NL2006270C2 - CLOSED FIREPLACE SYSTEM WITH FORCED AIRFLOW. - Google Patents

Description

Short indication: Closed fireplace system with forced air flow.

DESCRIPTION

According to a first aspect, the present invention relates to a closed fireplace system comprising a fireplace with an at least substantially closed combustion chamber into which a fuel supply for fluid fuel flows and in a wall of which combustion chamber a supply opening is provided which is connected to a combustion air supply and in a wall of which combustion chamber a discharge opening is provided which is connected to a flue gas discharge.

Such closed fireplace systems are generally known as, for example, gas fires and are used, among other things, for heating living spaces. Imitation wood is usually provided in the combustion chamber. During operation of the hearth system, the gas is introduced via exhaust nozzles into the fuel supply at defined places in the combustion chamber, in which imitation wood or other material can be provided, so that when the gas ignites, burning wood, burning or glowing coals or the like is imitated. A drawback of the known systems is that they can only be placed in a limited part of a space in order to guarantee a good discharge of flue gas. The flue gas discharge of the known systems can only have a limited horizontal and / or bend component.

It is an object of the present invention to avoid the above-mentioned problem of the known fireplace system and to provide a safely closed fireplace system with more degrees of freedom for the choice of location for the fireplace. This object is achieved according to the present invention by a closed hearth system comprising a hearth with an at least substantially closed combustion chamber into which a fuel supply for fluid fuel flows and which is provided in a wall of said combustion chamber with a supply opening which is connected to a combustion air supply and in a wall of which combustion chamber is provided with an outlet opening which is connected to a flue gas outlet, and an air circulation device forcing air circulation which is driven by a drive and which is connected to the flue gas outlet which, in operation, has an underpressure in the flue gas outlet relative to the pressure in the combustion chamber 2 generates. The air circulation device forcefully increases the draft of the smoke ash outlet. This has the advantage that a flue gas flow through the flue gas outlet can overcome a greater resistance due to the forced air circulation without the fire behavior of the fireplace system being negatively influenced. The flue gas outlet can thus for instance bridge a greater horizontal distance, can comprise more bends and in a part of the outlet even a downward component can have. The underpressure that is generated via the flue gas outlet in the combustion chamber improves any seals, such as between a removable glass pane that is sealed to the combustion chamber with a system of cord, tape, metal strips and / or screws. In such a situation, the glass pane is pressed more firmly against the combustion chamber by the relative excess pressure in the space to be heated. This increases safety by reducing the risk of flue gas leakage flows from the combustion chamber to the (living) space to be heated. The intended object is thus achieved with a fireplace system according to the present invention.

In WO 2010/057929 A1 a closed hearth system is described with a supply circuit with a forced air circulation device in the combustion air supply. Although at first sight such a system seems to have the same effect with reverse operation, that is not the case. An important disadvantage of such a system is that a forced effect of combustion air in combination with the resistance in the flue gas discharge results in a pumping effect, whereby the pressure in the system increases. This increases the risk of leakage flows of flue gas, for example from the combustion chamber to a room to be heated in which the fireplace is arranged. With greater flow resistance to be overcome in the flue gas outlet, for example large distances to be bridged (horizontal) and bends in the flue gas outlet, the pressure in the fireplace system increases even further.

With a view to being able to control the combustion in the combustion chamber, it is preferred that the fireplace system comprises a control device for controlling the air circulation device. The flue gas discharge can thus be regulated on the basis of input values for the control system, and thus indirectly also the supply of fresh combustion air.

3

In order to be able to adapt to a specific arrangement, the fireplace system preferably comprises first adjustment means with which the drive means can be adjusted in dependence on the arrangement of the system. The system can thus be adjusted, for example once-only, in dependence on the distance that the flue gas outlet bridges, any bends that the flue gas outlet thereby makes to eventually culminate in (usually, but not necessarily) the outside air, the cross-sectional area of the flue gas. flue gas discharge, etc. In fact, the drive means, or the control thereof, are adapted to the resistance encountered by flue gas on the way from the combustion chamber to the outside air.

It is further preferred that the fireplace system comprises second adjusting means with which the drive means can be adjusted in dependence on a current operating condition of the fireplace system. Where the first adjusting means, once adjusted, probably remains unchanged, the second adjusting means are provided to adjust the drive means in dependence on dynamic factors, such as temperature, draft at the outlet of the flue gas discharge, etc.

For a good control of the air circulation device and / or the second setting means, it is preferred that a sensor which detects the flue gas flow is provided for supplying an input signal to the control device and / or the second setting means.

