EN
D E R K A M I N S P E Z I A L I S T
Hoxter Company
Hoxter benefi ts
Fireplaces
Water-bearing fi replaces
Storage heaters
Accessories
Technical data
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The polar bear is a true heat management specialist. The bear stores the energy from consumed food so that it may use it effi ciently later. The animal has suffi cient physical fi tness for withstanding adverse conditions.
The polar bear is the symbol and holder of Hoxter values. The animal achieves its goals with immense perseverance, adapts to the existing conditions, and is able to manage thermal energy perfectly.
Heat specialist
Symbol of Hoxter values
Hoxter Company
We understand our jobWe have become specialists in our field thanks to many years of experience in development, designing, and manufacturing our products. The values we have created so far, motivate us for further design work and further improve the standing of our products among the best in the field. We are proud of the fact that our innovative solutions also contribute to the development of the whole fireplace and stove
Practice proves to be the best designerThe idea to create quality and functional fireboxes for prices that are accessible to the general public was conceived a couple of years ago. Meanwhile, we have been listening carefully to our customers and the products thus have gone through many changes and smart innovations. Technical development still plays a major role in our business.
Workmanship quality is as important as the quality of used materialsWe take responsibility for our products. That is why we also tend to establish cooperation with responsible suppliers and coworkers. We focus on work results and we successfully meet our pre-planned goals. That is why Hoxter products meet the highest quality requirements and offer maximum convenience during operation.
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6 Hoxter Company
Production organisationLong-term experience in individual production processes is the basis for the creation of our
own sophisticated system, which intertwines through and controls the whole production.
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8 Hoxter benefits
Real comfort is when the glass of your fireplace cleans itself
The double glazing of the door improves insulation properties of the door. It also decreases the amount of the heat emitted through the external glass. In the case of smaller rooms, this helps to prevent their possible overheating. At the same time, the temperature in the hearth is increased, which helps to improve the cleanliness of the external glass.
Double glazing
Upward-sliding doorThe door slides upward when it is opened and thus it does not interfere with the dwelling space. There are eight thermally resistant bearings securing light operation of the whole mechanism. First, the door is pulled back from the firebox body in order to prevent seal wear during subsequent upward motion.
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Clean burning Bringing air to the right place in the hearth ensures good burning quality and clean external glass.Preheated air flows past the glass and creates a screen preventing fouling of the glass by soot and dust. To maximize this effect there are adjustable control elements regulating the ratio of the air introduced into the hearth.
Full control of fireThe hearth is perfectly sealed in order to prevent disturbance to the efficient combustion by an uncontrolled air flow. A special door and door seal shape secure resistance to high operating temperatures and guarantee stability of the seal between the body and the door.
More heat with less fuel
10 Hoxter benefits
Environmentally friendly operationThe operation of our products as well as their production and the used materials are fully environmentally friendly. Our activities intentionally support environmentally friendly heating. All Hoxter products meet all required European emission standards.
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Supply of combustion air from outside
Grateless combustion technology
Hoxter products are commonly fitted for connecting of exterior combustion air. In this way, oxygen from the room is not burnt and heat is not exhausted from the room. As a result, the dwelling space is completely cut off from the combustion process.
This technology allows complete combustion of fuel and thus increases combustion efficiency. In this way, the amount of combustion waste is substantially reduced and the time between regular maintenance actions is increased. A small amount of fine dust in the hearth is beneficial for further combustion.
Easy controlsWhen designing and selecting materials, prevention of over heating during operation is taken into account. Still, their shapes and operation movements remain natural and intuitive.
FireplacesHot-air fi replace principleHot fl ues from the hearth heat up the heat exchanger with large heating areas. The steel heat exchanger further heats up the surrounding air, which rises to the top of the fi replace, where the hot air fl ows into the room through a grille. At the bottom of the fi replace, colder air from the room fl ows inside to be heated again by the exchanger. Almost immediately after making a fi re, circulation of warm and cold air in the room is established.
