End elements

A system for the integration of air conditioning in the concrete skeleton of buildings.

Batiso Air is a system that allows you to integrate air distribution systems in ceiling concrete structures. The air supply is distributed in this way to the air outlets integrated in the floor. The technology allows the distribution of fresh air into rooms without a ceiling.

The advantage is interiors without suspended ceilings, optimal air distribution in the building, hygienic safety in combination with high thermal comfort.

Designed for new multi-storey buildings with a reinforced concrete skeleton. Ideal to combine with Batiso(TABS) technology.

System for heating and cooling of buildings with reinforced concrete skeleton.

Batiso Plus are concrete topně-cooling elements extending the Batiso system (TABS). These are zone elements installed, for example, along the façade. This technology allows you to individually control the temperature in the room.

The advantage is interiors without suspended ceilings, the possibility of temperature control in the room in combination with high thermal comfort.

Designed for new multi-storey buildings with a reinforced concrete skeleton. Ideal to combine with Batiso(TABS) technology.

A system for radiant heating and cooling of buildings, which uses the accumulation capabilities of the concrete core.

Batiso are PEX tubular registers located in the center of the neutral zone of the reinforced concrete skeleton of the house.  Based on the requirements, circulatory systems up to 25kPa pressure drop are defined.

Batiso can be built in both horizontal and vertical directions. The skeleton of the house then radiates the accumulated energy into the living spaces. The effect in space comes with a temporal response and is dependent on the state of accumulation and the current temperature in the space. The delay can be shortened by a special design.

Individual temperature control in the rooms is only possible through an additional recirculation system.

The advantage is its maintenance-free system, relatively low investment and invisibility in the interior combined with high thermal comfort.

Designed for new multi-storey buildings with reinforced concrete skeleton and interiors with exposed shackled concrete. Ideal to combine with geothermal energy sources.

Low-temperature system for radiant ceiling heating and cooling of spaces. Carbon A is a metal cassette mounted under the ceiling in a regular grid and creates full-surface cassette ceiling soffits.

Inside the cassette is a carbon-copper high-performance topně-cooling device.

The advantage is the available solution in combination with high performance and excellent acoustic parameters. As part of the design, it is possible to combine active and inactive parts of the ceiling.

Suitable for use with geothermal energy sources.

– High-performance system

– The medium for heating and cooling is water.

- Several standard cartridge dimensions

– Ground clearance of the part 30/40 mm

– Acoustics α _W = 0.7 (according to EN ISO 11654)

– Power for cooling 94W/^m2 ∆^t 8K / heating 133W/^m2 ∆^t 15K (according to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. Carbon S plates with built-in copper topně-cooling device form the ceiling area. It is possible to create seamless full-surface or island surfaces.

The design of the system is adapted to the design of dry construction. The system is not primarily designed for rooms with difficult spatial geometry or with requirements for embedded technologies.

As part of the design, it is necessary to combine the active parts of the ceiling (Carbon S boards) with the inactive part (gypsum-cardboard boards).

The advantage is an affordable solution combined with high performance. Suitable for use with geothermal energy sources.

– High-performance system

– The medium for heating and cooling is water.

- 6 standard dimensions

– Ground clearance 15mm

– Power for cooling 100W/^m2 ∆^t 8K / heating 145W/^m2 ∆^t 15K (according to EN 140 37)

System for ceiling cooling of the premises. Compactline is a cooling beam suspended approx. 100mm under the ceiling that removes heat load from the rooms by cooling the ambient air.
The Compactline device works on the principle of natural circulation of warm and cooled air.

Thanks to the modular technology and variable shape, the cooling beams are suitable for both new buildings and installations in existing buildings.

– High-performance cooling system

– The medium for heating and cooling is water.

– Dimensions in widths 155/305/455/605mm (length max. 4m).

– Ground clearance of the 100/150mm part

– Cooling capacity depends on selected type 87-337W/^m2 ∆^t 8K (According to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. The Opti Y is suspended under the ceiling on a special supporting structure and creates an open ceiling with a series of aluminum profiles.

The Opti Y system is designed in a variant for an open (admitted) ceiling, or for hidden mounting above a permeable ceiling according to requirements.

