STEP 3: Attach the tongue assembly (5) to the tank assembly (1) using two 1/2” NC x 4-1/2” hex cap bolts (2), two 1/2” lock washers (3) and two and two 1/2” hex nuts (4). Tighten.

5

ITEM NO.

DESCRIPTION

 

QTY.

 

 

1

Tank Assembly

1

2

1/2” NC x 4-1/2 Hex Bolt

2

3

1/2” Lock Washer

2

4

1/2” NC Hex Nut

2

5

Tongue Assembly

1

STEP 4: Stand the beam (1) up on end. Two people may be needed for this step to ensure safety. Make sure that the beam is stable and on a level surface.Remove the pivot pin (3) and clip pin (2) from the tank assembly.Roll the tongue/ tank assembly into position between the two tabs on the beam (1). Slide the pivot pin (3) through the aligned holes and lock in place with the clip pin (2).

 

ITEM NO. .

DESCRIPTION

QTY.

 

 

1

Beam

 

1

 

2

1/2”-3/4” R Clip Pin

 

1

 

3

Tank/Tongue Assembly

1

Page 8

4

Pivot Pin

 

1

 

 

 

 

Page 10
Image 10
Oregon S402022H0/S402022K0 owner manual Beam 3/4 R Clip Pin Tank/Tongue Assembly Pivot Pin

S402022H0/S402022K0 specifications

Oregon S402022H0 and S402022K0 are two advanced weather stations designed for both hobbyist meteorologists and professionals alike. These models are part of Oregon Scientific’s commitment to providing high-quality, reliable weather monitoring solutions that cater to a wide range of users.

One of the main features of the S402022H0 and S402022K0 is their ability to deliver accurate real-time weather data. Equipped with high-precision sensors, these devices can measure temperature, humidity, atmospheric pressure, wind speed, and rainfall. This comprehensive data collection allows users to gain insights into local weather patterns, essential for planning outdoor activities or managing agricultural practices.

Both models stand out due to their user-friendly interfaces, featuring clear LCD screens that display the weather data in an easily readable format. Additionally, these weather stations often come with wireless capabilities, allowing the sensors to communicate with the main unit without cumbersome wiring. This feature enhances the installation flexibility, as sensors can be placed in optimal locations without concern for running wires back to the display unit.

Another significant technological advancement in the Oregon S402022H0 and S402022K0 is support for connectivity with mobile devices. Users can often sync the data from these weather stations to smartphones or tablets via dedicated apps. This connectivity ensures that users can monitor weather conditions remotely, offering convenience and flexibility, especially for those on the go.

Moreover, these models typically offer robust data logging capabilities. Users can track historical weather data over time, enabling them to analyze trends and make informed decisions based on past weather patterns. This feature is particularly beneficial for researchers and professionals in agriculture, construction, and environmental sciences.

The S402022H0 and S402022K0 weather stations are also designed with durability in mind. Constructed to withstand various environmental conditions, these devices can function reliably in various climates, making them suitable for both indoor and outdoor use.

In summary, the Oregon S402022H0 and S402022K0 weather stations impress with their comprehensive feature set, technological advancements, and reliable performance. They are invaluable tools for anyone looking to enhance their understanding of their local weather conditions while enjoying the convenience of modern technology.