Hot air
Heat emission over glass
Cold air
Hot air exchanger
Inlet of combustion air
12 Fireplaces
Inlet of combustion air
Heat emission
Storage fi replace principleIn this case hot fl ues from the hearth fl ow through the storage exchanger, which slowly absorbs the heat from the fl ues. The storage exchanger is made of heavy materials able to store heat energy. The heat stored in the heat exchanger keeps penetrating into the fi replace wall a long time after the fi re has died down. The fi replace wall is thus heated up and emits the heat further into the room. Some of the properties of thermal radiation are similar to the effects of solar radiation. The storage exchanger may be placed next to a fi replace insert connected by a cast iron cupola or it may be placed directly on the fi re insert in the version with a cast iron adapting piece.
Adaptor for accumulation rings
Inlet of combustion air
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Cupola for accumulation channel
Heat emission
over glass
HAKA 37/50 Heat output range 6,3 – 11,7 kW
Nominal heat output 9 kW
Opening to the side with hinges on the left or right
Single or double glazing of the door
14 Fireplaces
Available variants
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HAKA 63/51
16 Fireplaces
Heat output range 9,1 – 16,9 kW
Nominal heat output 13 kW
Opening to the side with hinges on the left or right
Single or double glazing of the door
Available variants
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Available variants
HAKA 67/51
18 Fireplaces
Heat output range 8,4 – 15,6 kW
Nominal heat output 12 kW
Opening sliding upwards
Single or double glazing of the door
Available variants
HAKA 89/45
20 Fireplaces
Heat output range 8,4 – 15,6 kW
Nominal heat output 12 kW
Opening sliding upwards
Single or double glazing of the door
Built-in hot-air exchanger
ECKA 67/45/51
22 Fireplaces
Heat output range 8,4 – 15,6 kW
Nominal heat output 12 kW
Opening sliding upwards
Single glazing of the door
Available variants
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Water-bearing fi replaces
Storage tank
Inlet of combustion air
Water-bearing fi replace principleHot fl ues from the hearth pass through a tubular or ribbed hot-water exchanger placed above the hearth. The remaining part of the heat exchanger is at the same time built in all parts of the hearth. In the exchanger, the heat from hot fl ues is transferred into water which is diverted to the storage tank.Hot water is stored in the storage tank and is used for heating of service water, radiators or fl oor heating. Colder water from the bottom of the storage tank fl ows back again into the hot-water exchanger.
Tubular hot-water exchanger
Heat emission
over glass
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Safe operationSafe operation of hot-water fireplace inserts is secured by a built-in cooling loop together with a thermostatic valve. If an excessively high temperature exceeding 95° C is reached in the exchanger, the thermostatic valve opens and feeds cold water from the water main into the loop. The water flowing in the loop cools down the hot-water exchanger, decreasing the temperature to operation levels of 60 – 80°C.
Guaranteed rigidity of the bodyHot-water fireplace inserts perform the full function of a hot-water boiler and therefore they are subject to similar safety criteria.By simulating pressure loading of the body, characteristics of the fireplace inserts in limiting situations are ascertained and rating of safety elements is designed.It is another level of safety we offer to our customers.
Efficient transfer of energy in the heat exchangerExchanger design has a profound effect on its future operability and efficiency. Before a product is launched onto the market, water flow in the exchanger is simulated and adjusted so that the exchanger transfers the maximum output into water.
Models in versionOutput+ Some of the hot-water inserts are available in Output+ versions.These products are adjusted to cope with larger fuel loads. When greater fuel loads are provided, the hearth produces greater amount of heat energy, which is transferred into water in a tubular exchanger.
HAKA 37/50W
26 Water-bearing fireplaces
A version without insulation of heat exchanger
Heat output range 5,6 – 10,4 kW
Nominal heat output 8 kW Ratio of heat transfer into water 5,6 kW (70 %)
Opening to the side with hinges on the left or right
A version with insulation of heat exchange
Heat output range 5,6 – 10,4 kW
Nominal heat output 8 kW Ratio of heat transfer into water 6,4 kW (80 %)
Opening to the side with hinges on the left or right
HAKA 63/51W A version without insulation of heat exchanger
Heat output range 10,5 – 19,5 kW
Nominal heat output 15 kW Ratio of heat transfer into water 10 kW (65 %)
Opening to the side with hinges on the left or right
Double glazing of the door
Also available in Výkon+ version
A version with insulation of heat exchange
Heat output range 10,5 – 19,5 kW
Nominal heat output 15 kW Ratio of heat transfer into water 11,3 kW (75 %)
Opening to the side with hinges on the left or right
Double glazing of the door
Also available in Výkon+ version
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A version with insulation of heat exchange
Heat output range 10,5 – 19,5 kW
Nominal heat output 15 kW Ratio of heat transfer into water 11,3 kW (75 %)
Opening to the side with hinges on the left or right
Double glazing of the door
Also available in Výkon+ version
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HAKA 63/51W
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Rear fuel feed
The second fi xed door built in the rear wall of the hearth is used for operation of the hearth from the room located behind the fi replace. This practical solution is particularly recommended for more frequent and more intensive fuel adding in a water fi replace.
