A.) Slide 9 Weight Plates (#37) onto the Guide Rods (#7). Align the holes on the Weight Plates. Insert a Selector Rod (#21) through the center hole. Slide the Selector Stem (#36) onto the Guide Rods.

B.) Attach the holes on the Upper Frame (#6) onto the Guide Rods. Place the Upper Frame onto the Vertical Frame (#2). Secure the Upper Frame (#6) to the Guide Rods (#7) with two M10 x 1” Allen Bolts (#72) and Ø ¾” Washers (#77).

C.) Secure the Upper Frame to the Vertical Frame with two M10 x 2 ¾” Carriage Bolts (#62), one 4 ¾” x 2” Bracket (#22), two ¾” Washers (#77), and two M10 Aircraft Nuts (#81).

D.) Insert the Foot Plate Axle (#84) through the pivot on the Foot Plate (#83). Attach the Foot Plate to the Front Stabilizer (#30). Secure the Axle to Front Stabilizer with two M10 x 1” Allen Bolts (#72) and Ø ¾” Washers (#77).

8

STEP 3 (See Diagram 3)

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Impex PHE1000 manual See Diagram

PHE1000 specifications

The Impex PHE1000 is a versatile and powerful piece of equipment designed for a range of industrial applications. Known for its robustness and efficiency, the PHE1000 stands out as a leading choice in process heat exchangers. This unit integrates advanced technology and engineering excellence to deliver superior performance while maintaining energy efficiency.

One of the key features of the Impex PHE1000 is its compact design. This system maximizes heat transfer in a smaller footprint, making it ideal for facilities where space is at a premium. With its modular construction, users can easily scale the system according to their specific needs without compromising on performance.

The PHE1000 employs a plate heat exchanger design, which enhances its heat transfer capabilities. The plates create a large surface area for heat exchange, promoting efficient thermal transfer between fluids. This design not only improves efficiency but also reduces energy consumption, translating to lower operational costs.

Durability is another hallmark of the Impex PHE1000. Constructed from high-quality materials, such as stainless steel, it can withstand high pressures and temperatures, ensuring longevity even in the most demanding environments. The heat exchanger’s robust design minimizes maintenance needs, allowing for more uptime in production processes.

In terms of technologies, the PHE1000 incorporates a state-of-the-art flow configuration, allowing for optimal fluid dynamics. This ensures uniform flow distribution across the heat exchanger’s plates, which enhances heat transfer efficiency and reduces the risk of hot spots that can lead to damage or inefficiencies.

Safety features are also paramount with the Impex PHE1000. The unit is equipped with pressure relief valves and is designed to operate safely under a wide range of operating conditions. Its construction meets international standards, ensuring compliance with safety regulations.

In summary, the Impex PHE1000 is engineered for performance, efficiency, and safety. Its advanced plate heat exchanger technology, compact design, and durable construction make it suitable for various industries, including chemical processing, food and beverage, and HVAC applications. The PHE1000 not only meets the current industrial needs but also anticipates future demands, making it a reliable investment for any organization seeking to enhance their process efficiency and reliability.