S T E P

6

A.

B.

C.

D.

E.

F.

G.

H.

I.

Be careful to assemble all components in the sequence they are presented.

NOTE:

At this point you must make sure that the gym is level, stable and in the right location.

Attach Pulley Bracket Assembly (AC) to Rear Upright (C) as shown using :

Two 55 (10mm x 65mm allen head bolts)

Four 60 (10mm washer)

Two 70 (10mm nylon lock nut)

Place two Weight Stack Risers (F)* and two Rubber Donuts (29) onto Rear Leg (B) as shown. Slide two Guide Rods (G) through the Rubber Donuts (29), through the two Weight Stack Risers (F), and into the Rear Leg (B).

*NOTE:

Use Weight Stack Risers (F) for a 160lb. weight stack.

Do NOT use Weight Stack Risers (F) for a 210lb. weight stack.

Slide Weight Stack Plates (88)* onto Guide Rods (G). Make sure the opening in each Weight Stack Plate (88), for the Weight Stack Pin (30), is facing outward.

*NOTE:

Use fifteen 10lb. plates for a 160lb. weight stack. Use twenty 10lb. plates for a 210lb. weight stack.

Connect Top Plate (36) to the Selector Rod (31) using:

One 35 (10mm x 45mm allen head bolt)

One 64 (10mm spring lock washer)

Slide Top Plate (36) and Selector Rod (31) onto Guide Rods (G).

Slide two Shaft Collars (32) onto the two Guide Rods (G) as shown.

Insert Guide Rods (G) into Rear Upper Beam (E). Tighten the two Allen Screws (8) in the Shaft Collars (32) after placing them into position.

Thread Selector Rod Top Bolt (34) to Selector Rod (31) using:

One 71 (jam nut)

One 63 (spring lock washer)

You can now wrench tighten all bolts and nuts in this step.

Leave all pulley bolts hand tight until cable installation in Step 13 is completed.

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Image 18
Powerline P2X manual One 71 jam nut One 63 spring lock washer

P2X specifications

Powerline P2X, or Power-to-X, represents an innovative technological framework that converts electrical energy into various forms of energy carriers or fuels, harnessing renewable energy sources. This approach addresses urgent energy challenges by promoting sustainability, enhancing energy efficiency, and enabling the integration of variable renewable energies like wind and solar.

One of the primary features of Powerline P2X is its versatility in transforming electricity into multiple usable forms. The most notable conversions involve producing hydrogen through the process of electrolysis. By utilizing surplus renewable electricity, electrolysis splits water into hydrogen and oxygen, providing a clean fuel source that can be stored and transported. Furthermore, hydrogen can serve as a precursor for producing synthetic fuels, chemicals, and even fertilizers, thereby expanding its applicability across industries.

In addition to hydrogen production, Powerline P2X can facilitate the creation of synthetic natural gas (SNG) through methanation processes, where hydrogen reacts with carbon dioxide (CO2) to produce methane. This enables a circular economy where CO2 emitted from industrial processes can be reused, significantly reducing greenhouse gas emissions. Furthermore, the production of liquid hydrocarbons via the Fischer-Tropsch synthesis provides a means for creating high-energy-density fuels that are compatible with existing infrastructure, such as internal combustion engines.

The integration of Powerline P2X systems requires robust technology infrastructure. Key technologies include advanced electrolysis systems, CO2 capture and conversion units, and energy storage solutions. These components work together to optimize efficiency and ensure a reliable supply of energy. Moreover, smart grid technology plays a crucial role in coordinating power generation and consumption, facilitating real-time management of renewable energy feeds, and ensuring stability within the grid.

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In summary, Powerline P2X stands out as a transformative solution within the energy landscape, leveraging advanced technologies to create a sustainable energy ecosystem. By bridging the gap between renewable energy generation and various energy applications, it paves the way for a cleaner, more efficient, and greener future. This innovative framework illustrates the synergies possible between energy production, consumption, and environmental responsibility, marking a significant step towards achieving global climate goals.