In addition, it is preferred that the sensor comprises a venturi for analyzing the flue gas discharge flow.

When the air circulation device is provided at or in the vicinity of an outlet end of the flue gas discharge, any noise nuisance caused by the air circulation device can be minimized.

In a preferred embodiment according to the present invention, the combustion air supply and the flue gas discharge are designed as two concentrically oriented pipes. A relatively compact arrangement can hereby be provided in the first place. Moreover, with this arrangement, a heat exchange can take place between the flow of combustion air and the flow of flue gas, whereby combustion air enters the combustion chamber slightly warmed up. This has a positive effect on the combustion in the combustion chamber. The flue gas discharge is herein preferably surrounded by the combustion air supply.

In a preferred embodiment of the present invention, the diameter of the outermost of the concentric pipes is less than 150 mm, further preferably less than 130 mm and still further preferably less than 110 mm. Because the air circulation device promotes the draft of flue gas through the flue gas outlet, it is sufficient to use a concentric tube that has a smaller diameter than the diameter of a conventional concentric tube connected to a fireplace system (diameter of 150 mm).

It is thereby preferred that the combustion air supply widens near the connection to the combustion chamber in the direction of the supply opening. This has the advantage that a fireplace with standard dimensions can be used for the inlet and outlet openings, while the concentric tube can be narrowed over a large part of its length. This has the advantage that the concentric tube can be concealed in a smaller space, or at least less emphatically present in a space through which the tube extends.

Although it is preferred that the inlet opening and the outlet opening are provided in the top wall of the combustion chamber. As is usual with conventional closed hearth systems, the air circulation forcing circulation device makes it possible to provide the supply opening and / or the discharge opening in another wall, such as for instance the rear wall or even the bottom, without thereby causing the combustion, at least in important degree, is affected negatively.

According to a second aspect, the present invention relates to a flue gas outlet for use with a closed hearth system and comprising an air circulation device forcing air circulation that can be driven by a drive. By connecting such a flue gas outlet to a fireplace with an at least substantially closed combustion chamber, an advantageous effect of a system according to the first aspect of the present invention can be achieved with an existing fireplace, whether or not already installed.

According to a third aspect, the present invention relates to a method for adapting a flue gas outlet of a closed fireplace system, comprising the step of connecting an air circulation device forcing air circulation forcing driven by a drive to the flue gas outlet. A closed fireplace system, whether or not existing or installed, can thus be improved.

The present invention will be explained below with reference to the accompanying figure in which an exemplary embodiment of a closed fireplace system according to the present invention is schematically shown.

Reference numeral 1 in the figure shows a gas fireplace with a substantially closed combustion chamber 2. At the top of the combustion chamber 2 there is a connecting element 3 with an outer pipe piece 4 with a diameter of approximately 150 mm and an inner pipe piece 5, which supplies a supply for combustion air or flue gas discharge. Connected to connection element 3 is a ventilation channel 6 which comprises two concentric pipes, outer pipe 7 and inner pipe 8. An air supply duct 9 is defined by pipes 7 and 8. Inner pipe 8 defines a flue gas discharge channel 10. To the end 11 of flue gas discharge channel 10 remote from gas fire 1, a fan 12 is connected, which in use generates a vacuum in flue gas discharge channel 10, as a result of which forced flue gas is drawn out of combustion chamber 2 by flue gas discharge channel 10. Flue gas is eventually discharged outside a building 20 symbolically represented by wall 13 in the figure to the environment. Since the combustion chamber 2 forms part of a closed hearth system, which means that combustion air can at least substantially only enter air through combustion air duct 9, the underpressure in flue gas discharge channel 10 will result in an underpressure also prevailing in combustion chamber 2, so that fresh combustion air 25 is forced into the combustion chamber 2 through air supply duct 9. The flue gas discharge flow and the combustion air supply flow are shown in the figure with arrows R and V respectively.

The fan 12 comprises first adjusting means (not shown), with which the power of the fan (at least at a certain position) can be adjusted to the resistance encountered by flue gas in the flue gas discharge channel 10. This resistance is inter alia dependent on the total length of flue gas discharge channel 10, the horizontal distance to be bridged between combustion chamber 2 and end 11 of the flue gas discharge channel, bends 6 provided in the flue gas discharge channel 10 and the diameter of flue gas discharge channel 10. The first adjusting means must mainly for a setting at installation based on static values. The fan 12 furthermore comprises second installation means, with which the fan 12 can be adjusted in use by a fan controller 5 in dependence on dynamic factors, which will be explained in more detail later in this document. Based on flow data measured at the venturi 14, the draft in combustion chamber 2 generated by flue gas discharge channel 10 is determined by a flow sensor 16. Flow sensor 16 sends a signal based on the measured value (arrow SJ to control 15. Control 15 in turn sends control signals (arrow S2, S3) to fan 12 or a solenoid valve 17 in a gas line 18 through which gas is sent to the combustion chamber 2 supplied (see arrows G). Thus, an optimum combustion of gas in the combustion chamber 2 can be controlled by the control. Furthermore, an operating member 19 is provided, with which a user can control the ignition in the combustion chamber 2. Operating member 19 can comprise a receiver for a remote control.

