W1808/W1809/W1810 Cyclone Dust Collectors

Determining Main Line Duct Size

The general rule of thumb for a main line duct is that the velocity of the airflow must not fall below 3500 FPM.

For small/medium sized shops, using the inlet size of the dust collector as the main line duct size will usually keep the air velocity above 3500 FPM and, depending on your system, will allow you to keep multiple branches open at one time.

The inlet size is 7" for the W1808 and 8" for the W1809. For the Model W1810, the intake is 8" with the reducer installed. Mark your drawing as shown in Figure 49.

Determining Branch Line Duct Size

��� ��� ���

��

�� ��

���

���

���

 

Figure 49. Main line size labeled on

sketch.

The general rule of thumb for a branch line duct is that the velocity of the airflow must not fall below 4000 FPM.

For small/medium sized shops, using the dust port size from the machine as the branch line duct size will achieve the correct velocity in most applications. However, if the dust port on the machine is smaller than 4", make the branch line 4" and reduce the line right before the dust port.

Note: Systems with powerful dust collectors work better if multiple blast gates are left open. This also allows you to run two machines at once. Experiment with different combinations of blast gates open/closed to find the best results for your system.

Write your determined branch line sizes on your drawing, as shown in Figure 50.

Multiple Dust Ports

If your machine has multiple dust ports, add the total CFM given for each dust port size from Figure 47. Refer to Figure 51 and find the CFM that is closest to your total to determine the correct branch size. Split the branch line just before the dust ports with matching duct sizes.

Two Machines on Same Branch Line

If both machines will be running at the same time, add the total CFM given for each dust port size from Figure 47.

If both the machines will never be run at the same time, reference the machine with biggest dust port to Figure 51 and add blast gates after the Y-branch to open/close the line to each machine.

��� ��� ���

��

��

��

��

 

 

 

 

��

��

��

 

��

��

��

��� ��� ���

Figure 50. Branch line sizes labeled on

sketch.

Total CFM

Branch Line Size

600

5"

700

5"

800

6"

1000

6"

1200

7"

1400

8"

1600

8"

Figure 51. Branch line sizing chart by

total CFM (for use when multiple machines

share line).

OPERATIONS

-33-

Page 35
Image 35
Woodstock W1808, W1810, W1809 owner manual Determining Main Line Duct Size, Total CFM Branch Line Size

W1810, W1809, W1808 specifications

Woodstock has made significant strides in the heavy equipment and construction machinery sectors, and the W1808, W1809, and W1810 models exemplify this progress. These models are designed to provide efficient performance and reliability, essential for contractors and operators in demanding work environments.

The Woodstock W1808 is known for its compact design and impressive power-to-weight ratio. It features a robust engine that delivers exceptional torque and horsepower, making it perfect for a variety of applications including earth moving, lifting, and material handling. The W1808 is equipped with advanced hydraulic systems that ensure smooth operation and high efficiency. This model boasts a smart control interface that aids in precision work, allowing operators to execute tasks with ease. Additionally, its user-friendly design minimizes the learning curve for new operators, which enhances productivity on job sites.

The Woodstock W1809 is a step forward in technology integration. It brings enhanced ergonomic features that prioritize operator comfort during extended usage. The cabin design includes adjustable seating, climate control, and excellent visibility, resulting in an improved working environment. The W1809 is fitted with state-of-the-art telematics systems that provide real-time data on performance metrics, fuel consumption, and maintenance alerts. This feature not only helps in reducing downtime but also contributes to cost savings through optimized operations. Coupled with strong safety measures, including rollover protection and improved lighting systems, the W1809 stands out as a reliable choice for tough construction tasks.

Finally, the Woodstock W1810 is the pinnacle of the series with its innovative technological advancements and enhanced capabilities. This model features a powerful hybrid engine which significantly reduces emissions without compromising on performance. The W1810 is designed for heavy-duty work, equipped with advanced traction control and stability systems that make it perform well in varying terrains. Furthermore, its modular attachment system allows for the use of various implements, expanding its functionality and versatility on the job site.

In summary, the Woodstock W1808, W1809, and W1810 represent a blend of power, efficiency, and adaptability. These models cater to the evolving needs of construction and heavy equipment industries, demonstrating Woodstock's commitment to innovation while ensuring maximum productivity for operators. Each model is designed with distinct features that address specific operational challenges, allowing users to select the machine that best meets their requirements.