Possibility to assemble an almost complete surface of an open ceiling from Opti Y aluminum profiles. Between the aluminum profiles of the Opti Y open system, it is possible to install additional suspended ceiling technologies (lighting, smoke detectors...)

The advantage is a comfortable draught-free solution in combination with high performance and maximum possibility of aesthetic individualization.

In areas with the Opti Y system, no additional radiators or cooling elements are required. Thanks to the open ceiling, however, it is possible to combine the Opti Y system with air conditioning.

– High-performance system

– The medium for heating and cooling is water.

– Ground clearance of the system 170/180 mm

– Cooling capacity 250W/^m2 ∆^t 10K / heating 120W/^m2 ∆^t 15K (According to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. The Reno system is a drywall of standard dimensions, in which there is a built-in pipe for the distribution of cold and heat.

It is possible to create seamless full-surface or island surfaces. Reno is especially suitable for renovations.

The design of the Reno system is adapted to the construction of dry construction, but not to the built-in installation of other technologies in space and difficult spatial geometry.

The material of the system gypsum-cardboard plate is reinforced with glass fiber.

– SDK ceiling system

– The medium for heating and cooling is water

– Built-in pipe size 9.9 x 1.1 mm

– Plate thickness 15mm

– Power for cooling 47 W/^m2 ∆^t 10K / heating 55 W/^m2 ∆^t 15K (According to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. Softline 4 is suspended under the ceiling and a series of aluminum profiles creates an island ceiling.  Possibility to assemble an almost complete surface of the ceiling from Softline 4 aluminium profiles.

The advantage is a comfortable draught-free solution in combination with high performance and high-quality workmanship. In areas with the Softline 4 system, no additional radiators or cooling elements are required.

Aluminium profiles of the Softline 4 system are supplied in tailor-made dimensions (max. length 4m).

– High-performance system

– The medium for heating and cooling is water.

– Dimensions: profile width 83mm, tailor-made length max. 4m.

– Ground clearance of the system 77 mm

– Power for cooling 132-146W/^m2 ∆^t 10K / heating 120-140W/^m2 ∆^t 15K (According to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. Spektra is a metal cassette mounted under the ceiling in a regular grid and creates full-surface coffered ceiling soffits.

Inside the cassette is glued or magnetically attached topně-cooling device consisting of copper distribution media and aluminum profiles distributing thermal energy.

The advantage is the available solution in combination with high performance and excellent acoustic parameters. As part of the design, it is possible to combine active and inactive parts of the ceiling.

Suitable for use with geothermal energy sources.

The Spektra radiant ceiling system can be combined with QUELLO systems to achieve even more efficient heating and cooling solutions for your project.

– High-performance system

– The medium for heating and cooling is water.

– Custom cartridge dimensions
– Ground clearance of the panel 30/40/50mm

– Acoustics α _W = 0.6 (according to EN ISO 11654)

– Power for cooling 84W/^m2 ∆^t 8K / heating 130W/^m2 ∆^t 15K (according to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. Spektra O is a metal cassette suspended under the ceiling and creates island cassette ceiling soffits.

Inside the cassette is glued or magnetically attached topně-cooling device consisting of copper distribution media and aluminum profiles distributing thermal energy.

The advantage is the available solution in combination with high performance and excellent acoustic parameters. Possibility of individualization in a wide range of colors and perforation sizes.

Suitable for use with geothermal energy sources.

The Radiant Ceiling System Spektra O can be combined with QUELLO systems to achieve even more efficient heating and cooling solutions for your project.

– High-performance system

– The medium for heating and cooling is water.

- Dimensions of custom cartridges

– Ground clearance of the part 30/40 mm

– Acoustics α _W = 0.8 (according to EN ISO 11654)

– Cooling capacity 101W/^m2 ∆^t 8K / heating 153W/^m2 ∆^t 15K (according to EN 140 37)

Unique low-temperature system for radiant ceiling heating and cooling of the premises. The UNI system is part of the supporting structure of the plasterboard ceiling. It is possible to create seamless full-surface or island surfaces.

The design of the system is adapted to the design of dry construction, the installation of additional technologies in space and difficult spatial geometry.

