Pressure Systems, Inc.

NetScanner™ System (9016, 9021, & 9022) User’s Manual

5.1.2 Module Disassembly

The following procedure should be used to disassemble any model prior to any maintenance:

(1)Place the scanner with its external connectors facing up. With one hand holding the module housing, remove all screws securing the top plate to the module housing. These are located around the outer edge of the top panel of the module housing. For 9021 scanners these will be six (6) 4-40 Allen-head screws which require a 3/32" Allen driver (for 9022 scanners, there are twelve (12) Phillips-head screws). The 9016 uses twelve (12) Phillips head screws around the top plate outside perimeter.

(2)When all screws have been removed, gently lift the top panel and attached electronics up and out of the housing. All components of the pressure scanner are attached to the top plate and will lift out of the module housing when the top plate is removed. See Figure 5.2 and 5.2a. Carefully remove the Viton gasket with the module top plate. In some cases, it may be easier to hold the top plate and turn the module over, lifting the housing off the top panel.

Figure 5.2

Figure 5.2a

9016 Scanner Out of Housing

9022 Scanner Out of Housing

5.1.3Electronic Circuit Board Replacement

Different models of the NetScannerSystem Intelligent Pressure Scanner use different combinations of the six (6) basic circuit boards described below. To the right of each section title are the modules that contain the particular circuit board assembly. Also refer to the cross reference in Table 5.1 for a summary of applicable components in each Intelligent Pressure Scanner.

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Pressure Systems 9022 user manual Module Disassembly, Electronic Circuit Board Replacement, Scanner Out of Housing
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9022 specifications

Pressure Systems 9022 is a state-of-the-art pressure management system designed for various industrial applications, offering unparalleled efficiency and reliability. This innovative system has become a benchmark in pressure technology, providing users with advanced control and monitoring features.

One of the main features of Pressure Systems 9022 is its ability to deliver precise pressure regulation. Utilizing advanced algorithms, the system continuously monitors pressure levels and adjusts them in real-time, ensuring optimal performance and safety. This feature is particularly beneficial in industries such as oil and gas, pharmaceuticals, and food processing, where maintaining specific pressure levels is crucial for product integrity and process efficiency.

The 9022 is also equipped with cutting-edge connectivity options. With built-in IoT capabilities, the system can be easily integrated into existing networks, allowing for remote monitoring and control. Users can access pressure data in real-time through a user-friendly interface, which enhances decision-making and reduces response times in case of irregular conditions.

Another standout characteristic is its robust construction. Designed to endure harsh environmental conditions, the Pressure Systems 9022 is built from high-grade materials that provide excellent resistance to wear and corrosion. This attribute ensures longevity and minimizes maintenance costs, making it an economical choice for businesses.

Moreover, the system incorporates various safety features. Automatic shut-off valves and alarms are integrated into the design to prevent overpressure situations, protecting both equipment and personnel. These built-in safeguards align with industry standards and promote a culture of safety within organizations.

The Pressure Systems 9022 also emphasizes energy efficiency. By optimizing the pressure regulation process, it reduces energy consumption, contributing to lower operational costs and a smaller environmental footprint. This focus on sustainability resonates with modern businesses looking to enhance their eco-friendly practices.

In conclusion, Pressure Systems 9022 stands out as a versatile, efficient, and reliable solution for pressure management. Its advanced features, durability, and commitment to safety make it a valuable asset for any industrial operation. By adopting this technology, organizations can enhance performance while ensuring compliance with safety regulations, ultimately leading to a more productive and sustainable operation.
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