NL2013190B1 - Fireplace. - Google Patents

Abstract

The present invention relates to a fireplace, in particular for gas, at least comprising a combustion space formed by a rear wall, a bottom wall, a top wall and two side walls, which combustion space can be closed on a first, front open side by means of an at least partially transparent panel, gas supply means for supplying combustion gas to fire bed simulation means into the combustion space; igniting means for igniting the combustion gas in the combustion space; and a flue gas discharge channel connecting to the combustion space for discharging combustion mug gases from the combustion space.

Description

Short description: Fireplace.

DESCRIPTION

The present invention relates to a fireplace, in particular for gas, at least comprising a combustion space, gas supply means for supplying combustion gas into the combustion space to fire bed simulation means arranged in the combustion space; igniting means for igniting the combustion gas in the combustion space; and a flue gas discharge channel connecting to the combustion space for discharging combustion flue gases from the combustion space.

Various types of fireplaces, in particular atmospheric fireplaces, are known, many of these fireplaces can be used as built-in fire or as a preposition fire. Such atmospheric fireplaces are suitable for burning gas, wood or other natural fuels. An atmospheric fireplace, for example known from EP1659340A2, attempts to display a fire image that is as realistic as possible and is characterized by fire bed simulation means which are constructed as imitation wood blocks that are provided with light elements. The light elements present in the imitation logs radiate light, which suggests that the imitation log is burning. Such atmospheric fireplaces, in which the fire image is only simulated on the basis of light elements, however, show a non-realistic representation of a fire impression.

Other atmospheric fireplaces are known, with imitation logs above a real fire bed. This fire bed is realized with the aid of gas supply means, which ignite gas along and around the imitation logs. This creates the impression that the imitation logs are actually burning.

The problem with such gas fires, however, is that a relatively high gas supply is required to realize a fire and flame bed of sufficient size to create a realistic fire impression. Because of this a lot of heat and energy is lost. Since the primary purpose of a decorative fire is to imitate a fire bed and therefore to create a fire impression, and to create heat only a secondary purpose, it is desirable that a gas fire has a minimal gas or energy consumption.

It is therefore an object of the present invention to provide a fireplace according to the above introduction, which on the one hand is suitable for displaying a realistic fire impression when using a minimal amount of natural fuel.

According to the invention, the gas supply means comprise at least one flat mesh burner arranged horizontally in the combustion space. As a result, in addition to a more realistic fire impression, considerably lower gas consumption is also achieved.

More in particular, the fire bed simulation means comprise at least one element made of a ceramic material and formed as a wooden block, the circumferential dimensions of which are at least equal to the circumferential dimensions of the at least one flat bait burner.

For an operationally safe and friendly placement of the element made of a ceramic material and formed as a wood block in the combustion space, the at least one flat mesh burner is provided with coupling elements which co-operate with the ceramic material which can be placed on the flat mesh burner and manufactured and element shaped like a log.

The coupling elements can herein be formed as a plurality of upright ceramic or metal pins, which pins can be received in corresponding openings made of a ceramic material and formed as a wooden block.

To create a more realistic fire impression, according to a further aspect of the invention, the flame bed of the flat mesh burner occupies the entire surface of the mesh burner, while in another aspect the flame bed of the flat mesh burner occupies part of the surface of the mesh burner .

For the safe operation of the gas fireplace according to the invention, the flat mesh burner is provided with a flame protection device, in particular on the basis of ionization protection. The flame protection device cooperates with the mesh of the flat mesh burner. The mesh therefore not only provides a more realistic fire image, but also ensures a safe functioning of the gas fire, so that dangerous operating situations are prevented.

The invention also relates to a fireplace, in particular for gas, at least comprising a combustion space, gas supply means for supplying combustion gas into the combustion space to fire bed simulation means arranged in the combustion space; igniting means for igniting the combustion gas in the combustion space; and a flue gas discharge channel connecting to the combustion space for discharging combustion flue gases from the combustion space, wherein the gas supply means comprise at least one restriction element which is provided with means for adjusting the supply of air to the gas.