The cover for the UNI system are special gypsum-cardboard plates with increased thermal conductivity. By using perforated plates with a layer of acoustic fabric, acoustically efficient execution can be achieved.

– System for SDK ceiling

– The medium for heating and cooling is water.

– Ground clearance of the system 70mm

– Acoustics α _W = 0.6 (according to EN ISO 11654)

– Power for cooling 50-80W/^m2 ∆^t 10K / heating 63-92W/^m2 ∆^t 15K (according to EN 140 37)

Low-temperature system for radiant ceiling heating and cooling of spaces. Velum is suspended under the ceiling and creates island ceiling surfaces. Possibility to assemble an almost complete surface of the ceiling from the parts.

The advantage is an easily accessible solution combined with high performance and very good acoustic parameters.

Velum radiant parts can be combined with the Contec system to achieve even more efficient heating and cooling solutions for your project.

– High-performance system

– The medium for heating and cooling is water.

– Tailor-made dimensions (max. 1.3 x 5m).

– Ground clearance of the 30mm part

– Acoustics α _W = 0.8 (according to EN ISO 11654)

– Cooling capacity 112W/^m2 ∆^t 8K / heating 187W/^m2 ∆^t 15K (according to EN 140 37)

A unique system for radiant ceiling heating and cooling of the premises. Radiant heating is the most effective way to create a comfortable and pleasant environment in any home.

The UNI system is part of the load-bearing structure of the plasterboard ceiling and can be used to create seamless full-surface or island ceiling soffits.

The advantage is its invisibility in the interior, functionality without any noise and the principle of heat radiation, which is pleasant for the body. In rooms with the UNI system, no additional radiators or cooling elements are required.

Thanks to the fact that we design the UNI system tailored to a specific room, there is no problem with the installation of built-in ceiling components (lighting, audio speakers, shading technology...).

We combine the UNI system with special drywall with increased thermal conductivity and the possibility of noise absorption.

Power for cooling 50-80W/^m2 ∆^t 10K / heating 63-92W/^m2 ∆^t 15K (According to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Comfortable draught-free solution for buildings.

The Carbon S system consists of a standard suspended supporting structure and carbon plates with integrated topně-cooling equipment. It can be used to create seamless full-surface or island ceiling soffits.

The advantage of the system is its invisibility in the interior, high performance and comfortable functionality without any noise. The Carbon S system replaces any other unsightly heaters or radiators.

Carbon S system boards are manufactured in several standardized dimensions. In the parts where the built-in ceiling components are located (lighting, audio speakers, shading technology...) standard gypsum-cardboard boards are installed.

Power for cooling 100W/^m2 ∆^t 8K / heating 145W/^m2 ∆^t 15K (according to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Comfortable draught-free solution and attractive appearance of buildings.

Spektra is a metal cassette mounted under the ceiling in a regular grid and creates full-surface coffered ceiling soffits. Inside the cassette is glued or magnetically attached topně –cooling device.

The advantage is a comfortable draught-free environment combined with high performance and excellent acoustic properties. In areas with the Spektra system, no additional radiators or cooling elements are required.

The Radiant Ceiling System Spektra can be combined with QUELLO systems to achieve even more efficient heating and cooling solutions for your building.

Cooling capacity 84W/^m2 ∆^t 8K / heating 130W/^m2 ∆^t 15K (according to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Comfortable draught-free solution and attractive appearance of interiors.

Carbon A is a metal cassette mounted under the ceiling in a regular grid and creates full-surface cassette ceiling soffits. Inside the cassette is a carbon-copper high-performance topně-cooling device.

The advantage is a comfortable draught-free environment combined with high performance and excellent acoustic properties. In areas with the Carbon A system, no additional radiators or cooling elements are required.

Carbon A system cartridges are produced in several dimensions.

Power for cooling 94W/^m2 ∆^t 8K / heating 133W/^m2 ∆^t 15K (according to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Comfortable draught-free solution and attractive appearance of buildings.

Spektra O is a metal cassette freely suspended under the ceiling and creates island ceiling soffits. Inside the cassette is glued or magnetically attached topně –cooling device.

The advantage is a comfortable draught-free environment combined with high performance and excellent acoustic properties. In areas with the Spektra O system, no additional radiators or cooling elements are required.

