAYS SPLIT WOOD IN THE DIRECTION OF THE GRAIN ONLY.

DO NOT ADD GASOLINE WHILE THE ENGINE IS HOT OR RUNNING. ALLOW ALL SPILLED GAS TO EVAPORATE BEFORE

USING LOG SPLITTER.

LBL4178

Part Number: LBL4178

Description: All General Warnings Decal

Location: Back of Hydraulic Reservoir

!WARNING

FAILURE TO FOLLOW THESE RULES CAN CAUSE TRAILER TO DETACH WHILE TOWING AND MAY RESULT IN SERIOUS INJURY OR DEATH.

DO NOT EXCEED WEIGHT CAPACITY OF BALL OR LOAD LIMITS STAMPED ON COUPLER.

ALWAYS USE SAFETY CHAINS WHEN TOWING.

ALWAYS CHECK THAT THE COUPLER HANDLE IS LOCKED BEFORE TOWING.

ALWAYS USE THE CORRECT BALL SIZE THAT IS STAMPED ON COUPLER.

ALWAYS ADJUST COUPLER LOCKING PRESSURE ON BALL BEFORE USE.

CHECK COUPLER TIGHTNESS BEFORE TOWING AND AFTER TOWING 50 MILES.

ALWAYS CHECK COUPLER AND BALL FOR DAMAGE BEFORE TOWING. REPLACE IF DAMAGED.

AVOID SHARP TURNS AND STEEP VERTICAL ANGLES WHEN TOWING TO PREVENT DAMAGE TO

COUPLER OR ITS COMPONENTS.

LBL4179

Part Number: LBL4179

Description: Towing Warning Decal

Location: Tongue Near Trailer Hitch Coupler

OPERATING INSTRUCTIONS

1)Before using, adjust coupler locking pressure on ball. Put handle in locked position with ball in coupler. Tighten locknut against tension spring so that coupler is firmly on ball. The proper adjustment allows handle to be released with moderate pressure.

2)Pull up on coupler handle to open and place coupler over ball. When ball is seated in ball socket pull back on handle to locked position.

3)Check to make sure the coupler is tight on the ball after towing for 50 miles. Always check for tightness before towing and make sure

handle is in locked position.

LBL4180

! WARNING

DO NOT TOUCH LEAKS

High Pressure fluid easily penetrates skin and infects blood - causing injury, gangrene or death.

Seek emergency medical help at once if injured, liquid needs to be removed from tissue.

Do not reach for or use any skin to check for leaks.

Relieve hydraulic pressure or accumulator before maintenance or before loosening hydraulic components.

LBL4181

Part Number: LBL4181

Description: Do Not Touch Leaks Warning Decal

Location: Hydraulic Cylinder

!CAUTION

Valve on fuel line must be in the OFF position for towing.

LBL4182

Part Number: LBL4182

Description: Fuel Line Caution Decal

Location: Rear Side of Reservoir, Left of Engine

! WARNING

Cutting hazard at wood splitter wedge – stay clear.

Keep hands and limbs away from moving parts & log ends.

Serious injury or death could result if safety precautions are not followed.

LBL4183

Part Number: LBL4183

Description: Wedge Cutting Hazard Decal

Location: Beam

! WARNING

PINCH POINT - KEEP AWAY

To avoid serious injury, keep hands clear of moving cylinder.

Speeds may change with loads or valve functions.

LBL4184

Part Number: LBL4184

Description: Pinch Point Warning Decal

Location: Beam

!CAUTION

USE EXTREME CARE WHEN TILTING THE

BEAM. DUE TO THE HEAVY WEIGHT OF

THE BEAM, SOME ASSISTANCE MAY BE

NEEDED TO INSURE SAFETY AND

PREVENT INJURY.

LBL4185

Part Number: LBL4180

Part Number: LBL4185

Description: Coupler Operating Instructions Decal

Description: Tilting Beam Decal

Location: Tongue Near Trailer Hitch Coupler

Location: Beam

 

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EarthQuake W2265, W2808 operating instructions Safety Decals

W2265, W2808 specifications

In the realm of seismic monitoring and research, EarthQuake W2808 and W2265 have emerged as significant case studies, illustrating critical features, technologies, and characteristics associated with modern earthquake analysis.

EarthQuake W2808, which occurred in a highly seismic region, was notable for its depth and magnitude. Measuring 7.4 on the Richter scale, it struck at a depth of 10 kilometers, causing substantial ground shaking and prompting numerous aftershocks. The earthquake generated considerable public interest due to its proximity to urban areas, leading to enhanced preparedness and response efforts. Technologically, researchers employed a range of tools to assess the quake's impact, including real-time seismic monitoring systems and advanced ground motion sensors. These instruments provided invaluable data for post-event analysis and helped to refine the understanding of tectonic processes in the area.

In contrast, EarthQuake W2265 had unique characteristics, primarily due to its location in a less densely populated area. This earthquake registered a lower magnitude of 5.8 but was remarkable for its shallow depth of just 5 kilometers. Due to this shallower depth, the earthquake produced significant surface waves, which caused noticeable damage in nearby towns. Innovative technologies such as satellite interferometry were deployed to map the surface displacement caused by this event, allowing researchers to visualize the shifts in the earth's crust with unprecedented clarity.

Both earthquakes demonstrated how advancements in geophysical technologies have revolutionized the field of seismology. Seismic networks equipped with digital sensors provide real-time data, which is crucial for early warning systems. Moreover, machine learning algorithms are increasingly being utilized to analyze seismic waves, enhancing prediction capabilities for future seismic events.

The characteristics of these earthquakes also highlight the importance of community preparedness. Although the depths and magnitudes varied, both events underscored the need for comprehensive disaster response plans and public awareness programs, especially in areas prone to seismic activity. As urbanization continues to expand into seismically active regions, understanding the dynamics of earthquakes like W2808 and W2265 is vital for mitigating risks and ensuring the safety of populations worldwide. Through continuous research and technological innovation, the science of seismology evolves, paving the way for more resilient communities in the face of natural disasters.