American Standard 6063.510, 6063.505, 6063.051 Install Flush Valve a & 8b, Adjust Supply Stop Fig

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6INSTALL FLUSH VALVE; Fig. 8a & 8b

1.As shown in Fig. 8a, insert the side INLET FLANGE (1) on the FLUSH VALVE (2) into the SUPPLY STOP (3). Lubricate the INLET FLANGE O-RING (4) with water if necessary. Lightly tighten COUPLING NUT (5). Fig. 8a.

Important: Do not use lubricants (other than water) or any type of thread sealing paste or tape.

2.Align the FLUSH VALVE (2) (Fig. 8b) directly above the DOWN TUBE (7) and VACUUM BREAKER COUPLING NUT (6). Make sure that GASKET (10) is installed.

Note: There is a +13mm, -6mm (+1/2, -1/4) tolerance for the 121mm (4-3/4) dimension. Fig. 8b.

3.Pull the DOWN TUBE (7) up to meet the threaded FLUSH VALVE CONNECTION (8) and hand tighten the VACUUM BREAKER COUPLING NUT (6). Align all components of the flush valve assembly. Fig. 8b.

4.Lightly tighten the COUPLING NUT (5) connection first, then the VACUUM BREAKER COUPLING NUT

(6) and finally the SPUD COUPLING NUT (9). Once alligned correctly, use a wrench to tighten couplings to make water tight connections. Fig. 8b.

7ADJUST SUPPLY STOP; Fig. 9

IMPORTANT: To avoid overflowing, the SUPPLY STOP

(3)must never be opened to the point where the flow from the valve exceeds the flow capacity of the fixture. The fixture must be able to handle a continuous flow in case of a flush valve failure.

1.After installation is complete, peel off the PROTECTIVE FILM (1) from the sensor. Standing to one side, block the sensor with your hand for 10 seconds.

Remove your hand and listen for audible “click” from within the valve.

2.Remove COVER (2) from SUPPLY STOP (3).Turn on water supply 1/4 turn to 1/2 turn(CCW) and test for leaks. Note: Unit may flush for approximately 5 to 10 sec. when water is first turned on. If flow persists, turn water off and repeat step #1 above.

3.Actuate the FLUSH VALVE:

A)Cover sensor with hand for 10 seconds.

NOTE: Stand outside of sensor detection aera.

B)Remove hand from in front of the sensor; unit will flush in approximately 3 seconds.

4.Adjust SUPPLY STOP (3) after each flush until the stated flush volume is achieved, no splashing occurs and the fixture is properly cleansed.

5.When adjustment is complete, replace COVER (2) and tighten to ensure vandal-resistance.

Fig. 8a

 

 

 

 

3

 

 

1

 

5

4

 

2

 

Fig. 8b

121mm,+13mm, -6mm

(4-3/4)(+1/2, -1/4)

5 2 8 10

6

7

9

Fig. 9

1

REMOVE COVER

 

 

 

3

2

 

 

COUNTER-CLOCKWISE

 

 

OPENS CONTROL STOP

 

CLOCKWISE CLOSES

 

CONTROL STOP

 

5

 

M968567 Rev.1.2

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Contents Selectronic Proximity Urinal Flush Valve 0.5 & 1.0 GPF 6063.510 6063.505Instructions Selectronic Proximity Urinal Flush ValveRoughing-in Dimensions Recommended Tools FigInstall Sweat Solder Adapter Fig Install Down Tube and Vacuum Breaker FigEscutcheon and Supply Stop Fig Left or Right Hand Installation Fig Flush OUT Supply Lines FigInstall Flush Valve a & 8b Adjust Supply Stop FigHOW to Retrofit OUR Valve Fig HOW to Change the Battery FigIf Required From sensorTroubleshooting Flow Charts Selectronic Proximity Urinal Flush Valve 1.0 GPF

6063.101, 6063.510, 6063.051, 6063.505 specifications

American Standard 6063 is a widely recognized alloy within the aluminum family, playing a significant role in various industrial applications. This alloy is particularly esteemed for its versatile properties, which make it suitable for extrusion, fabrication, and other manufacturing processes.

6063.051 is characterized by its medium strength and excellent corrosion resistance. This variant also exhibits good surface finish and is commonly used in architectural applications where aesthetics are crucial. The alloy's superb workability permits complex shapes to be extruded with ease, making it a favorite in window frames, doors, and curtain walls.

6063.510 demonstrates increased strength and is often employed in structural applications. The unique blend of magnesium and silicon provides this alloy with greater tensile strength compared to other 6063 variants. This capability, combined with excellent weldability, makes it ideal for construction projects and heavy-duty applications. Industries benefit from its ability to withstand various environmental conditions, preventing premature failure in infrastructure components.

The 6063.101 designation represents a variation that favors excellent thermal conductivity. This characteristic is vital in applications like heat exchangers and other components where heat dissipation is crucial. The alloy benefits from enhanced forming capabilities, allowing for intricate designs and configurations, which are particularly important in specialized manufacturing sectors.

6063.505 provides a balance between strength and aesthetic appeal, making it suitable for both structural and decorative applications. Its inherent ability to take on a bright finish allows for its use in design elements where visual impact is essential. With advanced extrusion technologies, manufacturers can create complex and appealing shapes that meet specific design requirements.

Collectively, these 6063 variants showcase the flexibility and adaptability of aluminum alloys in modern manufacturing. Not only do they provide superior mechanical properties, but they also incorporate the latest technologies in extrusion to maintain high quality and performance. Their applications span multiple industries, including construction, automotive, aerospace, and consumer goods, underscoring the significance of each variant in delivering diverse solutions for engineers and designers. Each variant's unique features enables tailored applications, reinforcing the reputation of American Standard 6063 as a leader in the aluminum industry.