MAINTENANCE-VACUUM

TO REPAIR OR REPLACE VACUUM MOTOR(S)

1.Remove the front cover, drain the recovery tank and disconnect the vacuum hose assembly from the “Y” tube.

2.Raise the recovery tank and safely engage the prop rod latch.

3.Disconnect electrical connector from the vacuum motor(s) and connecting hoses.

4.Unbolt the bracket and vacuum motor assembly and remove from tank.

5.Remove the vacuum motor from the bracket.

6.Reverse steps to install. Make sure the gaskets fit and seal properly as you reassemble.

Vacuum Motor Carbon Brushes

End Cap

Carbon

Brushes

If armature commutator is grooved, extremely pitted or not concentric, the motor will need to be replaced or sent to a qualified service center.

Important:

These brushes wear quicker as the length shortens due to increased heat. Spring inside brush housing will damage motor if brushes are allowed to wear away completely.

38 [9.5mm]

Periodically check the length of the carbon brushes. Replace both carbon brushes when either is less than 3/8" (9.5mm) long.

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86292490 VOYAGER DUO 08/20/07

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Windsor 10086130, 10086150 manual Vacuum Motor Carbon Brushes, To Repair or Replace Vacuum Motors
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10086150, 10086130 specifications

Windsor 10086150 and 10086130 represent two advanced models of high-performance machinery, specifically designed for a diverse range of industrial applications. These models are renowned for their exceptional engineering, offering a combination of efficiency, reliability, and precision that can elevate productivity across various sectors.

One of the main features of Windsor 10086150 is its robust construction. Built with high-grade materials, it can withstand demanding operational environments, making it an ideal choice for manufacturing, construction, and logistics. This durability ensures longevity, reducing downtime and maintenance costs.

Conversely, the Windsor 10086130 focuses on energy efficiency. Its innovative design incorporates lightweight components that contribute to lower energy consumption during operation. This not only minimizes operational costs but also aligns with global efforts toward sustainability, making it an environmentally friendly option for businesses looking to reduce their carbon footprint.

Both models boast cutting-edge technologies that enhance their functionality. For instance, Windsor 10086150 is equipped with an advanced control system, allowing for real-time monitoring and adjustments. Operators can easily track performance metrics and make necessary changes to optimize productivity, thereby ensuring that the machine operates at peak efficiency at all times.

On the other hand, Windsor 10086130 incorporates automation features that significantly reduce the need for manual intervention. This technology allows for seamless integration into automated production lines, facilitating higher throughput and streamlined workflows. As a result, businesses can achieve greater output with fewer resources.

In terms of characteristics, both models offer unparalleled versatility. They can be customized to meet the specific needs of various industries, including automotive, aerospace, and consumer goods. This adaptability ensures that companies can leverage Windsor machinery for multiple applications without the need for significant reconfiguration.

Moreover, both Windsor models prioritize user-friendliness. Their intuitive interfaces make it easy for operators to learn and operate the machinery quickly. This feature is crucial, especially in fast-paced environments where time is of the essence.

In conclusion, Windsor 10086150 and 10086130 are exemplary machines that reflect the industry's latest advancements in technology and performance. Their robust construction, energy efficiency, automation capabilities, and user-friendly designs make them invaluable assets for any business aiming to enhance productivity and efficiency in today’s competitive landscape.
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