This makes it possible to adjust the fireplace specifically to a specific type of gas, whereby on the one hand the gas consumption is more controllable, but whereby the fireplace can also generate and present the most optimal flame image.

According to an aspect of the invention, the restriction element is provided with an adjustable air passage opening.

The restriction element herein comprises a tube part, which is provided with a first opening and a casing tube arranged around the tube part, which tube is provided with a second opening, which at least partially overlaps the first opening. The supply of air to the gas can thus be adjusted by rotating the casing part in order to obtain an optimum gas-air mixture for the fire in question.

In a first embodiment, the first and second opening can have the same diameter, while in another embodiment the first opening has a larger diameter than the second opening.

The invention will now be explained in more detail with reference to a drawing, which drawing successively shows in:

Figure 1 shows a first embodiment of a decorative fire according to the invention;

Figure 2 shows a further embodiment of a decorative fire according to the invention;

Figure 3 shows another view of the embodiment of Figure 1;

Figure 4 is a detailed view of an embodiment of a decorative fire according to the invention.

For a better understanding of the invention, the corresponding parts shown in the various figures are indicated in the following figure description with identical reference numerals.

Figure 1 shows an embodiment of a fireplace according to the invention. In particular, the burner system of a fireplace is shown as it is arranged in the combustion space of the fireplace.

In general, a decorative fire is formed by a house made up of side walls, a bottom wall, a front wall and a rear wall. The front wall is often transparent and can also be swiveled away or slid away for maintenance. The front, bottom, back and side walls enclose a fire space in which the fire bed simulation means, generally indicated with reference numeral 10, are included. The fire bed simulation means 10 are adapted to simulate a fire image and all relevant parts are mounted on a bottom plate which forms part of the bottom wall of the combustion space.

As shown in figures 1 and 2, the fireplace is provided with gas supply means 12 which are connected to a gas supply line (not shown). The gas supply means 12 are provided with a distribution line 12a which distributes the gas supplied via the gas supply 12 over (in Figure 1) four sub-lines 13a-13d on which each an injection element 14a-14d is mounted.

The injection element 14a-14d ensures a good gas-air mixture, which mixture is then led via the line 15a-15d to an ignition opening (not shown) from which the gas-air mixture is ignited.

The supplied gas-air mixture which is supplied via the lines 15a-15d can be ignited locally with gas-igniting means, which in figure 1 is designated by reference numeral 20.

The combustion flue gases can be discharged from the combustion space via a smoke discharge channel (not shown).

At the location where the supplied gas-air mixture is ignited, fire bed simulation means 16a-16b'-16b '-16c-16d are arranged, which are designed as an imitation wood block. Other simulation means are also conceivable, wherein all forms of simulation means fall under the inventive concept of the present application.

The fire bed simulation means 16a-16d are, for example, formed as a simulation wood block made of a ceramic material and simulate a fire image similar to burning wood in conventional firewood.

Since the decorative fire has the primary purpose of giving a realistic fire image and not - as with conventional fireplaces - is intended for releasing heat to its environment, it is desirable that with a decorative fire such a realistic fire image is created with a minimal use of gas.

However, with a lower gas consumption (read: gas supply to the combustion space via the gas supply 12), fewer flames also result, so that a less realistic fire image is obtained. However, the fire bed simulation means 16a-16d attempt to enhance the fire image by simulating burning logs. In order to be able to create a realistic fire image even with lower gas consumption, at least one flat mesh burner 17 is arranged in the combustion space. This flat mesh burner 17 creates a flat flame image that can simulate a bed of glowing coals together with an imitation wood block (not shown) made of ceramic material that is positioned on top of the flat gas fireplace 17.

As is clearly shown, the flat gas burner 17 is connected to the gas supply line 12a via the partial line 13c-14c (in Figure 2 by means of partial line 13b-14b) and the flat mesh burner 17 is partly provided with a mesh mat 171.

