Radiant Heaters

Heatscope offers four ranges of weather-resistant electric infrared heaters, each engineered for different settings and design preferences. All use double carbon heating elements with two-stage output control and come in black or white with optional extension rods.

The Spot is the most compact, available in 1,600W or 2,800W, ideal for smaller spaces and directional warmth. Its ceramic glass front delivers radiant efficiency above 94%, with an IP24 rating suitable for covered outdoor areas.

The Pure Plus is the most weather-resistant in the range, rated IP65 for fully exposed outdoor installation. This 3,000W heater features a convex glass-ceramic front and won a Red Dot Design Award in 2018.

The Vision produces the highest output at 3,200W and runs the longest at 1,661 mm, creating ambient atmosphere alongside substantial warmth. Its minimal visible light (300 lm) suits settings where you want heat without visual prominence. It’s rated IP44.

The Next suits transitional spaces, including semi-enclosed terraces or indoor/outdoor transitions. Its 3,000W output and swivel-joint mount offer directional flexibility; its slim aluminium body fits tighter design schemes. It’s rated IP25.

All ranges include a 2-year warranty and optional ZigBee smart control.

The best HEATSCOPE radiant heater for your space depends on three practical factors: the location's exposure to weather, the size of the zone you're heating, and your aesthetic preference.

If your space is fully exposed to outdoor elements, such as a rooftop, deck, or open patio, the Pure Plus model's IP65 rating and all-weather design make it the most resilient choice. For semi-covered areas like sheltered patios or balconies, the Spot delivers compact, rapid heat-up (under 15 seconds) across an 8 m² zone, or choose the Vision for larger spaces needing 11 m² coverage with minimal light output from the ceramic glass front.

Consider how you experience the space. The Spot and Vision both offer IP24 weather protection, whilst the Spot's smaller form factor suits intimate areas and the Vision's 1,661 mm width creates a more substantial focal point. All three operate at dual 50/100% power settings and deliver heat in 15-60 seconds depending on the model.

Discuss your specific location, intended installation position, and aesthetic priorities with our specialists, who will recommend which model aligns with your project needs.

Radiant heating is suitable for most room types, with a few environment-specific exceptions to guide installation decisions.

Heatscope radiant heaters work well in living areas, dining rooms, bedrooms, kitchens, bathrooms, hallways, and open-plan spaces. The infrared heat carries through air without relying on ventilation or air circulation, making it particularly effective in enclosed, draught-prone, or high-ceiling rooms where forced-air systems underperform. Heat reaches occupants directly rather than dissipating overhead.

Environments where standard installation is not appropriate:

German-engineered and Red Dot Design Award winning, Heatscope heaters are tested rigorously across climates. The technology's independence from ducting and gas lines lets it adapt to any room geometry without constraining architecture.

No, radiant heating does not degrade indoor air quality. Heatscope Heaters use mid-wave infrared radiation, which transfers heat directly to solid objects (people, furniture, and floors) without heating the air itself. This fundamental difference from forced-air heating systems creates distinct air-quality benefits.

Because radiant heaters have no fan or blower, there is no convection to disturb dust, pollen, or other particulates. The sealed construction (IP25–IP65, depending on model) prevents internal particulate accumulation. There are no combustion byproducts, ventilation requirements, or filters to maintain.

Radiant heating also does not alter humidity levels the way forced-air systems do. You get even thermal comfort without the dry-air side effects common to traditional heating. For users with allergies or asthma, the absence of air circulation and combustion makes radiant heaters a practical choice for creating a quieter, cleaner indoor environment.

Infrared radiant heating technology uses direct heat transfer: electromagnetic waves deliver warmth from the heater to people and surfaces, bypassing the surrounding air entirely. HEATSCOPE radiant heaters emit mid-wave infrared radiation that is absorbed by solid objects (people, floors, surfaces) on contact. Because air is largely transparent to these wavelengths, warmth is not lost to wind, draughts, or dispersal in open spaces.

Mid-wave infrared is quickly absorbed by solid surfaces and skin, replicating the natural sensation of direct sunlight without heating the air around you. HEATSCOPE's dual carbon spiral heating elements emit this radiation through ceramic glass fronts with minimal visible light, delivering quiet, directed warmth. Designed to German engineering standards, this technology performs consistently indoors and in exposed outdoor environments.

Yes, HEATSCOPE® weather-resistant infrared heaters are engineered for both residential and commercial applications, and are installed in restaurants, cafes, bars, and hospitality venues.

Commercial durability is built into the core components. Carbon fibre heating elements are rated for at least 10,000 hours of operation, and the aluminium chassis resists discolouration and tarnishing over years of continuous service. There are no ignition components, gas connections, valves, or hoses to maintain, reducing downtime and servicing complexity in high-use environments.