A version with a see-through glazing (Tunnel)
Heat output range 11,6 – 21,5 kW
Nominal heat output 16,5 kW Ratio of heat transfer into water 10,5 kW (65 %)
Opening to the side with hinges on the left or right
Double glazing of the door
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A version with a see-through glazing (Tunnel)
Heat output range 11,6 – 21,5 kW
Nominal heat output 16,5 kW Ratio of heat transfer into water 10,5 kW (65 %)
Opening to the side with hinges on the left or right
Double glazing of the door
HAKA 67/38W Heat output range 10,2 – 18,9 kW
Nominal heat output 14,5 kW Ratio of heat transfer into water 9,5 kW (65 %)
Opening to the side with hinges on the left or right
Double glazing of the door
32 Water-bearing fireplaces
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HAKA 89/45W
34 Water-bearing fireplaces
Heat output range 9,8 – 18,2 kW
Nominal heat output 14 kW Ratio of heat transfer into water 10,2 kW (72 %)
Opening sliding upwards
Double glazing of the door
Also available in Výkon+ version
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ECKA 67/45/51W
36 Water-bearing fireplaces
Heat output range 9,1 – 16,9 kW
Nominal heat output 13 kW Ratio of heat transfer into water 7,8 kW (60 %)
Opening sliding upwards
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Storage heaters
Hot fl ues fl ow from an individually built hearth via the storage draught system. Thanks to its substantial weight and material structure, the storage hearth with a draught system absorbs a large amount of heat from hot fl ues. The stored heat is later evenly released into the stove jacket for as much as twelve hours. During this time, the stove jacket further emits the heat in the form of radiation into the room. Some of the properties of thermal radiation are similar to the effects of solar radiation. The storage stove thus offers healthy heat without frequent fuel replenishment .
Inlet of combustion air
Storage heaters principle
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Heat emission
Heat emission
over glass
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Storage heater doorGT
40 Storage heaters
Robust designThe hearth of the storage stove creates a large amount of heat and the whole heating apparatus is subject to great thermal strain. The robust design and the construction of the GT stove door guarantees full operability even at high operation temperatures of the storage stove. In order to secure stability and the door during operation there are adjustable feet to be screwed to the fl oor. By tightening the door to the hearth using the prepared lugs, we acquire the required sealing of the hearth.
GT 37/50 Double glazing of the door
Maximum fuel load 15 kg
GT 63/51 Double glazing of the door
Maximum fuel load 20 kg
GT 67/38 Double glazing of the door
Maximum fuel load 20 kg
Cover and building framesCover and building frames are available for all Hoxter products and they
facilitate practical and surface building in of products in interiors. Cover
and building frames are offered in black and stainless versions.
Cover frame four sites 1 x 90°
Cover frame four sites 2 x 45°
Build-on frame four sites 50 mm
Accessories
42 Accessories
Storage heat accumulaterHot fl ues fl ow through storage rings, which absorb heat. The heat stored in this way is gradually
released by radiation into the surrounding fi replace walls. The fi replace walls then radiate the heat
further into the room even several hours after the fi re died down. This is a more effi cient way
of management of a great amount of heat, which is created during combustion in a short interval.
Some of the properties of heat radiation are comparable to solar radiation.
Two-piece storage ringThe limiting operation temperature is 1000° C, therefore it is recommended that it be placed as close as possible to the hearth. The weight of the two-piece ring is 22kg.
Single-piece storage ringThe limiting operation temperature is 700° C.The weight of the single-piece ring is 25kg.
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The inspection door called “Invisible” is fully operational during inspection and maintenance of the apparatus and at the same time when it is closed it is completely flush with the adjacent wall surface. The door has the same surface finish as the adjacent wall and owing to a sophisticated mechanism of opening, no visible handle is necessary. The used materials and the stable construction of the door guarantees operability at high operation temperatures reached in fireplaces and stoves.
