Infrared radiant heating - ceiling heaters for your home
Modern systems heating based on infrared heating, in contrast to traditional ones, have significant advantages. This is not only reasonable energy consumption and significant savings family budget, but also ease of use, healthy microclimate in the house and comfort all year round. How does infrared radiant heating work?
Infrared heating of rooms - there are advantages!
IR heating on film equipment is a modern, efficient heating system, which has been used with great success both in private homes and in public buildings. Due to its unique capabilities, environmental friendliness and fire safety, infrared radiant heating is recommended for use in medical and children's institutions.
Representing Alternative option traditional ways space heating, every year IR heating becomes more and more popular among owners country houses. Infrared heating indispensable where there is no possibility of connecting to the gas mains, but only electricity. The IR system is installed simply and quickly, between finishing coat and a rough ceiling with reflective thermal insulation. The costly installation of additional communications is eliminated, a boiler room and pipes are not needed, and there is no risk of defrosting or leaks. In addition to reasonable savings on installation work and materials, infrared heating reduces energy costs by 3-5 times, with an efficiency of 95%.
Another plus is the absence of condensation on walls and windows, which is especially important for wooden house. And if the enclosing structures have already accumulated moisture, infrared heaters will quickly dry them, preventing the destruction of the walls due to fungus and mold.
The temperature regime is easily adjusted in each room. The distributed infrared heating system automatically maintains the set temperature level. You can also equip a garage, attic, or workshop with ceiling film infrared heaters.
Radiant heating - operating principle
With no operating costs and ease of use, infrared radiant heating does not have the disadvantages of conventional convective systems. Warm air from the batteries mixes with cold currents and moves upward, raising dust microparticles with it. At the same time, humidity and oxygen content decrease, and the air under the ceiling is always warmer than below.
Infrared heating acts differently. The principle of direct, without communications and coolant, conversion of electricity into thermal energy is borrowed from nature itself. Main source infrared radiation - the Sun. Any heated objects and bodies, in solid and liquid states, emit a continuous infrared spectrum. However, according to the laws of physics, thermal energy always transferred from a more heated body to a less heated one and absorbed by it, but not vice versa.
Infrared heaters evenly heat all surfaces and objects in the room - floors, walls, furniture. They transfer heat to the air, speeding up the process and increasing the heated area several times. Uselessly heated air masses do not accumulate under the ceiling; the temperature difference between the floor and walls is 2-3 degrees higher than the air temperature. If the house is well insulated, the floor will always be warm without additional heating.
Radiant infrared heating does not dry out, does not overheat, does not separate the air into cold and hot layers, does not cause drafts, which means you can breathe easily and freely in the house. The result is excellent well-being, a comfortable atmosphere and a healthy microclimate.
Ceiling heating: power calculation and selection of IR heaters
To heat a house evenly using infrared film electric heaters (PLEN), it is necessary to ensure a high coverage coefficient (70-80%). Then, with a low specific power of each ceiling heater (150-180 W/sq.m), we will obtain sufficient power of the entire infrared heating system. To prevent overheating, the temperature IR heater should be no more than 45-50°C.
This scheme allows you to minimize heating costs country house, dachas, with energy consumption from 5 to 30 W/h per 1 sq. m of area, depending on heat loss through the enclosing structures. But it is worth remembering that only competent, accurate power calculations guarantee a full effect. warm ceilings, so before installing infrared heating, be sure to consult with specialists. Professional advice will help you choose the right equipment.
Infrared film ceiling heaters NIRVANA
With the help of radiant heating, a person's level of thermal comfort is achieved faster. The concept of thermal comfort means that the degree of warmth environment is satisfactory for a normal life. However, often the ambient temperature is insufficient, but a person still feels cozy and comfortable. As clear example Let's draw an analogy with the principle of the sun's influence on humans.
The effect of radiant heating is similar to the sensations of a walk on a sunny winter day. On the street subzero temperature, the air is winter-cold. However, a person feels comfortable because the sun begins to shine.
How Radiant Heating Works
With traditional heating systems or when using an air heating system, as opposed to heating systems with gas infrared radiators, warm air goes up. Let us recall that convection is the movement of an air mass or movement in the volume of any gas or liquid. That is, heated and lighter layers of air are displaced by cold and heavier ones. The warm layer of air also rises, giving way to a cooler layer of air.
