Hill Phoenix OSAA manual TOP Sill Joint Curved Front Panel Panel Joint

Page 13

Close joints of9front panel. The panel is slotted on the bottom to allow left or right adjustment as required.

TOP SILL

JOINT

TOP SILL

CURVED FRONT

PANEL

CURVED FRONT

PANEL JOINT

Install curved10front panel joint (if cases come equipped with curved front pan- els). Curved panel joints are shipped loose in the case and are attached with the screws provided. Wide joints (1”) are for case-to-case joining and narrow joints (1/2”) are for cases with ends.

Attach 11lower front panel (for cases on 11” baseframes). Slots and tabs are designed for easy installation without fasteners. The lower front panel is slot- ted to allow adjustment left or right as required.

GLASS PRESSURE BAR

REAR SILL

REAR SILL

JOINT

MULLION

Install top12sill joint. The top sill joints are shipped loose in the case. The front lip of the joint fits into the crevice between the top sill and the glass pressure bar. The rear lip is attached to the back of the case with the screws provided.

Insert kickplate into “J” rail. Slide the kickplate15up and behind the lower front panel bracket then down on the “J” rail.

Install rear13sill joint. The rear sill joints are shipped loose in the case. The bot- tom portion of the joint should be slid on the rear sill first then the top lip fits between the rear sill and the mullion. Secure the joint underneath the rear sill with the screws provided.

Insert nose16bumper into master bumper channel. Roll nose bumper into channel along entire lineup (up to 96’). We rec- ommend that the nose bumper be left in the store 24 hours before installing. DO NOT STRETCH the bumper during installation as it will shrink to its original length and leave a gap.

9

Install the14“J” rail onto the case base rail. For cases with an 11” baseframe, the “J” rail easily slides over the base rail and requires no fasteners. Space “J” rails evenly along the base rail (2 “J” rails per 6’, 8’, and 12’ case). For cases with the 7” baseframe there is a single “J” rail that is screwed into place.

NOTE: An easy technique for one person is to press against nose bumper with leg as you guide bumper into channel with a screen spline. Insert bottom first.

Image 13
Contents Deli Page Hill Phoenix Page Table of Contents General Information Model OSAA-6’ Basehorse Locations for Model Osaa Casters Consult With General Contractor Line UPPosition Next Case In Line Up Seal joints along6pipe chase seam with the caulk provided Trim OUTTOP Sill Joint Curved Front Panel Panel Joint Refrigeration Components Component Definitions Plumbing Electrical Hookup Control SETTINGS- Model Error Code System Status Wiring DIAGRAMS- Model Electrical Data Case OperationDefrost and Temp Control AIR Flowand Product Loading USE and Maintenance Fans Model Osaa Parts OrderingLocation Part Descriptions Number Procedure Page Page Warranty Maintenance & Case Care

OSAA specifications

Hill Phoenix OSAA, or the Open Systems Architecture for Automation, represents a significant advancement in the field of commercial refrigeration and foodservice equipment. This innovative platform from Hill Phoenix is engineered to meet the evolving needs of retailers and foodservice operators, focusing on efficiency, sustainability, and operational flexibility.

One of the main features of the Hill Phoenix OSAA is its modular design. This allows for easy customization and scalability, enabling operators to tailor their refrigeration systems according to specific needs. The modularity also facilitates future upgrades, ensuring that the system remains relevant as technology advances and business requirements change.

The OSAA platform integrates cutting-edge technologies such as IoT (Internet of Things) connectivity and advanced sensors. This integration allows for real-time monitoring and control of refrigeration units, enabling operators to track performance metrics, energy consumption, and maintenance needs remotely. With the ability to receive alerts and notifications, operators can promptly address issues before they escalate, reducing downtime and enhancing energy efficiency.

Another core characteristic of Hill Phoenix OSAA is its focus on sustainability. The platform supports eco-friendly refrigerants and emphasizes energy-efficient operation, which helps organizations reduce their carbon footprint. Additionally, Hill Phoenix provides tools and resources that assist operators in achieving their sustainability goals, such as compliance with environmental regulations and reducing waste.

Customization extends beyond the physical system to include software solutions. The OSAA platform features intuitive software designed for easy navigation and control. Operators can set parameters, analyze data, and generate reports to gain insights into their operations. This data-driven approach empowers users to make informed decisions that can lead to cost savings and enhanced performance.

Furthermore, Hill Phoenix OSAA is designed with user-friendliness in mind. Its straightforward interface ensures that staff can quickly learn to operate it, minimizing training time and maximizing productivity. The design pays close attention to ergonomics, ensuring that equipment is accessible and easy to use.

In summary, Hill Phoenix OSAA is a groundbreaking platform that revolutionizes the refrigeration landscape with its modular design, IoT integration, sustainability focus, customizable software solutions, and user-friendly interface. These features together create a system that not only meets current demands but is also adaptable for the future, making it a preferred choice for those in the retail and foodservice sectors.