The Radiant Ceiling System Spektra O can be combined with QUELLO systems to achieve even more efficient heating and cooling solutions for your building.

Cooling capacity 101W/^m2 ∆^t 8K / heating 153W/^m2 ∆^t 15K (according to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Softline 4 is suspended under the ceiling and a series of aluminum profiles creates an island ceiling that radiates evenly throughout the space.

The advantage is a comfortable draught-free environment combined with high performance. The structure of Softline 4 aluminium profiles forms an optically interesting ceiling, the advantage of which is high-quality workmanship with several variants of colours and finishes.

In areas with the Softline 4 system, no additional radiators or cooling elements are required.

Power for cooling 132-146W/^m2 ∆^t 10K / heating 120-140W/^m2 ∆^t 15K (According to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Velum is suspended under the ceiling and creates island ceiling visible parts that evenly radiate throughout the space.

The advantage is a comfortable draught-free environment combined with high performance. In areas with the Velum system, no additional radiators or cooling elements are required.

Velum radiant parts can be combined with the Contec system to achieve even more efficient heating and cooling solutions for your building.

Power for cooling 50-80W/^m2 ∆^t 10K / heating 63-92W/^m2 ∆^t 15K (According to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Opti Y is suspended under the ceiling and offers two variants of the product design according to the installation.

The Opti Y system is designed either in a variant for an open (admitted) ceiling or for hidden mounting above standard ceilings.

The advantage is a comfortable draught-free environment in combination with high-quality workmanship, thanks to which high performance is achieved.  Between the aluminum profiles of the Opti Y open system, it is possible to install lighting, smoke detectors, etc.

The whole consists of an optically interesting ceiling, the advantage of which is high-quality workmanship with several variants of colors and finishes.

Thanks to the open ceiling, the Opti Y system can be combined with air conditioning.

Cooling capacity 250W/^m2 ∆^t 10K / heating 120W/^m2 ∆^t 15K (According to EN 140 37)

System for radiant ceiling heating and cooling of spaces. Radiant heating is the most effective way to create a comfortable and pleasant environment in any home.

Reno is a drywall of standard dimensions, in which there is a built-in pipe for the distribution of cold and heat. Reno is designed for a dry construction system with quick assembly suitable especially for renovations.

The installation of the Reno system is similar to that of a standard plasterboard ceiling. However, the boards can not be cut as needed, but it is necessary to make plans for laying in advance. With the Reno system, seamless full-surface or island ceiling soffits can be created.

The advantage is its ease of installation and invisibility in the interior. Because the Reno system is universal, it is not possible to install built-in ceiling components (lighting, audio speakers, shading technology...).

Power for cooling 47 W/^m2 ∆^t 10K / heating 55 W/^m2 ∆^t 15K (According to EN 140 37)

System for ceiling cooling of the premises. Compactline is a cooling beam suspended under the ceiling that removes the heat load from the rooms by cooling the ambient air.

Thanks to the modular technology and variable shape, the cooling beams are suitable for both new buildings and installations in existing buildings.

The Compactline device works on the principle of natural circulation of warm and cooled air. Warm air from the room is sucked into the device from above and flows through the heat exchanger, where it cools, becomes heavier than the air nearby and slowly flows down.

Choice of four product designs in color according to your requirements.

Cooling capacity depends on selected type 87-337W/^m2 ∆^t 8K (According to EN 140 37)

A system for radiant heating and cooling of buildings that uses the accumulation capacity of concrete.

Batiso is a technology placed in the reinforced concrete skeleton of the house in which a tempered topně-cooling medium circulates. It can be placed in ceilings, floors and walls. The skeleton of the house accumulates heat or cold and, with a time delay, radiates it into the living quarters.

The advantage is its maintenance-free system, relatively low investment and invisibility in the interior combined with high thermal comfort.

Designed for new multi-storey buildings with reinforced concrete skeleton and interiors with exposed shackled concrete. Ideal to combine with geothermal sources of thermal energy.

System for heating and cooling of buildings with reinforced concrete skeleton.

Batiso Plus are concrete topně-cooling elements extending the Batiso system (TABS). These are zone elements installed, for example, along the façade. This technology allows you to individually control the temperature in the room.