Let's try to trace the differences between a radiant heating system and a traditional or convection heating system. Traditional system heating rooms using batteries as an intermediate heat source is well known to us since childhood. This type of heating uses the principle of convection. For the convection effect to work, the batteries must be located at the bottom, not at the top. This is why you need to do this physical phenomenon. The fact is that warm layers of air are displaced by cold ones from the lower part of the room. If you place the heating element at the top, this phenomenon will not occur. Thus, in order to completely warm the room, you need enough a large number of time. Gas infrared emitters solve this problem because things are different with radiant heating. Warm air practically does not accumulate at the top of the room. With small losses, electromagnetic energy is converted into heat in the lower part of the room.
Gas infrared emitters in radiant heating
Artificial radiant heating implemented in practice using devices such as gas infrared emitters. This heating system is a heating device located in the upper part of the room. When the heating starts working, the devices emit electromagnetic waves into space.
Gas infrared emitters used in rooms with a ceiling height of at least 4 meters. Heat with a radiant heating system does not rise upward, but, on the contrary, is distributed below the room, which is important for creating comfortable conditions V work area[at 2.5 m from the floor].
Types of gas infrared emitters
- Gas radiators of the “light” type are most often used for heating industrial premises, which feature high ceilings. Such parts of the space have a high air exchange, so the use of convection heating systems in them is impractical. In rooms with high ceilings radiant heating with gas radiators of the “light” type is the most effective method heating
"Light" gas emitters operate on natural or liquefied gas. When burning gas-air mixture in the holes ceramic tiles, the temperature on the surface of the device reaches 950 o C. The degree of radiation is quite high, so heat transfer occurs in a very short time. Special anti-corrosion materials are used for the device body, which significantly extends the life of the gas emitter.
- Gas emitters of the “dark” type. The radiating element in such emitters is metal pipes. The temperature on the surface of such emitters reaches an average of 400 o C. The peculiarity of devices of this type is that for their operation it is necessary to remove combustion products using air ducts.
Radiant heating is an achievement of modern science that can and should be used. We will give several examples undeniable advantages this type of heating in order to completely dispel all doubts.
So, the undoubted advantages of radiant heating include:
- The absence of convection ensures that dust and other volatile substances do not float in the air. This fact is important for people sensitive to allergens.
- Significant cost savings due to low costs and low cost of gas fuel.
- When operating gas emitters, the amount of combustion products released does not violate the permissible limits sanitary standards Therefore, radiant heating can rightfully be called environmentally friendly and safe.
Roughly speaking, the Sun can be said to exist in nature radiant heating providing thermal comfort. The feeling of thermal comfort is important in working conditions, which is why gas infrared emitters are used. Science has proven: a person located in the thermal comfort zone shows significantly top scores work than someone who freezes at work. No wonder. The body is designed in such a way that when a person is cold, more kilocalories are expended. In a person who expends energy to keep warm, most of the energy is used not for work. This has a detrimental effect on labor productivity. The goal of enterprise managers is to choose optimal system heating to ensure comfortable production conditions.
Children, infants and, in some circumstances, adults need help maintaining their body temperature. This is equally applicable both for the rehabilitation of postoperative patients and for a small child in case of a long examination.
Being the most vulnerable, newborns and premature babies have the greatest need for warmth and protection. Their metabolism is underdeveloped and they are very sensitive to temperature changes and other external influences. All of these patients require an effective and safe heat source.
Efficient heating - Individual selection of intensity
The Ceramotherm 2000 radiant heater provides patients with efficient heating and safety. Heating using invisible infrared rays does not distort the patient's skin color, allowing a correct clinical examination.
Requirements for the degree of heating vary from patient to patient. Physical state such as shock or fever, has important. For this reason, doctors and nursing staff can select the radiation intensity according to the patient's needs.
The parameters of the selected radiation intensity and the actual radiation intensity are displayed in mW/cm2. The staff has the opportunity to regularly monitor the patient’s physical parameters and adjust the degree of radiation (heating) accordingly. The patient's response to changes in heat therapy contributes to accurate diagnosis and successful treatment.
Highest level of security
In case of prolonged exposure at high radiation intensity, there may be a risk of hyperthermia. As a result, after a certain heating period, the heater automatically reduces the radiation level to safe level and communicates the situation to nursing staff through visual and audio alerts.
When high intensity radiation is required, the user can turn off the alarm and the heater will continue to operate at high intensity for the next period of time. If patients are under continuous monitoring, the automatic intensity reduction can be temporarily disabled.
