Armstrong Rada 320 Manual de instalação e manutenção - Página 4
Procurar online ou descarregar pdf Manual de instalação e manutenção para Unidade de controlo Armstrong Rada 320. Armstrong Rada 320 12 páginas. Water temperature controls, groups of fixtures, thermostatic
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Safety Warnings
The function of a Thermostatic Mixing Valve is to deliver water consistently at a pre-designated temperature.
Rada Thermostatic Mixing Valves are precision engineered to give continued superior and safe performance
provided:
1. They are installed, commissioned, operated and maintained in accordance with the recommendations
provided and accepted plumbing practices.
2. Periodic attention is given, as necessary, to maintain the product, the accessory fittings and the
plumbing system in good functional order.
In keeping with every other mechanical product, Rada Mixing Valves should not be considered as functionally
infallible and, as such will never totally replace the vigilance and attention of facility nursing/bathing or other
institutional supervisory or industrial safety staff.
Provided that they are installed, commissioned, operated and maintained, the risk of product failure and its
associated consequences, if not eliminated, are reduced to the minimum achievable.
Rada 320 Operating Specifications
Maximum Hot Water Supply Temperature
Minimum Cold Water Supply Temperature
Optimum Inlet to Outlet Temperature Differential
Optimum Thermostatic Control Range
Maximum Flow Rate at 45 psi
Maximum Flow Rate at 9' per second
Minimum Flow Rate
Maximum Inlet Supply Pressure
Minimum Inlet Supply Pressure
*Rada 320 can accept temporary excursions above 185°F (85°C) and maintain control without sustaining internal
damage. (ASSE 1017 certification requires exposure to 200°F (93°C) for a period of 30 minutes). Prolonged
operation of the Mixing Valve at such elevated temperatures is not recommended.
** Under laboratory test conditions Rada 320 has displayed a repeatable capability to blend to within 5°F (2°C) of
each inlet supply temperature. 21°F (12°C) is the optimum published differential required to achieve full thermal
performance.
185°F (85°C) *
33°F (1°C)
21°F (12°C) **
86°F (30°C) - 122°F (50°C)
23 gpm (87 lpm)
16 gpm (61 lpm)
1 gpm (3.8 lpm)
150 psi (10 bar)
10 psi (0.7 bar)
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