The advantage is interiors without suspended ceilings, the possibility of temperature control in the room in combination with high thermal comfort.

Designed for new multi-storey buildings with a reinforced concrete skeleton. Ideal to combine with Batiso(TABS) technology.

A system for the integration of air conditioning in the concrete skeleton of buildings.

Batiso Air is a system that allows you to integrate air distribution systems in ceiling concrete structures. The air supply is distributed in this way to the air outlets integrated in the floor. The technology allows the distribution of fresh air into rooms without a ceiling.

The advantage is interiors without suspended ceilings, optimal air distribution in the building, hygienic safety in combination with high thermal comfort.

Designed for new multi-storey buildings with a reinforced concrete skeleton. Ideal to combine with Batiso(TABS) technology.

System for radiant façade heating and cooling. The Faco system is integrated into the columnar structure of the glazed facades. Thanks to this, new possibilities of architectural solutions are opened.

The advantage of the system is its invisibility in the interior and comfortable functionality without any noise.

Tailor-made additional profiles are attached to the individual building elements, which are heated or cooled thanks to the copper pipe introduced inside.

Thanks to the fact that we design the Faco system tailored to a specific façade, it is able to cover the total heat loss of facades and no additional radiators are needed.

System for radiant façade heating and cooling. The Faco system is integrated into the columnar structure of the glazed facades. Thanks to this, new possibilities of architectural solutions are opened.

The advantage of the system is its invisibility in the interior and comfortable functionality without any noise.

Tailor-made additional profiles are attached to the individual building elements, which are heated or cooled thanks to the copper pipe introduced inside.

Thanks to the fact that we design the Faco system tailored to a specific façade, it is able to cover the total heat loss of facades and no additional radiators are needed.

Reducing operating costs and a pleasant environment for your employees.

The penetration of cold or warm air into garage stands or special assembly rooms, where the temperature or even humidity can be controlled year-round, can disproportionately increase operating costs, disrupt the course of work, technological processes and cause health problems for employees.

In these demanding operations, it is necessary to monitor and observe the limits of dust, possibly other chemicals or flying insects.

The air curtain protects against the intrusion of cold or warm air, dust, chemicals, heat losses and drafts.

The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the entrance is regulated by the rate of the dividing air stream in the linear outlet.

Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesipes are to the right and left relative to the entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• preventing the movement of dirt, dust, odors,

insects, special technological gases

• the air curtain does not prevent the free passage, passage or logistics of the goods
• ensuring the required temperature in specialized workplaces
• energy saving

USE:

• entrances, passageways, entrances between zones with different temperatures
• entrances, passageways, entrances from the outdoor environment
• special temperature-controlled assembly plants
• special garage parking spaces

Energy saving, reliable operation and environmental well-being.

The penetration of cold or warm air in the step of commercial buildings, where the temperature is or can be controlled year-round, can disproportionately increase operating costs, disturb the well-being of people and cause health problems for employees.

Our air curtains are characterized by the highest technical know-how and precise design. It does not matter if it is glass, plastic, or marble, integration is possible in any interior. To ensure comfortable temperatures in the entrances and passages, the heating register can be integrated into the air curtain.

The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the inlet or passage shall be controlled by the rate of the dividing air stream in the linear outlet. Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are on the sides of the entrance or passage. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow.

BENEFITS:

• air curtain does not prevent free passage and passage
• efficient and comfortable separation and air conditioning of customer premises
• reducing the risk of spreading odors, dust and flying insects
• prevention of drafts and cold air flow
• possibility of integration into an existing design solution
• optimization of heat losses and energy savings
• maximum customer satisfaction
• more comfortable output environment
• more efficient heating and air conditioning

USE:

• outdoor entrances
• inputs between zones with different temperatures
• shopping centres, supermarkets and supermarkets
• hotels and hotel lobby
• railway stations and airports
• waiting points at airports
• Hospital
• petrol station

Reliable operation and energy saving.

The air curtain reliably separates different environments at different temperatures. The principle of separation of humidity and warm air from temperature-reduced zones is based on three principles:

– Significant reduction of cold leakage from the cooling and freezing box.

– Significant reduction of warm airflow from the zone in front of the freezer and cooling box.

