Radiant heating unit, made up of a sandwich of containing substrates with the special and innovative electro-thermal emissive film inside.
TOUCHPOINT
The RedInside is the integration of thermo radiant technology for a large number of localized heat applications. Designed for churches (integrated in benches), for cinemas and theatres (integrated in armchairs) and for conference rooms (integrated in tables or seats). It produces thermal comfort for the individual user.
Radiant heating unit, made up of a sandwich of containing substrates with the special and innovative electro-thermal emissive film inside.
TOUCHPOINT
The RedInside is the integration of thermo radiant technology for a large number of localized heat applications. Designed for churches (integrated in benches), for cinemas and theatres (integrated in armchairs) and for conference rooms (integrated in tables or seats). It produces thermal comfort for the individual user.
SAFETY
Powered at low voltage (24 – 48 Volts)
ADAPTABILITY
Applicable to any type of substrate and material.
CUSTOMIZATION
Customizable in different materials, dimensions, shapes and powers
SMART CONNECTION
Immediately running, even with remote connectivity.
SUGGESTED APPLICATIONS OF THE PRODUCT.
RedInside is applied to the wood panels on the back of the seats, heat is emitted bilaterally.
RedInside can be applied to partitions to warm each workstation.
RedInside can be applied to pew backs in places of worship, spaces that very often become difficult to heat.
RedInside is applied to the seat backs, heat is emitted bilaterally.
SUGGESTED APPLICATIONS OF THE PRODUCT.
RedInside is applied to the wood panels on the back of the seats, heat is emitted bilaterally.
RedInside can be applied to partitions to warm each workstation.
RedInside can be applied to pew backs in places of worship, spaces that very often become difficult to heat.
RedInside is applied to the seat backs, heat is emitted bilaterally.
By applying the thermo-radiant element near the user, it becomes possible to localize the energy and reduce its consumption. In environments used to gather many people it will be possible to reduce energy consumption by heating only the people present instead of the enormous volumes of air in the entire building.
ENERGY INTENSIVE HEATING
SYSTEMS
There are many heating systems in use today, for example: Air systems (enormously energy-intensive); Radiators (aesthetically invasive); Heating lamps (trigger convective movements and are very energy-intensive). Finally, radiant floors (very intrusive and very expensive).
BENEFITS OF THE REDINSIDE INTEGRATION
ELIMINATES AESTHETIC
INVASIVENESS
LOW POWER
CONSUMPTION
NO PERMITS FOR
INSTALLATION
RECYCLED OR
RECYCLABLE MATERIALS
HARMFUL SYSTEM EFFECTS
OF ENERGIVE HEATING
TRIGGERING CONVECTIVE
MOTIONS
THERMOHYGROMETRIC
EXPANSION
Damage to sacred works and historic furnishings caused by sudden changes in heat and steam. For this reason, the Church Governance forbids heating systems that induce convective motion of the air.
HEAT ONLY WHERE REQUIRED
ENERGY INTENSIVE HEATING
SYSTEMS
There are many heating systems in use today, for example: Air systems (enormously energy-intensive); Radiators (aesthetically invasive); Heating lamps (trigger convective movements and are very energy-intensive). Finally, radiant floors (very intrusive and very expensive).
HARMFUL SYSTEM EFFECTS
OF ENERGIVE HEATING
High-temperature heating systems can damage sacred arts due to the excessive strength with which heat and vapour reach them, damaging the surfaces.
TRIGGERING CONVECTIVE MOTIONS
THERMOHYGROMETRIC EXPANSION
Damage to sacred works and historic furnishings caused by sudden changes in heat and steam. For this reason, the Church Governance forbids heating systems that induce convective motion of the air
HEAT RADIATION WITH REDINSIDE
By applying the thermo-radiant element near the user, it becomes possible to localize the energy and reduce its consumption. In environments used to gather many people it will be possible to reduce energy consumption by heating only the people present instead of the enormous volumes of air in the entire building.