Radiant heaters, which are mounted on walls or ceilings and are height adjustable, turn off the heat when the heater is moved below the minimum allowable distance.
When the device is turned off, residual heat will be reflected on the display until it cools down. heating elements.
Uniform arrangement of protected heating elements
Ceramic heating elements with for a long time services provide stable and cozy heating with low energy consumption. They do not form scale and are resistant to liquid droplets. Compared to traditional heating coils, ceramic heating elements are replaced much less frequently.
Anti-glare recessed light
Two lamps daylight illuminate evenly workplace without blinding the patient.
Application
- Swaddling babies
- Survey
- Heating in the operating room
Heaters are available with two radiator sizes
Application
- Postnatal care in the maternity ward
- Swaddling babies
- Survey
- Heating in the operating room
Ceramotherm 2000 neonatal heaters are mounted to the wall or ceiling at a distance of 650 to 900 mm from the patient. Bearing in mind the external and structural conditions, optimal location can be selected using a wide range of wall and ceiling fasteners.
Fixed position above the patient's bed
For suspended ceilings: Distance to the main ceiling no more than 300 mm
Movable position above the patient's bed
rotation on hinges horizontal plane, with locking device
Various Location Options
 |
Rotation on hinges in a horizontal plane, with a locking device | ||
| Ceramotherm 2100 Bracket 480 mm |
Order No. WY 2102 |
Tilt adjustment ±30° Vertical adjustment |
|
| Ceramotherm 2100 Bracket 600 mm |
Order No. WY 2103 |
||
| Ceramotherm 2200 Bracket 480 mm |
Order No. | ||
| Ceramotherm 2100 Bracket 600 mm |
Order No. WY 2203 |
||
Mount with height adjustment
For certain applications, heaters must be installed to allow sufficient freedom of movement for the patient or to warm a specific part of the body. To heat moving beds, as well as height-adjustable examination beds, a height-adjustable heater with a large hinged mounting bracket is required.
By means of a flexible mounting arm with a large radius and a freely fixed main part, the heater can be positioned above the patient in almost any position. This system can be attached to the wall or ceiling, and the arm size can be of two sizes.
In the operating room, a heater must necessarily prevent the onset of hypothermia in children before, during, and after surgery. For this type of use, the fastening system must be sufficiently flexible. On request, the heater can be supplied in combination with an operating or examination light mounted on the same mount.
When height-adjustable mounts are used, it must be taken into account that the intensity of radiation emitted to the patient is highly dependent on the distance between the patient and the heater. The shorter the distance, the higher the intensity and vice versa.
For this reason, height-adjustable heaters have another safety feature. If the heater moves higher or lower set distance, then the visual one turns on first, and after a while sound alarm. If the heater drops below the permitted distance, the heater automatically turns off. Thus, the patient is safe despite any changes in the position of the heater.
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Horizontal bracket R1=750 mm, height-adjustable bracket R2=800 mm on a spring, rotating 360°, adjustable limiter for the highest position, the heater can be positioned in any direction. For mounting to the main ceiling without or with suspended ceiling at a distance of up to 500 mm from the main one, maximum length ceiling mounting 1100 mmm |
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| Ceramotherm 2100 | Order No. WY 2108 |
| Ceramotherm 2200 | Order No. WY 2208 |
| For fixing to the main ceiling with a suspended ceiling installed at a distance of up to 1000 mm from the main ceiling, maximum length of fixing to the ceiling is 1100 mm | |
| Ceramotherm 2100 | Order No. WY 2118 |
| Ceramotherm 2200 | Order No. WY 2218 |
| Option: | |
| Horizontal bracket R1 950 mm long |
Order No. WY 1848 |
Mobile devices
As an option for wall or ceiling mounted heaters, a mobile stand is recommended when the heater will be used in different rooms or for design reasons a fixed installation is not possible.
The height-adjustable stand can be moved thanks to four antistatic wheels, two of which have locks. The heater distance indicator should be at patient level to ensure the correct distance between the heater and the patient. Using the freely lockable main part of the heater, it can be installed in the required position.