– Avoiding fog on the inner and outer boundary surfaces between separating air currents, depending on partial water vapour pressures.

The performance of the air curtain equipment is determined according to the specifics of the project. It depends on the size of the entrance, entrance or passage and the physical air conditions in the cooled frozen area and the zone in front of it. Two custom-made and precisely positioned veneers ensure optimal direction and speed of the air flow. The positions of the vesite are to the right and left relative to the entrance, passage or entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. Thanks to the reduction of partial pressure of water vapours in the air-conditioned mixing zone, icing or fog is prevented.

BENEFITS:

• reducing the risk of spreading odors, dust and flying insects
• the air curtain does not prevent the free passage, passage or logistics of the goods
• good visibility in freezing rooms
• elimination of icing and fog formation
• maintaining a constant temperature
• energy saving increases operational efficiency
• optimizing the costs of freezing logistics

USE:

• entrances, entrances between zones with different temperatures
• logistics centres
• different types of conveyor routes
• cooling and freezing rooms
• inert operations

Reducing operating costs and a pleasant environment for your employees.

The penetration of cold air into industrial halls disproportionately increases operating costs, disrupts the course of work, technological processes and causes health problems for employees.

The air curtain protects against cold air intrusion, heat losses and drafts. The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the inlet, passage or entry shall be controlled by the rate of the dividing air stream in the linear outlet.

Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are to the right and left relative to the entrance, passage or entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• ensuring the required temperature in specialized workplaces
• prevention of drafts and cold air flow
• reducing the risk of spreading odors, dust and flying insects
• optimization of heat losses and energy savings
• the air curtain does not prevent the free passage, passage or logistics of the goods
• maintains a constant temperature in separate spaces

USE:

• entrances, entrances from the outdoor environment
• entrances, entrances between zones with different temperatures
• industrial halls and passageways
• docking gates and loading ramps
• different types of conveyor routes
• factory halls
• logistics centres

Perfect separation of operations with different demands on air quality.

Unpleasant odions, flying insects or chemical compounds are the cause of deteriorated working conditions, and protective measures against these influences are accompanied by high investments.

Air curtains optimally separate different technological plants from each other so that they do not disturb each other and technological procedures are carried out as efficiently as possible. For example, when used in inert gas plants, they can lead to high savings in fire protection measures.

Air curtains protect against cold air flow, heat losses, drafts and, if necessary, from the intrusion and leakage of flying insects, dust, chemicals or similar clean or contaminated air.

The amount of air required to be retained in the inlet, passage or entry shall be controlled by the rate of the dividing air stream in the linear outlet. The result is optimal separation of zones with different air quality.

Depending on the application and construction situation at the built-in site, two precisely tailor-made veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are on the sides of the entrance, passage or entrance.

The resulting flat flow is directed at the vesier locations in such a way as to prevent flow and ensure the separation of clean and contaminated air. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• preventing the movement of dirt, dust, smells, insects,

special technological gases

• ensures optimal oxygen levels in plants,

where inert gases with high fire protection requirements are worked

• energy saving

USE:

• entrances, entrances from the outdoor environment
• entrances, entrances between zones with different temperatures
• factory and industrial halls and passageways
• docking gates and loading ramps
• logistics centres

Production often generates wastewater around 33°C, which we discharge into the sewer. Waste water heat exchanger – extracts heat from the waste water and preheats the cold water supply water for further use. Because the preheated water is mixed with the hot water, less energy-intensive hot water is needed to achieve the desired temperature of the resulting water.

(35°C – T to 25°C , 55°C – T to 39°C, Q = 0.1l/s -60l/s)

For larger buildings, we have an economical solution for hotels, kitchens, thermal baths, wellness, etc. Cooling water, technological water, wastewater, wastewater with fibers can be used in industry... Ideal for economic savings in operations such as sewage treatment plants, laundries, textile treatment plants, dyeing plants, food industry, distilleries, potato factories, etc.

We also offer solutions that recover heat from exhaust air and gases in flow rates ranging from 3,000 m3/h – 50,000 m3/h. The application is suitable, for example, in hot plants, foundries, varnishes, paper mills, or in plants where flue gases or waste gases are discharged.

Reducing operating costs and a pleasant environment for your employees.

