Mounting the Control Box

Step 1

Mount the control box using the screws (provided) or another secure mounting method. The control box must be mounted at least 3 feet above the ground to protect it from rain splash, snow, etc., and at least 3 feet from an AC power source to prevent electrical interference.

NOTE: The battery that came with your GTO/PRO, MUST be placed in the top (horizontal) battery slot with the terminals on the RIGHT. The extra (vertical) battery slot is for an optional second battery. An optional second battery can be used for solar and/or high traffic applications, if needed..

Use mounting holes and screws provided to mount control box to a secure surface.

Step 2

Make sure the control box power switch is in the OFF position. The ON/OFF Switch is located on the bottom of the control box. Remove the control box cover and slide the battery into position with its terminals to the RIGHT (see illustration). Connect the BLACK battery wire to the NEGATIVE () battery terminal. Connect the RED battery wire to the POSITIVE (+) terminal. Pay close attention to the color of the wires. If the wires are connected incorrectly, the control board will be damaged. NEVER insert the battery with the terminals to the left.

Step 3

Strip approximately 3/16" of insulation from each wire of the power cable. Twist each exposed wire tightly (there are seven [7] wires inside the power cable sheath). Loosen sealing nut on strain relief hub at bottom of control box. Insert power cable into control box through strain relief. Thread approximately 6"

of the power cable into the control box and retighten sealing nut until the power cable locks into place.

Relief

Lock Nut

 

Strain

Hub

Sealing Nut

 

BLACK

RED

BLACK wire to NEGATIVE () terminal

RED wire to POSITIVE (+) terminal

12 Volt Battery (included)

Battery wires for optional second battery.

Space for optional second 12 Volt battery

(see Accessory Catalog)

Strain Relief

Operator Power Cable

19

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GTO 2502, 2550 installation manual Mounting the Control Box

2502, 2550 specifications

The GTO 2502 and GTO 2550 are advanced machine models recognized for their high efficiency and performance in various industrial applications. Designed with modern manufacturing needs in mind, these machines exemplify technological innovation and superior engineering.

The GTO 2502 model is designed for remarkable precision and reliability. It operates with an emphasis on energy efficiency, minimizing power consumption without sacrificing performance. The machine is equipped with a cutting-edge control system that simplifies operation and enhances the user experience. This control system includes a user-friendly interface, allowing operators to monitor performance metrics easily and optimize settings in real time.

On the other hand, the GTO 2550 takes efficiency and productivity a step further. This model boasts an extended operational range and supports a wider variety of materials, making it a versatile choice for manufacturers in different sectors. The GTO 2550 is engineered with upgraded components to enhance speed and durability, ensuring that it can handle demanding workloads day in and day out.

Both models incorporate advanced technologies such as real-time monitoring and diagnostics, enabling users to predict maintenance needs and reduce downtime. Their robust construction ensures longevity, making them a worthwhile investment for businesses looking to improve their operational efficiency.

Another key feature of the GTO 2502 and GTO 2550 is their modular design, which allows for easy upgrades and scalability. This means businesses can adapt to changing production demands without the need for entirely new machines. Furthermore, both models are equipped with eco-friendly technologies, helping companies reduce their carbon footprint while maintaining high production levels.

In summary, the GTO 2502 and GTO 2550 are designed to meet the high standards of modern manufacturing with their advanced features and technologies. They offer a combination of precision, efficiency, and adaptability that is essential in today’s competitive market. As industries continue to evolve, these models stand out as prime examples of innovation in machinery design, making them invaluable assets for any manufacturing operation.