Mobile Radiant Heat
| Technical data | Ceramotherm 2100 |
Ceramotherm 2200 |
| Amount of heating elements | 1 | 2 |
| Element life | >10 years | >10 years |
| Illumination: 2 fluorescent lamps, each | 11W | 18W |
| Voltage | ~230V / 50Hz | ~230V / 50Hz |
| Power consumption | 690W/3A | 900W/3.9A |
| Wavelength range, nm | 1500-6800 | 1500-6800 |
| Protective glass | 1 | 1 |
| Type of protection | B | B |
| MDD class | IIa | IIa |
The device complies with:
|
Yes Yes Yes |
Yes Yes Yes |
| security check | Once a year | Once a year |
Tested standard patient distance mm:
|
900 |
900 800 650 |
| Possibility of distance calibration from 650 to 900 mm | Yes | Yes |
Irradiation area/maximum intensity
|
390x520mm/28mW/cm2 |
390x680mm/30mW/cm2 430x700mm/30mW/cm2 460x720mm/26mW/cm2 480x730mm/22mW/cm2 500x750mm/20mW/cm2 520x770mm/18mW/cm2 |
| Display of selected value | Yes | Yes |
| Display of actual value and residual heat | Yes | Yes |
| Automatic reduction of heating power in case of intensity > 10 mW/cm2 for more than 15 minutes | ||
| Possibility to turn off the alarm for 15 minutes | Yes | Yes |
| Safe limit at 30 mW/cm2 | Yes | Yes |
| cm2 Power failure alarm | Yes | Yes |
| Self-test | Yes | Yes |
| Distance sensor for two-piece height-adjustable bracket | Yes | Yes |
| Weight, kg | 6,3 | 8,7 |
| Heater color | White RAL 9010 | White RAL 9010 |
| Handle color | Red RAL 3003 | Red RAL 3003 |
Radiant heating systems modern style(infrared panels) support one of two types of coolant - hydraulic or electric. Hydraulic (water) panel radiant heating came into use more than 50 years ago. Electric radiant heating panels only began to be introduced after the 1990s. Meanwhile on modern stage Both technologies are presented as already greatly changed technically - with support for more advanced systems.
Similar to tile stoves, radiant panels heat locally, creating. However, because infrared heating panels feature a thin metal surface with little or no thermal mass, these devices are capable of producing heat quickly.
This factor is attractive for use in places that are rarely used and in conditions of frequently changing climate. That is, in those conditions where the operation of tiled stoves, reactive-massive heaters and thermally active surfaces of buildings seems irrational.
Since radiant heating panels can quickly generate heat, it is logical to connect these devices only when people are present indoors.
Radiant heating panels seem to be more advantageous than older heating systems. The main advantages are low weight and compact design.
One of the widely used designs of electric radiant heat panel: 1 - fiberglass (1.2 mm): 2 - polyurethane (22 mm); 3 - aluminum (1.2 mm) Also worth noting easy installation heating panels inside buildings. Heat-emitting panels can be mounted on walls or ceilings. The units support a free-hanging configuration or can be integrated into a suspended ceiling system.
These points once again confirm the practicality of the devices, the possibility of use in different rooms building. Essentially, it is a kind of mobile type of heating system.
On the other hand, the heated surface of the radiant panel is unsafe for open use, as there is a risk of burns if handled carelessly and without a guard. This means that heat transfer by conduction is impossible in this case.
Operating principle of heating panels
Inside, heated water flows through plastic or copper tubes attached to a metal plate. Taking heat from the water, the metal plate radiates heat into space.
Electric heating panels work on a similar principle, but heat is created by passing current through electrical resistance. Similar to water thermally active systems buildings, liquid radiant panels also support the cooling effect.
One of possible options internal structure with electric coolant: 1 - socket for connecting to the network; 2 - insulation; 3 — ceiling beam; 4 - heating film element This configuration, however, is not supported by electric radiant heating panels. On the other hand, electric heating panels are easier to install and more responsive compared to the hydraulic option. It takes less than 5 minutes for the electric heating panel to reach full radiant power.
Association with a traditional radiator
Liquid radiant heating panels should not be associated with the so-called "radiators" that are widespread in European plumbing. Despite this, the design is aimed at creating the maximum share of convection.
Therefore, it is logical to call liquid heating panels “convectors”. The radiant metal surfaces of these “radiators” face each other, so most of the heating surface does not radiate heat directly to the object.
By radiating energy according to the principle “to each other”, the air coming from below is heated between the panels by conduction, then rises and heats the space by convection.