The penetration of cold or warm air into garage stands or special assembly rooms, where the temperature or even humidity can be controlled year-round, can disproportionately increase operating costs, disrupt the course of work, technological processes and cause health problems for employees.

In these demanding operations, it is necessary to monitor and observe the limits of dust, possibly other chemicals or flying insects.

The air curtain protects against the intrusion of cold or warm air, dust, chemicals, heat losses and drafts.

The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the entrance is regulated by the rate of the dividing air stream in the linear outlet.

Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesipes are to the right and left relative to the entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• preventing the movement of dirt, dust, odors,

insects, special technological gases

• the air curtain does not prevent the free passage, passage or logistics of the goods
• ensuring the required temperature in specialized workplaces
• energy saving

USE:

• entrances, passageways, entrances between zones with different temperatures
• entrances, passageways, entrances from the outdoor environment
• special temperature-controlled assembly plants
• special garage parking spaces

Energy saving, reliable operation and environmental well-being.

The penetration of cold or warm air in the step of commercial buildings, where the temperature is or can be controlled year-round, can disproportionately increase operating costs, disturb the well-being of people and cause health problems for employees.

Our air curtains are characterized by the highest technical know-how and precise design. It does not matter if it is glass, plastic, or marble, integration is possible in any interior. To ensure comfortable temperatures in the entrances and passages, the heating register can be integrated into the air curtain.

The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the inlet or passage shall be controlled by the rate of the dividing air stream in the linear outlet. Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are on the sides of the entrance or passage. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow.

BENEFITS:

• air curtain does not prevent free passage and passage
• efficient and comfortable separation and air conditioning of customer premises
• reducing the risk of spreading odors, dust and flying insects
• prevention of drafts and cold air flow
• possibility of integration into an existing design solution
• optimization of heat losses and energy savings
• maximum customer satisfaction
• more comfortable output environment
• more efficient heating and air conditioning

USE:

• outdoor entrances
• inputs between zones with different temperatures
• shopping centres, supermarkets and supermarkets
• hotels and hotel lobby
• railway stations and airports
• waiting points at airports
• Hospital
• petrol station

Reliable operation and energy saving.

The air curtain reliably separates different environments at different temperatures. The principle of separation of humidity and warm air from temperature-reduced zones is based on three principles:

– Significant reduction of cold leakage from the cooling and freezing box.

– Significant reduction of warm airflow from the zone in front of the freezer and cooling box.

– Avoiding fog on the inner and outer boundary surfaces between separating air currents, depending on partial water vapour pressures.

The performance of the air curtain equipment is determined according to the specifics of the project. It depends on the size of the entrance, entrance or passage and the physical air conditions in the cooled frozen area and the zone in front of it. Two custom-made and precisely positioned veneers ensure optimal direction and speed of the air flow. The positions of the vesite are to the right and left relative to the entrance, passage or entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. Thanks to the reduction of partial pressure of water vapours in the air-conditioned mixing zone, icing or fog is prevented.

BENEFITS:

• reducing the risk of spreading odors, dust and flying insects
• the air curtain does not prevent the free passage, passage or logistics of the goods
• good visibility in freezing rooms
• elimination of icing and fog formation
• maintaining a constant temperature
• energy saving increases operational efficiency
• optimizing the costs of freezing logistics

USE:

• entrances, entrances between zones with different temperatures
• logistics centres
• different types of conveyor routes
• cooling and freezing rooms
• inert operations

Reducing operating costs and a pleasant environment for your employees.

The penetration of cold air into industrial halls disproportionately increases operating costs, disrupts the course of work, technological processes and causes health problems for employees.

The air curtain protects against cold air intrusion, heat losses and drafts. The performance of the air curtain equipment is determined according to the specifics of the project. The amount of air required to be retained in the inlet, passage or entry shall be controlled by the rate of the dividing air stream in the linear outlet.

Depending on the application, two precisely tailored veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are to the right and left relative to the entrance, passage or entrance. The resulting flat flow is directed at the vesier positions in such a way as to prevent air flow. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• ensuring the required temperature in specialized workplaces
• prevention of drafts and cold air flow
• reducing the risk of spreading odors, dust and flying insects
• optimization of heat losses and energy savings
• the air curtain does not prevent the free passage, passage or logistics of the goods
• maintains a constant temperature in separate spaces

USE:

• entrances, entrances from the outdoor environment
• entrances, entrances between zones with different temperatures
• industrial halls and passageways
• docking gates and loading ramps
• different types of conveyor routes
• factory halls
• logistics centres

Perfect separation of operations with different demands on air quality.

