Spirit

1.Fill the solution tank.

2.Move machine to the cleaning area.

3.Lower the brush housing to the floor.

4.Adjust the brush to the desired height.

5.Plug machine into electrical outlet.

6.Release handle by pressing bar with foot. Push handle forward to lock.

To release handle:

A.Press down with foot. 6. Pull back on handle.

7.Press Vac/Pump switch with foot to turn on.

8.Tilt the machine back on rear wheels until brush

is off the floor. Press brush switch with foot to turn on.

NOTE: Starting the machine with dry brush rest- ing on floor may trip the brush motor circuit breaker.

9.Squeeze the solution control lever to dispense cleaning solution.

10.Pull the machine backwards at a steady pace. Different carpet conditions will determine the speed required, approximately 25 to 30 feet per minute (8-9 m). Do not press down on the handle while cleaning, this will cause the brush housing to raise slightly and reduce efficiency.

11.Release the solution lever about 12” inches (150 cm) before the end of each pass to ensure all solution is picked up.

12.Allow each cleaning pass to overlap the previous pass about 2” inches

13.) cleaning check for foam build-up in re- covery tank. hen excessive foam begins to build up, add a defoaming compound to the recovery tank according to the Instructions on the manufacturer’s package. Foam build-up depends on the type of cleaning concentrate, and residue remaining carpet.

An overflow of foam from in the recovery tank into the vacuum intake can damage the vacuum- motor. Always be aware of the waste water level and foam in the recovery tank, es ecially when using an accessory tool. BEFORE foam or solu- tion is pulled into vac intake empty the recovery tank.

Never put defoaming compound in the solution tank. Damage to pump will result.

NOTE:The vac motor is protected by a circuit breaker which will only trip under conditions of abuse, such as an overflow of foam into the dome. When an overflow does occur the vac motor must be allowed to dry thoroughly before continuing work.

1.Remove source of overflow.

2. Run motor to dry.

14.When solution tank empties the machine will start streaking and won’t completely clean the floor. Turn both switches off, empty the recovery tank, and refill the solution tank. Use the clear drain hose on the rear of the solution tank as a sight gage to determine amount of fluid in tank.

15.Ventilate the room when cleaning has been completed. Keep all traffic off the floor until it is thoroughly dry.

16.When done cleaning for the day bring the machine to a utility sink and loor drain. Perform the daily /regular maintenance. Set the recovery tank aside so solution tank will dry.

When not using the machine put the brush in the storage position. (see daily maintenance on page 8) Leaving the brush on the floor for long pe- riods of time may ruin It.

98353

SPD-J, SPD specifications

Windsor SPD and SPD-J are advanced power distribution systems designed with a focus on efficiency, reliability, and innovation. Windsor SPD, also known as Surge Protective Device, is engineered to protect electrical systems from voltage spikes that can result from lightning strikes, power surges, or other disturbances. This device is crucial for safeguarding sensitive electronic equipment used in various industries, from telecommunications to healthcare.

One of the main features of the Windsor SPD is its multi-level protection mechanism. It employs a tiered approach that combines several surge protection technologies, including metal oxide varistors (MOVs), gas discharge tubes (GDTs), and transient voltage suppressors (TVS). This combination not only enhances performance but also extends the lifespan of the protective equipment, effectively minimizing the risk of failure during transient events.

The SPD-J model introduces added functionalities and improved integration capabilities. It includes an intuitive monitoring interface that provides real-time insights into system performance and surge events. This data is crucial for facility managers as it enables them to assess the effectiveness of surge protection and make informed decisions about maintenance and upgrades.

Both the Windsor SPD and SPD-J feature compact designs that allow for easy installation in various settings, including residential, commercial, and industrial environments. Their robust construction ensures compliance with international safety standards, providing users with peace of mind regarding their efficacy.

In terms of technology, these devices are equipped with remote monitoring capabilities. Users can access performance data via web applications, enabling proactive management of electrical systems. Additionally, they are designed to integrate seamlessly with existing electrical infrastructure, making them a versatile solution for enhancing overall system resilience.

Regarding characteristics, the devices boast high energy absorption ratings, which define their ability to withstand and dissipate surges without compromising performance. The SPD and SPD-J are also designed to operate in a wide range of temperatures, ensuring reliability in diverse climate conditions.

In summary, Windsor SPD and SPD-J stand out in the field of surge protection technologies for their effective, user-friendly, and reliable solutions. As power demands continue to grow, these systems play an essential role in maintaining the integrity and safety of electrical systems across various sectors.