In the attached figure and the above description, only one embodiment of a closed fireplace system according to the present invention is shown and described. It will be clear, however, that many variants, whether obvious or not obvious to those skilled in the art, are conceivable within the scope of the present invention which is defined by the following claims. It is thus conceivable that a separate air supply channel and a separate flue gas discharge channel are provided. It is also conceivable that the air supply channel and the flue gas discharge channel are integrated in a ventilation channel, but are not defined by means of concentric pipes. Although it is preferable to measure the flue gas discharge, this is not necessary, or can be done in a different way than by measuring a venturi effect at a narrowing in the exemplary embodiment at one end of the flue gas discharge channel. The figure shows the fan at the end of the flue gas outlet remote from the combustion chamber. This is attractive in view of possible noise nuisance near the gas fire. However, it is conceivable that a fan is provided at another random location in the flue gas discharge duct. A system with a 7 gas fire is described in the exemplary embodiment. However, it is conceivable that a fireplace with a different flammable fluid is incorporated in a closed fireplace system. The diameter of the flue gas discharge channel and / or air supply channel can also deviate from the dimensions in the exemplary embodiment. Because the fan can force the flue gas discharge to a greater or lesser extent, the diameter of the said channels can also be chosen on the basis of other criteria, such as, for example, aesthetics. It is furthermore important that the combustion air supply and the flue gas discharge do not necessarily have to have a circular cross section. When a diameter of a pipe, for example of 150 mm, is mentioned in this document, this corresponds to its cross-sectional area of, in the present case, approximately 175 cm 2. The pipe may, for example, have a square or rectangular cross section. The cross-sectional area may also have a different size, for example (corresponding) with a diameter of 130 mm or 200 mm.

15

Claims (13)

1. Closed hearth system comprising a hearth with an at least substantially closed combustion chamber into which a fuel supply for fluid fuel flows and in a wall of which combustion chamber a supply opening is provided which is connected to a combustion air supply and in a wall of which combustion chamber a discharge opening is provided which is connected to a flue gas outlet, and an air circulation device which is driven by a drive and is connected to the flue gas outlet which, in operation, generates an underpressure in the flue gas outlet relative to the pressure in the combustion chamber. Closed fireplace system according to claim 1, characterized in that the fireplace system comprises a control device for controlling the air circulation device. Closed fireplace system according to claim 1 or 2, characterized in that the fireplace system comprises first adjusting means with which the drive means can be adjusted in dependence on the arrangement of the system. Closed fireplace system according to one or more of claims 1 to 3, characterized in that the fireplace system comprises second adjusting means with which the drive means can be adjusted depending on a current operating condition of the fireplace system. 5. Closed fireplace system according to one or more of claims 2 to 4, characterized in that a sensor that detects the flue gas flow is provided for supplying an input signal to the control device and / or the second setting means. Closed fireplace system according to claim 5, characterized in that the sensor comprises a venturi. Closed fireplace system according to one or more of the preceding claims, characterized in that the air circulation device is provided on or in the vicinity of an outlet end of the flue gas outlet. Closed fireplace system according to one or more of the preceding claims, characterized in that the combustion air supply and the flue gas discharge are designed as two pipes oriented concentrically to each other. Closed fireplace system according to claim 8, characterized in that the outer diameter of the outer of the two concentric pipes of the concentric tube is less than 130 mm. 10. Closed fireplace system according to one or more of the preceding claims, characterized in that the combustion air supply widens near the connection to the combustion chamber in the direction of the supply opening. Closed fireplace system according to one or more of the preceding claims, characterized in that the supply opening and the discharge opening are provided in the upper wall of the combustion chamber. 12. A flue gas outlet for use with a closed hearth system and comprising an air circulation device forcing air circulation that can be driven by a drive. 13. Method for adapting a flue gas outlet of a closed fireplace system, comprising the step of connecting to the flue gas outlet an air circulation device forcing air circulation that can be driven by a drive. 20