For multi-zone installations, a single remote pairs with multiple heaters, and ZigBee motion sensors automate zones to activate only when areas are occupied, helping manage energy use across large terrace or dining areas. All models accept wall and ceiling mounting, with extension rods in 100, 300, and 500 mm increments providing height flexibility across varying ceiling configurations such as marquees, pergolas, and outdoor dining pavilions.

For venue specification, HEATSCOPE®’s technical team provides schematic diagrams and tailored positioning guidance based on your space’s dimensions, wind exposure, and installation height. The general principle: more wind exposure and greater installation height call for higher-output models with stronger beam reach.

HEATSCOPE weather-resistant infrared heaters reach full output in under 15 seconds on most models; the glass-fronted range reaches comfortable warmth in under 60 seconds. You feel the warmth almost the moment the heater switches on, because infrared radiation travels through the air like sunlight and warms people and surfaces directly rather than heating the surrounding atmosphere.

That direct-to-body transfer is why outdoor patio heating with infrared behaves differently from a gas patio heater or a fan heater. There is no lag while the air temperature climbs, and almost no heat loss to wind or open sides of a pergola. Two practical benefits follow:

• Guests arriving to a cold terrace feel warmth within seconds of the heater being switched on, rather than waiting 20 to 30 minutes for air temperature to rise.
• Instant-on, instant-off operation means you only run the heater during occupied moments, keeping energy use close to actual occupancy time.

Carbon fibre elements are rated for at least 10,000 operating hours, and radiant efficiency across the range sits between 87 and 94 percent, so that fast warmth is delivered consistently across years of residential or commercial use.

Running a weather-resistant HEATSCOPE outdoor radiant heater costs roughly the heater's wattage divided by 1,000, multiplied by your local electricity rate per kWh. A 3,000 W heater run for one hour uses 3 kWh, so at an illustrative rate of $0.20/kWh it costs about $0.60 per hour to run.

Per-hour figures across the range, at the same illustrative $0.20/kWh rate:

• 1,600 W compact heater: $0.32/hour at full output, $0.16/hour at 50%
• 2,800 W heater: $0.56/hour at full output, $0.28/hour at 50%
• 3,000 W heater: $0.60/hour at full output, $0.30/hour at 50%
• 3,200 W heater: $0.64/hour at full output, $0.32/hour at 50%

Actual cost depends on your local electricity rate, so replace the illustrative figure with your own tariff for an accurate calculation. A two-hour session at full output on a 3,000 W heater sits near $1.20 at that rate; running the same session at the 50% setting drops the cost to around $0.60.

Mid-wave infrared technology converts up to 94% of energy directly into directed warmth, with minimal energy lost to air or wind dispersion. That efficiency, combined with permanent outdoor installation and weather-resistant construction, is what keeps the cost per comfortable hour low across patios, terraces, and hospitality settings.

Carbon spiral heating technology uses two coiled carbon filaments, energised by an electric current, to produce mid-wave infrared radiation that warms people and surfaces directly. Heatscope’s weather-resistant range encloses this technology in housings rated for outdoor exposure, maintaining full performance in open patios and exposed living areas.

Heatscope uses carbon spirals because they generate heat as the primary output, not light. Most outdoor radiant heaters rely on light tubes that produce brightness first, with heat arriving as a by-product and an aggressive red glow. Carbon spirals reverse that priority, operating at filament temperatures of 1,100–1,300°C [2,012–2,372°F] and a colour temperature of 1,550–1,650 K, producing only 30–40% of the visible light of traditional radiant heaters. The result is sun-like warmth absorbed just under the first layers of skin, with no harsh glare to flatten the colour of food, joinery or lighting design.

Direct heat transfer is the fundamental advantage of radiant heating, which warms people and objects in its path rather than heating the surrounding air. This delivers several distinct benefits: energy conversion rates of 87–94%, near-instant warmth within 15–60 seconds depending on the model, and silent operation with no moving parts. Radiant heaters produce no emissions, odours, or ash, and require no gas lines, flue systems, or ventilation infrastructure, making them ideal for retrofit installations and spaces where traditional heating isn’t practical.

The trade-off is directional coverage. Radiant heaters warm only the areas within their line-of-sight. Someone standing outside the beam path receives minimal benefit. This also means they function as zone heaters rather than whole-room ambient heating, effective for creating comfort zones in outdoor entertaining areas or specific indoor spaces, but less efficient for warming every corner of large rooms simultaneously. Covering expansive areas requires multiple units, which carries a higher upfront cost than a single centrally-mounted system. Installation demands appropriate electrical infrastructure (220–240V, professional installation), and in cold climates, multiple heaters may be necessary to achieve ambient comfort comparable to forced-air or hydronic systems.

Rather than limitations, many customers view these characteristics as precision advantages: the ability to heat only occupied spaces, reduce energy consumption, and extend the usable season in outdoor areas without the capital expense of full-home heating infrastructure.