Another difference is that "radiators" have lower surface temperatures than infrared panels. As a result, the share of radiant heat in the total heat transfer is only 20-30%. The same goes for electric panel “radiators”.
A unique type of radiant heating panels is an infrared ceiling lamp. However, such devices require careful use. As for electric heating panels, we are actually talking about electric long-wave infrared heaters. But modern designs should not be equated with old models.
Legacy designs are known as electrical shortwave infrared heating devices. Their obvious difference is the generation of visible red light during operation.
Modern, long-lasting radiant heaters do not produce visible light and are more low temperatures surfaces. It is necessary to emphasize:
Both technologies have a certain impact on human health.
Efficiency depending on panel design
Infrared heating panels are the ideal complement for high-mass radiant heating systems. For example, an infrared heating panel can quickly heat up part of a room while the tiled stove is in operating mode.
This principle solves the problem of economical comfort for people committed to irregular visiting schedules. Likewise, the combination of “fast” and “slow” radiant heating sources opens up more possibilities adjustments in variable weather conditions.
Different radiant heating sources can also complement each other in different rooms of the same building. For example, a tiled stove in the living room can be successfully combined with radiant heating panels installed in the bedroom and bathroom.
A variant of a panel (film) heating system made directly under floor covering— laminate However, it is important to keep in mind that radiant heating panels lose some of their benefits over high-mass thermal systems if they are used continuously and when there are many people present indoors.
This conclusion is especially true for electric heating panels, which will require more energy when permanent job. panels lose efficiency advantages over conventional convection heating if they are used to heat an entire area instead of creating separate microclimate zones.
Vertical or horizontal radiation of heat?
Each radiant heating source heats the air. However, the radiative heat transfer fraction of the radiation source can vary from 50 to 95%, depending on the orientation of the radiant heating surface.
If the direction is downward, the largest fraction of radiation is achieved (up to 95%). At the same time, the lateral directions provide a heat transfer effect of 60-70%. Thermal surfaces facing upward are capable of achieving no more than 50-60% of heat transfer.
A significant influence of surface orientation is observed during the natural upward movement of heated air. Since there is no downward convection, warm air always rises. The radiant thermal surface directed downwards practically does not heat the air.
As a result, ceiling radiator heating surfaces are the most energy efficient. So, if to obtain optimal radiation, which is provided by a downward-facing panel, a power of 250 W is required, a similar panel oriented to the side wall requires 325 W, and an upward-facing panel requires 350 W of power.
However, the high proportion of radiant heat for downward-facing heating panels does not mean that the ceiling is inherently the most suitable location to install a radiant heat source.
Design radiant panel intended for installation on walls. This is one of the many varieties People typically remain upright while awake, either standing or sitting. Therefore, while ceiling panel Maximizes radiant heat production, vertically positioned side panel Maximizes the reception of radiant energy.
Radiant temperature asymmetry of the panel
Another reason for choosing a vertically oriented radiant heating surface is radiant temperature asymmetry. To the human body inherent property of experiencing temperature differences when heated by a local conductive heating source.
A person sitting in front of an open fire will receive enough radiant heat for one side of the body, but the other side remains exposed to the cold air zone of the opposite half of the room. That is, the sensitivity of temperature asymmetry strongly depends on the orientation of the heating source.
Humans are less sensitive to radiant temperature asymmetry caused by heated vertical surface tiled stove or wall panel.
Here, temperature differences can reach 35ºC before 1 in 10 people complain of thermal discomfort. However, in the case of a downward radiant heat source, complaints have been reported with a temperature difference of only 4-7°C.
When the temperature difference is 15ºC, about 50% of people participating in the experiment report thermal discomfort. The conclusion is simple: the head is the part of the body most sensitive to signs of heating.
Sensitivity to a relatively hot surface above people's heads is not a problem when the entire surface area is a radiant heating source. For example, a thermally active ceiling.
The principle of organizing radiant heat using a hydraulic coolant. So-called hydraulic radiant panels are also used Due to the large heating surface, the radiant temperature of such a system is low, often lower than human body temperature. However, the much higher temperatures of electric or hydraulic radiant heating panels can disrupt body temperature asymmetry in some people.
Safety of Radiant Heating Systems
There is a difference between solar radiation and the similar effect from radiant heating systems. The Sun is significantly hotter, and the surface temperature of the emitted object is a factor that determines the dominance of wavelengths in the electromagnetic spectrum.