Unpleasant odions, flying insects or chemical compounds are the cause of deteriorated working conditions, and protective measures against these influences are accompanied by high investments.

Air curtains optimally separate different technological plants from each other so that they do not disturb each other and technological procedures are carried out as efficiently as possible. For example, when used in inert gas plants, they can lead to high savings in fire protection measures.

Air curtains protect against cold air flow, heat losses, drafts and, if necessary, from the intrusion and leakage of flying insects, dust, chemicals or similar clean or contaminated air.

The amount of air required to be retained in the inlet, passage or entry shall be controlled by the rate of the dividing air stream in the linear outlet. The result is optimal separation of zones with different air quality.

Depending on the application and construction situation at the built-in site, two precisely tailor-made veneers ensure the optimal direction and speed of the air flow. The positions of the vesite are on the sides of the entrance, passage or entrance.

The resulting flat flow is directed at the vesier locations in such a way as to prevent flow and ensure the separation of clean and contaminated air. To ensure comfortable temperatures in entrances, entrance passages, the heating register can be integrated.

BENEFITS:

• preventing the movement of dirt, dust, smells, insects,

special technological gases

• ensures optimal oxygen levels in plants,

where inert gases with high fire protection requirements are worked

• energy saving

USE:

• entrances, entrances from the outdoor environment
• entrances, entrances between zones with different temperatures
• factory and industrial halls and passageways
• docking gates and loading ramps
• logistics centres

Production often generates wastewater around 33°C, which we discharge into the sewer. Waste water heat exchanger – extracts heat from the waste water and preheats the cold water supply water for further use. Because the preheated water is mixed with the hot water, less energy-intensive hot water is needed to achieve the desired temperature of the resulting water.

(35°C – T to 25°C , 55°C – T to 39°C, Q = 0.1l/s -60l/s)

For larger buildings, we have an economical solution for hotels, kitchens, thermal baths, wellness, etc. Cooling water, technological water, wastewater, wastewater with fibers can be used in industry... Ideal for economic savings in operations such as sewage treatment plants, laundries, textile treatment plants, dyeing plants, food industry, distilleries, potato factories, etc.

We also offer solutions that recover heat from exhaust air and gases in flow rates ranging from 3,000 m3/h – 50,000 m3/h. The application is suitable, for example, in hot plants, foundries, varnishes, paper mills, or in plants where flue gases or waste gases are discharged.

We offer underfloor heating systems for both new and reconstructed buildings.

Thanks to invisible installations, there is no need to install radiators and unsightly pipes in the room. The slight radiant heat produced by the underfloor heating system heats the air in the room.

With underfloor heating technology, every square centimeter in the room can be thermally activated. However, this advantage applies only in cases where furniture is not placed on the floor. Cabinets, chests of drawers, sofas, kitchen cabinets are large and detract from the necessary power for thermal comfort.

One of the most economical ways to supply energy to underfloor heating is to use one of our primary energy sources. All radiant heating and cooling solutions operate as low-temperature solutions and therefore consume less energy than most other solutions.

In our offer there are floor systems in the thickness range from 14mm, which are ideal for reconstructions.

We offer underfloor heating systems for both new and reconstructed buildings.

Thanks to invisible installations, there is no need to install radiators and unsightly pipes in the room. The slight radiant heat produced by the underfloor heating system heats the air in the room.

With underfloor heating technology, every square centimeter in the room can be thermally activated. However, this advantage applies only in cases where furniture is not placed on the floor. Cabinets, chests of drawers, sofas, kitchen cabinets are large and detract from the necessary power for thermal comfort.

One of the most economical ways to supply energy to underfloor heating is to use one of our primary energy sources. All radiant heating and cooling solutions operate as low-temperature solutions and therefore consume less energy than most other solutions.

In our offer there are floor systems in the thickness range from 14mm, which are ideal for reconstructions.