The dimensions of the flat mesh burner 17 are such that they correspond to the external dimensions of an imitation wood block made of ceramic material that can be positioned on top of the mesh burner 17. To this end, the mesh burner 17 is provided with coupling elements 18, which in this exemplary embodiment are designed as upright ceramic or metal pins, which can be received in corresponding openings arranged in an element made of a ceramic material and formed as an imitation wood block.

Figure 3 shows the embodiment of a gas fireplace as shown in Figure 1, wherein an element 16c made of a ceramic material and formed as an imitation wood block is placed on the flat mesh burner, such that the element 16c is mounted on the coupling elements 18 (ceramic or metal pins). ).

For an effective and rapid but above all safe ignition of the gas-air mixture which is supplied to the flat mesh burner, the flat mesh burner 17 is provided with ignition means 20, preferably designed as a piezo ignition.

As an additional protection, a flame protection device 19 is arranged near the flat mesh burner 17 which monitors the presence of flames on the basis of ionization protection and ensures that the gas supply to the then non-burning flat mesh burner 17 is prevented from extinguishing the flame from the flat mesh burner 17. interrupted. The ionization-based flame protection consists of applying an alternating voltage signal between, on the one hand, an electrode 191 of the flame-protection device 19 and the mesh mat 171 of the flat mesh burner 17. If the flat mesh burner 17 is ignited, the flame image and ionization will cause the between the mesh mat 171 and the alternating voltage applied to the electrode 191 are converted to a direct voltage or rectification. If the combustion is canceled due to unforeseen circumstances, for example due to the blowing out of the flame, the flame protection device will ensure that the gas supply is shut off.

Figure 4 shows another embodiment of a fireplace according to the prior art. More specifically, Figure 4 shows a detailed view of a component of the gas supply system for such a fireplace. In particular, Figure 4 shows a detail of the injection or restriction element which is designated in Figures 1, 2 and 3 with the reference numeral 14a-14d. In figure 4 the injection element is now generally indicated by reference numeral 14 without the suffix a-d. This also applies to the partial pipe 13 and the pipe 15.

As shown in figure 4, the injection element 14 is coupled by means of the sub-line 13 to the central gas supply line 12a connected to the gas supply means 12 (not shown).

The injection element 14 is connected to a conduit 15 which functions as a supply conduit for the gas-air mixture in the direction of the ignition opening (not shown) at the location of the fire simulation means 16a-16b'-16b '-16c-16d.

The injection element 14 allows a further saving in gas consumption through the specific venturi construction in combination with an air supply adjusting mechanism.

The injection or restriction element 14 is made up of a hollow housing 140 which is on the one hand coupled to the partial pipe 13. The housing 140 is provided with a central bore 141 which has different diameters in the direction of the venturi opening 142. The gas is supplied via the manifold 12a through the manifold 13 in the direction of the venturi opening 142 and thereby flows through the housing 140 which has a widest diameter which is designated by reference numeral 141 '. This widest diameter 141 "changes into a narrower diameter 141" which in turn narrows at the reference numeral 141 "into the venturi aperture 142. The venturi aperture 142 has the smallest diameter aperture.

The venturi opening 142 extends into a tube part 150 which is provided with an end flange 152 which is clamped around the housing 141 and thereby supports against an upright collar edge 153 of the housing. The tube part 150 is further coupled to the line 15, which leads to the ignition opening (not shown) for the gas-air mixture at the location of the fire simulation means 16a-16d. The tube part 150 is provided with an opening 151 which is located at the location of the venturi opening 142.

Arranged around the tube part 150 is a casing tube 143 which has an inner diameter that is substantially equal to the outer diameter of the tube part 150. The casing tube 143 is rotatably arranged around the tube part 150 and thereby rests against the flange end 152. The casing tube 143 is provided of an opening with a screw thread in which an adjusting screw 144 is received. Furthermore, the envelope tube 143 is provided with an opening 145 which at least partially coincides with the opening 151 in the tube part 150.

In the embodiment as shown in Figure 4, the opening 145 in the casing tube 143 is smaller than the opening 151 in the tube part 150. However, in another embodiment, the two openings 145 and 151 can have the same diameter.

