USE AND CARE

BLOWER

The motor is operated by LO/MED/HI/MAX speed control switch. You may change the speed of the motor depending on the amount of grease and smoke you are creating while cooking.

ALWAYS USE THE MAX SETTING WHEN GRILLING.

FILTERS AND DRIP TRAYS

These hoods have reusable metal grease baffles and drip trays. The metal baffles channel grease released by foods on the cooktop into the drip trays. The baffles also help prevent flaming foods on the cooktop from damaging the inside of the hood. For this reason, the baffles must ALWAYS be in place when the hood is used. The grease baffles and drip trays should be cleaned once a month, or as needed.

To clean the grease baffles and drip trays, drain and wipe all excess grease with a dry paper towel. Soak them and then swish them around in hot water and detergent. Don’t use ammonia or ammonia products because they will darken the metal. Do not use abrasives or oven cleaners. Rinse, shake and let them dry before replacing. They may also be cleaned in the dishwasher.

TO REMOVE:

Grasp the baffle knobs and pull them up, forward and out.

Grasp the drip tray and carefully lift it up and out of the hood track.

To replace the drip trays:

1.Place and seat the drip tray into the hood track.

2.Slide them left or right until all trays are side-by-side in place in the track.

To replace the baffles:

1.Hold the baffle at the bottom by one of the knobs .

2.Place the other end of the baffle against the inside front of the hood.

3.Slide it up and push the bottom end back until it firmly seats into place.

To remove filters (Euro vent hood only):

1.Push handle towards the rear, then rotate the filters outwards.

2.To replace proceed in reverse order.

Fig. 02

Fig. 03

Fig. 04

7

Page 8
Image 8
DCS VS36, VS30, VS48, ES36, ES30, VS1236 manual USE and Care, Blower, Filters and Drip Trays, To Remove

VS1236, VS36, ES36, VS48, ES30 specifications

DCS (Distributed Control System) is essential in modern industrial automation, providing advanced control, monitoring, and data acquisition capabilities. In this article, we will explore several popular models within DCS, specifically the VS30, ES30, VS48, ES36, and VS36, comparing their main features, technologies, and characteristics.

The VS30 is a versatile and compact DCS model designed for small to medium-sized facilities. It offers a user-friendly interface, making it easy to navigate and control various processes. One of its main features is its modular architecture, which allows for scalability and customization according to specific operational needs. The VS30 supports a range of protocols, ensuring compatibility with existing systems. Additionally, its real-time data processing capabilities enable quick response times, enhancing operational efficiency.

Next, we have the ES30, which takes automation a step further with its enhanced security features. Designed for industries with higher regulatory requirements, the ES30 introduces advanced cybersecurity measures, including encrypted communication channels and user authentication protocols. Its intuitive graphical interface is suitable for operators seeking greater situational awareness. Furthermore, the ES30 integrates machine learning algorithms to predict potential system failures, allowing operators to perform maintenance proactively.

Moving on to the VS48, this model distinguishes itself with its high capacity and advanced redundancy mechanisms. Ideal for large-scale facilities, the VS48 supports an extensive range of I/O modules, facilitating expansive monitoring capabilities across numerous processes. Its fault-tolerant design ensures minimal downtime by automatically rerouting processes in case of component failure. Additionally, the VS48 excels in data logging and analytical capabilities, offering detailed insights for process optimization.

The ES36 represents a balanced option, merging flexibility and cost-effectiveness. Its hybrid architecture allows it to function efficiently in both centralized and decentralized control environments. ES36 is particularly effective in industries requiring quick deployment and scale-up. Its robust data analytics tools empower users to make informed decisions based on real-time insights, optimizing resource allocation and minimizing waste.

Lastly, the VS36 is engineered for high-performance applications. It features advanced control algorithms that enhance precision in process management. The VS36’s user interface is customizable, enabling operators to design dashboards according to their specific needs. Additionally, its integration capabilities with IoT devices make it a future-ready solution for industries looking to leverage smart technology.

In conclusion, each DCS model—VS30, ES30, VS48, ES36, and VS36—offers unique features and technologies tailored to various industrial requirements. Whether it's compact versatility, advanced security, scalability, cost-effectiveness, or high-performance management, these systems present robust solutions for modern industrial challenges.