Invisible 220 x 444 mm
Invisible 444 x 444 mm
44 Accessories
Inspection door
Automatic regulationAutomatic combustion regulation Abra 18 offers a comprehensive solution for the heating system.The regulation includes a display used for controlling and communication. The control unit receives entry values from temperature sensors and based on them controls several components at the same time. A motor-operated fl ap regulating the amount of air for combustion and a door contact informing the regulation device of opening and closing of the door when fuel is added.
Basic functionsOne of the functions is the regulation of combustion based on combustion temperature in the hearth. Combustion is regulated so as to secure the best effi ciency and thus to lower fuel consumption. Abra regulation unit is suitable in particular for all hot-water products. Based on temperatures in the exchanger and the storage tank, it controls the circuit pump in the primary system, which interconnects the hot-water exchanger with the storage tank. Another function is the indication of free capacity in the storage tank and controlling of the pump of the secondary system distributing heat around the whole house.
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One of the functions is the regulation of combustion based on combustion temperature in the hearth. Combustion is regulated so as to secure the best effi ciency and thus to lower fuel consumption. Abra regulation unit is suitable in particular for all hot-water products. Based on temperatures
the primary system, which interconnects the hot-water exchanger with the storage tank. Another function is the indication of free capacity in the storage tank and controlling of the pump of the secondary system
Tem
pera
ture
Time
Curve of nonregulated combustion
Curve of regulated combustion
Technical data
46 Technical data
HAKA 89/45Wh+
HAKA Fireplace insert with flat glass
ECKA Fireplace insert with corner glass
GT Storage heater door
+ Product adjusted for greater fuel loads
h top lift
T see-through fireplace insert
a rear fuel feed
W hot-water heat exchanger
WI hot-water heat exchanger and insulation
89/45 (HAKA, GT) door width / height
67/45/51 (ECKA) door width / side width / height
HAKA 37/50 hot air exchanger
Nominal heat output ........................................... 9 kWFuel consumption .......................................... 2,5 kg/hEffi ciency ............................................................ 81 %Flue pipe outlet .......................................... Ø 200 mmInlet of combustion air ............................... Ø 125 mm
HAKA 37/50 cupola
Batch of fuel ......................................................4,5 kgFlue gas temperature ...................................... 383° CFlue gas mass fl ow ........................................... 15 g/sFlue pipe outlet .......................................... Ø 180 mmInlet of combustion air ............................... Ø 125 mm
HAKA 63/51hot air exchanger
Nominal heat output ..........................................13 kWFuel consumption .......................................... 3,8 kg/hEffi ciency ........................................................... 80 %Flue pipe outlet .......................................... Ø 200 mmInlet of combustion air ............................... Ø 125 mm
HAKA 63/51 cupola
Batch of fuel ........................................................ 6 kgFlue gas temperature ...................................... 408° CFlue gas mass fl ow .......................................... 20 g/sFlue pipe outlet .......................................... Ø 180 mmInlet of combustion air ............................... Ø 125 mm
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HAKA 67/51hhot air exchanger
Nominal heat output ......................................... 12 kWFuel consumption .......................................... 3,5 kg/hEffi ciency ............................................................ 80 %Flue pipe outlet .......................................... Ø 180 mmInlet of combustion air ............................... Ø 125 mm
HAKA 67/51h cupola
Batch of fuel ....................................................... 5 kgFlue gas temperature ...................................... 382° CFlue gas mass fl ow .......................................... 17 g/sFlue pipe outlet .......................................... Ø 180 mmInlet of combustion air ............................... Ø 125 mm
ECKA 67/45/51Rhhot air exchanger
Nominal heat output ..........................................12 kWFuel consumption .......................................... 3,5 kg/hEffi ciency ........................................................... 81 %Flue pipe outlet ......................................... Ø 200 mmInlet of combustion air ............................... Ø 125 mm
ECKA 67/45/51Lhhot air exchanger
Nominal heat output ..........................................12 kWFuel consumption .......................................... 3,5 kg/hEffi ciency ........................................................... 81 %Flue pipe outlet ......................................... Ø 200 mmInlet of combustion air ............................... Ø 125 mm
ECKA 67/45/51Rhcupola
Batch of fuel .................................................... 5,5 kgFlue gas temperature ...................................... 335° CFlue gas mass fl ow ........................................ 14,3 g/sFlue pipe outlet .......................................... Ø 180 mmInlet of combustion airu ............................. Ø 125 mm