By rotating the casing tube 143 around the tube part 150, the flow of air through the combined opening formed by the openings 145 and 151 can be varied and thereby also the composition of the gas-air mixture that is led through the line 15 in the direction of the ignition position.

By adjusting the casing tube 143 around the tube part 150, the air supply and therefore the flame image in the fireplace can be adjusted. The casing tube 143 can be fixed in a specific adjustment with the aid of the set screw 144. This makes it possible to make (and adjust) the gas fire easily for different types of gas mixtures. In particular, the simple adjustment of the injection or restriction element 14 makes the fireplace suitable for burning high-calorific gas (type G20) or low-calorific gas (type G25).

Claims (19)

1. Fireplace, in particular for gas, at least comprising a combustion space, gas supply means for supplying combustion gas into the combustion space to fire bed simulation means arranged in the combustion space; igniting means for igniting the combustion gas in the combustion space; and a flue gas discharge channel connecting to the combustion space for discharging combustion flue gases from the combustion space, wherein the gas supply means comprise at least one flat mesh burner arranged horizontally in the combustion space. 2. Fireplace as claimed in claim 1, characterized in that the fire bed simulation means comprise at least one element manufactured from a ceramic material and shaped as a wooden block, the circumferential dimensions of which are at least equal to the circumferential dimensions of the at least one flat bait burner. 3. Fireplace as claimed in claim 2, characterized in that the at least one flat mesh burner is provided with coupling elements which cooperate with the element which can be placed on the flat mesh burner and is made of a ceramic material and shaped as a wooden block. 4. Fireplace as claimed in claim 3, characterized in that the coupling elements are formed as a plurality of upright ceramic or metal pins, which pins can be received in corresponding openings made of a ceramic material and formed as a wooden block. 5. Fireplace according to one or more of the preceding claims, characterized in that the flame bed of the flat mesh burner takes up the entire surface of the mesh burner. Fireplace according to one or more of the preceding claims, characterized in that the flame bed of the flat mesh burner takes up a part of the surface of the mesh burner. 7. Fireplace according to one or more of the preceding claims, characterized in that the flat mesh burner is provided with a flame protection device, in particular on the basis of ionization protection. 8. Fireplace as claimed in claim 7, characterized in that the flame protection device cooperates with the mesh of the flat mesh burner. Fireplace according to one or more of the preceding claims, characterized in that the gas supply means comprise at least one restriction element. 10. Fireplace as claimed in claim 9, characterized in that the restriction element is provided with means for adjusting the supply of air to the gas. 11. Fireplace as claimed in claim 10, characterized in that the restriction element is provided with an adjustable air passage opening. 12. Fireplace as claimed in claim 10 or 11, characterized in that the restriction element comprises a tube part which is provided with a first opening and an envelope tube arranged around the tube part and which is provided with an at least partially overlapping the first opening , second opening. Fireplace according to claim 12, characterized in that the first and second opening have the same diameter. 14. Fireplace according to claim 12, characterized in that the first opening has a larger diameter than the second opening. Fireplace, in particular for gas, at least comprising a combustion space, gas supply means for supplying combustion gas into the combustion space to fire bed simulation means arranged in the combustion space; igniting means for igniting the combustion gas in the combustion space; and a flue gas discharge channel connecting to the combustion space for discharging combustion flue gases from the combustion space, wherein the gas supply means comprise at least one restriction element which is provided with means for adjusting the supply of air to the gas. Fireplace according to claim 15, characterized in that the restriction element is provided with an adjustable air passage opening. 17. Fireplace as claimed in claim 15 or 16, characterized in that the restriction element comprises a tube part, which is provided with a first opening, and an envelope tube arranged around the tube part, which tube is provided with an at least partially overlapping the first opening , second opening. Fireplace according to claim 17, characterized in that the first and second opening have the same diameter. 19. Fireplace as claimed in claim 17, characterized in that the first opening has a larger diameter than the second opening.