Obviously: the higher the surface temperature, the higher the proportion of short-wave radiation. Because the sun has a very high temperature surfaces, a significant amount of harmful ultraviolet and short-wave infrared waves are emitted. Therefore, doctors do not recommend spending a lot of time in the sun.
However, if the source surface temperature is below 100ºC, as in the case of radiant heating systems, the long-wave infrared beam dominates the heat transfer flux. At the same time, long-wave infrared radiation is not able to penetrate the skin and is considered harmless.
However, fireplaces wood stoves and short-wave radiant heaters whose temperature is higher than that of tiled stoves, infrared panels or heated building surfaces are theoretically considered dangerous. These objects emit short-wave radiation and therefore can cause health effects.
Example - "Erythema ab igne" - infrared erythema, is considered a skin condition caused by repeated and prolonged exposure to a heat source. In principle, benign dermatitis, the spots from which usually disappear some time after the end of thermal exposure.
Consequences of long-term heating
However, if heating continues for a long time, the skin disease threatens to develop into a chronic form. Ultimately, skin cancer cannot be ruled out. True, such options were extremely rare. The main problem is the cosmetic effect, which is quite impressive, reminiscent of a tattoo.
These are the types of incidents that can result in the procedure for receiving radiant heat if staying under the source is carried out uncontrollably Erythema ab igne, caused by a radiant heat source, is traditionally found in cooks and bakers (on the hands) and in jewelers, silversmiths and glassblowers (on the face). Qualifies as an occupational disease.
Medical cases caused by people being too close to short-wave radiant heat sources are reported quite frequently. But there have never been any reports that the “Erythema ab igne” defect is caused by long-wave sources of radiant heat.
However, the designs of modern conductive heat sources appear to be risky. Electric and hydraulic heating elements with low surface temperatures are built into tables, chairs, and benches.
Often such structures are used as portable heating modules. Device technology is not limited to furniture or clothing. Examples are heating bracelets or electrically heated wardrobe items.
Recent reports indicate that the defect "Erythema ab igne" may occur after heating car seats, heating blankets, bottles of hot water and even laptops, hot tubs and showers.
In fairness, it is worth noting: most cases are a consequence of excessive use of conductive heating. For example, using a heat source inside the car (heated seat) for 2-4 hours a day. It is obvious: conductive heating systems can affect human skin. Therefore, caution is recommended.
The “Radiant Heat” device is an open physiotherapy system that provides temperature control and minimizing the effects of hypothermia on newborns. With the help of this device, babies in intensive care units are observed and examined during the first time after birth, as well as during the recovery period in cases of surgical intervention. The heater also prevents a drop in the body temperature of the newly born baby.
Functionality of the “Radiant Heat” device
Thanks to a wide range functional features, this device is indispensable in maternity wards. The body temperature of small patients can be controlled either manually or fully automatically. In the latter case, the device independently generates the optimal temperature regime, based on data received from a special temperature sensor installed on the skin of a newborn.
With manual control, the output power of the device is set by personnel. The big advantage of using a heating lamp for babies is complete independence from other units during procedures. The device is easily moved in a clinic setting using four built-in wheels with brakes.
Has the ability to preheat. It allows the newborn to receive various procedures in a comfortable environment. The source of the projected heat is several ceramic heaters located in the upper block of the device.
The built-in timer operates in two modes:
The Apgar timer clearly records the time elapsed since birth and gives an Apgar score;
Timer for carrying out primary resuscitation procedures.
The presence of two timer modes allows physiotherapeutic procedures to be carried out at a given time interval, depending on the nature of the device’s purpose. Allows you to perform the heating function more efficiently.
The heater also has:
Rotating canopy system;
An easy-to-use, clear display that allows staff to set the required parameters and receive the necessary information about any changes in the baby’s body temperature;
Mobile base on four wheels equipped with locking stops;
Rotational shock absorbers allowing extra effort open the side and front guards.
Additional options
The system can be equipped with various accessories, for example, a ventilation system (mechanical), a device for phototherapy procedures, a patient monitor, etc. These options make it possible to use the Radiant Heat device as a comprehensive unit of resuscitation equipment for use in cases of emergency treatment and in intensive care units. Fixed additional equipment from the side, using the built-in vertical rail.
The safety of the baby is ensured by a special alarm system that responds to changes temperature regime, as well as a sudden malfunction of the device. This function works when using both manual and automatic modes.
