Drain
Valve

Drain Valve: The drain valve is located at the base of the air tank and is used to drain condensation at the end of each use.

Cooling System (not shown): This compressor

contains an advanced design cooling system. At the heart of this cooling system is an engineered

fan. It is perfectly normal for this fan to blow air

through the vent holes in large amounts. You know that the cooling system is working when air is being expelled.

Air Compressor Pump (not shown): Compresses air into the air tank. Working air is not available until the compressor has raised the air tank pressure above that required at the air outlet.

Check Valve: When the air compressor is operating, the check valve is “open”, allowing compressed air to enter the air tank. When the air compressor reaches “cut-out” pressure, the check valve “closes”, allowing air pressure to remain inside the air tank.

Check Valve

How to Use Your Unit

How to Stop:

1.Set the On/Auto/Off lever to “OFF”.

Before Starting

Break-in Procedure

Serious damage may result if the following break-in instructions are not closely followed.

This procedure is required before the air compressor is put into service and when the check valve or a complete compressor pump has been replaced.

1.Make sure the On/Auto/Off lever is in the "OFF" position.

NOTE: Pull coupler back until it clicks to prevent air from escaping through the quick connect.

2.Plug the power cord into the correct branch circuit receptacle. (Refer to Voltage and Circuit Protection paragraph in the Installation section of this manual.)

3.Open the drain valve fully (counter-clockwise) to permit air to escape and prevent air pressure build up in the air tank during the break-in period.

4.Move the On/Auto/Off lever to "ON/AUTO" position. The compressor will start.

5.Run the compressor for 15 minutes. Make sure the drain valve is open and there is minimal air pressure build-up in tank.

6.After 15 minutes, close the drain valve (clockwise). The air receiver will fill to “cut-out” pressure and the motor will stop.

The compressor is now ready for use.

D28752

12- ENG

Page 12
Image 12
Husky D28752 manual How to Stop, Before Starting, Cooling System not shown This compressor, Check Valve

D28752 specifications

Husky D28752 is a cutting-edge machine, renowned for its advanced design and robust functionality in the field of industrial automation. This model exemplifies Husky's commitment to innovation, catering to diverse industries such as packaging, automotive, and consumer goods.

A standout feature of the Husky D28752 is its exceptional speed. It is engineered to optimize production lines, achieving high output rates without compromising on quality. This efficiency is largely attributed to its state-of-the-art injection molding technology, which allows for precise control over the molding process, resulting in reduced cycle times.

The D28752 incorporates advanced automation technologies, enhancing its operational capabilities. With integrated robotics, the machine can perform complex tasks with minimal human intervention. This not only increases productivity but also reduces labor costs and the potential for errors. The automation is complemented by an intuitive user interface, designed for operators to easily monitor and adjust settings in real-time.

Reliability is another hallmark of the D28752. Built with durable materials, the machine is designed to withstand the rigors of continuous operation. Its robust construction minimizes the likelihood of breakdowns, ensuring that production schedules remain on track. Additionally, the D28752 features predictive maintenance capabilities, utilizing data analytics to anticipate potential issues before they arise.

The machine is also highly versatile, accommodating various molds and materials. This flexibility makes it an ideal choice for companies looking to diversify their product offerings without investing in multiple machines. The D28752 supports a range of thermoplastics and is compatible with both standard and custom molds, allowing for significant customization in production.

Energy efficiency is a core principle in the design of the Husky D28752. Its engineering minimizes energy consumption, leading to both cost savings and a reduced environmental footprint. By incorporating energy-saving technologies, the machine meets the increasing demand for sustainable manufacturing practices.

In summary, Husky D28752 stands out as a machine that combines speed, reliability, and versatility with cutting-edge technology. Designed with the future of manufacturing in mind, it addresses the key challenges faced by modern industries, making it a valuable asset for companies striving for excellence in production.