HAKA 89/45hHot air working Nominal heat outputn ....................................... 12 kWFuel consumption .......................................... 3,6 kg/hEffi ciency ........................................................... 80 %
Accumulation working Batch of fuel ..................................................... 5,5 kgFlue gas temperature ...................................... 430° CFlue gas mass fl ow ........................................... 18 g/s
48 Technical data
ECKA 67/45/51Lhcupola
Batch of fuel ...................................................... 5,5 kgFlue gas temperature ....................................... 335° CFlue gas mass fl ow ........................................ 14,3 g/sFlue pipe outlet .......................................... Ø 180 mmInlet of combustion air ................................ Ø 125 mm
HAKA 37/50W
Nominal heat output ........................................... 8 kWRatio of heat transfer into water ....................... 5,6 kWFuel consumption .......................................... 2,2 kg/hEffi ciency ............................................................ 89 %Recommended storage tank ........................... > 300 l
HAKA 37/50WINominal heat output ........................................... 8 kWRatio of heat transfer into water ...................... 6,4 kWFuel consumption .......................................... 2,2 kg/hEffi ciency ............................................................ 89 %Recommended storage tank ........................... > 300 l
HAKA 63/51WNominal heat output ......................................... 15 kWRatio of heat transfer into water ....................... 10 kWFuel consumption ............................................. 4 kg/hEffi ciency ............................................................ 85 %Recommended storage tank ........................... > 750 l
HAKA 63/51WI Nominal heat output ......................................... 15 kWRatio of heat transfer into water .................... 11,3 kWFuel consumption ............................................. 4 kg/hEffi ciency ............................................................ 85 %Recommended storage tank ........................... > 750 l
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HAKA 63/51WI+
Nominal heat output ........................................... 22 kWRatio of heat transfer into water ...................... 15,4 kWFuel consumption ............................................... 6 kg/hEffi ciency ............................................................. 84 %Recommended storage tank ........................... > 1000 l
HAKA 63/51WT
Nominal heat output ........................................ 16,5 kWRatio of heat transfer into water ...................... 10,5 kWFuel consumption ........................................... 4,4 kg/hEffi ciency ............................................................. 88 %Recommended storage tank ............................ > 750 l
HAKA 67/38W
Nominal heat output ........................................ 14,5 kWRatio of heat transfer into water ........................ 9,5 kWFuel consumption .............................................. 4 kg/hEffi ciency ............................................................ 84 %Recommended storage tank ............................. > 750 l
HAKA 89/45Wh
Nominal heat output .......................................... 14 kWRatio of heat transfer into water ...................... 10,2 kWFuel consumption ........................................... 3,7 kg/hEffi ciency ............................................................. 87 %Recommended storage tank ............................. > 750 l
HAKA 63/51W+
Nominal heat output ........................................... 22 kWRatio of heat transfer into water ....................... 13,2 kWFuel consumption ............................................... 6 kg/hEffi ciency .............................................................. 84 %Recommended storage tank ........................... > 1000 l
50 Technical data
HAKA 89/45Wh+
Nominal heat output ....................................... 22 kWRatio of heat transfer into water ................... 15,1 kWFuel consumption ........................................... 6 kg/hEffi ciency .......................................................... 85 %Recommended storage tank ........................ > 1000 l
ECKA 67/45/51WLhNominal heat output ....................................... 13 kWRatio of heat transfer into water ..................... 7,8 kWFuel consumption ........................................ 3,5 kg/hEffi ciency .......................................................... 86 %Recommended storage tank ......................... > 500 l
GT 37/50
Free cross-section of combustion air inlet .... 165 cm2
Maximální dávka paliva .................................... 15 kg
GT 63/51
Free cross-section of combustion air inlet .... 230 cm2
Max. batch of fuel ............................................ 20 kg
GT 67/38
Free cross-section of combustion air inlet .... 230 cm2
Max. batch of fuel ........................................... 20 kg
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08/2012
HOXTER gmbhKirchgasse 1
91217 HersbruckGermany
D E R K A M I N S P E Z I A L I S T