RU2408821C2 - Gas fireplace (versions) - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: gas fire place has base and frame (2, 3) of case, chamber (9) of gas combustion (9) at least one tube (23) of chimney designed for outlet of furnace gas escaping combustion chamber (9), at least one inlet channel (21) for supply of external air supporting combustion into combustion chamber (9), of circuits (16, 17a, 17b, 18, 26, 29, 32) of ventilation and heating sucking air from environment and heating and supplying it at least partially into a space where fireplace (1) is installed, and at least one fan (30) with drive from engine operating in said circuit (16, 17a, 17b, 18, 26, 29, 32) of ventilation and heating. Additionally the gas fireplace consists of at least one device (33) of a damper installed in circuit (16, 17a, 17b, 18, 26, 29, 32) of ventilation and heating. There is also disclosed the second version of the gas fireplace.

EFFECT: raised efficiency of area heating.

6 cl, 3 dwg

Description

FIELD OF THE INVENTION

The present invention relates to an improved gas fireplace, in particular for heating a living room.

State of the art

Numerous gas fireplaces have been proposed in the art, typically using methane gas or, later, CIS (gpl, liquefied petroleum gas).

Conventional gas fireplaces, as a rule, contain a combustion chamber closed in front or a fireplace open in front, an inlet for supplying combustion-supporting air, an exhaust channel for flue gases and an air circuit configured to draw in heated air from the room and release hot air in that place where is the gas fireplace located.

Such fireplaces have many serious drawbacks. In fact, the air in the room is drawn in at the place where the fireplace is located, usually through the holes or channels formed in the lower part of the fireplace, it is heated mainly as a result of convective heat exchange through the metal walls of the combustion chamber or hearth and then goes back into the room through one or more hot air outlets formed in the upper front of the fireplace.

The hot air leaving the upper front of the fireplace is often an inconvenience for people standing in front of the fireplace, as a stream of hot air enters them. In any case, such a fireplace system is unsuitable for quickly heating the air in the room below the hot air supply level, where it is just desirable to ensure fast heating, since the flow of hot air tends to rise up to the ceiling of the room, thus leading to generation an undesirable heat gradient, at least at the initial stage of heating the room, between the air located near the ceiling and the air below the level of the outlet or air holes, it creates a non-uniform heating of the room.

A typical fireplace of this type is disclosed in US Pat. No. 6,050,259.

The air is drawn in from the room and taken back after heating to the same room during operation by a fan driven by an engine, usually an electric motor, which is capable of drawing relatively cold air from the room and forcing heated air into the same room through one or multiple outlets.

In order to obtain good heating efficiency with a fireplace, it is usually required, in addition to providing efficient heat exchange between the flue gases and the air drawn in from the room, to maintain a relatively intense air flow from the room through the fireplace.

To obtain such a desirable result, powerful fans have been increasingly used in recent years, which leads to a significant increase in the noise level caused by large volumes of air pumped through the fan and ventilation chambers and inlet and outlet ducts.

SUMMARY OF THE INVENTION

The main objective of the present invention is to create a gas fireplace, which can eliminate or at least significantly reduce the above disadvantages. Another objective of the present invention is to create a gas fireplace having optimal efficiency, very high output and autonomy and suitable for quick and uniform heating of the room in which it is installed.

Another objective of the present invention is to create a gas fireplace, which can be manufactured at low cost and can be easily installed.

These and other tasks, which will be more clearly understood below, are solved using a gas fireplace in accordance with the present invention, containing a base and a frame of the body, a gas combustion chamber, at least one chimney pipe, designed to exhaust flue gases leaving the combustion chamber at least one inlet channel for supplying external combustion-supporting air leading to the combustion chamber, a ventilation circuit and a heating circuit configured to draw in ambient air and heat and supply it, according to at least partially, in the room in which the fireplace is installed, and at least one engine-driven fan, configured to operate in a ventilation and heating circuit, characterized in that at least one silencer device is installed in ventilation and heating circuit.

Preferably, the silencer device is located downstream of the engine driven fan.

Preferably, said engine-driven fan is located after the ventilation and heating circuit, whereby air is drawn from the room through one or more inlets provided in at least one upper part of the fireplace above the combustion chamber and is supplied in a hot state into the room through at least one outlet provided in at least one lower part located below the combustion chamber.

In order to increase the efficiency of heat exchange between relatively hot flue gases and external combustion-supporting air, as well as relatively cold room air, the external supplied combustion-supporting air is heated by heat exchange with flue gases discharged into one or each chimney pipe and transferring some of its heat received in the result of heating, heated air from the room.

Preferably, the heating of the external combustion-supporting air is performed by arranging one or each chimney pipe inside the corresponding supply channel of the external combustion-supporting air so that a gap is formed between them, through which the external combustion-supporting air can flow, thereby providing heat exchange in countercurrent between the furnace gases and external combustion-supporting air.

Preferably, the gas fireplace has a casing configured to delimit the space above the combustion chamber for the preferred movement of air from the room.

Preferably, the ventilation and heating circuit comprises at least one humidifier device for the hot air supplied to the room.

Brief Description of the Drawings

Other aspects and advantages of a gas fireplace in accordance with the present invention will be better presented in the following detailed description with reference to the accompanying drawings, in which:

figure 1 shows a front view of a gas fireplace in accordance with the present invention;

figure 2 shows a side view in section along a vertical line of the fireplace in figure 1 with the casing installed; and

figure 3 presents a front view in section along a vertical line of the fireplace in figure 2.

As shown in the above drawings, the gas fireplace in accordance with the present invention, generally indicated by reference numeral 1, comprises a base and a body frame, including a base 2, preferably coated with cladding elements made, for example, of marble or ceramic, from which essentially, the parallelepiped of the casing 3 continues, having a rectangular shape in plan view. The housing 3 defines a closed inner space and comprises a lower or bottom wall 4, two side walls 5a, 5b, a rear wall 6, an upper wall or a ceiling 7, as well as a front door 8, preferably made of glass or more preferably ceramic glass, to provide good heat-resistant layout.

The interior of the housing 3 is divided into many adjacent chambers, as described below.

At the innermost section, there is a combustion chamber 9 in which a gas burner 10 is installed, into which combustible gas can be supplied through a supply channel 11 in fluid communication with a corresponding source of combustible gas (not shown in the drawings), for example, a gas pipeline, for supplying methane or CIS, a supply tank or even a gas cylinder with other appropriate liquefied gaseous fuels, as is known in the art. The combustion chamber 9 is made tight of metal, preferably cast iron, which thus provides efficient heat transfer between the internal and external parts of the combustion chamber. If required, the combustion chamber may be internally coated with refractory material. More specifically, the combustion chamber 9 is bounded by a lower or bottom wall 12, two side walls 13a and 13b, a rear wall 14, an upper wall or ceiling 15, and a front door 8.

One or more ventilation chambers are located outside the combustion chamber 9, preferably a rear ventilation chamber 16, two side ventilation chambers 17a and 17b, preferably directly connected to the rear chamber 16, and an upper ventilation chamber 18 delimited by one or more metal partitions 19, which are located so that they continue around the combustion chamber 9, at a certain distance from it.

Preferably, the walls of the ventilation chambers 16, 17a and 17b may be provided with fins that increase the efficiency of heat exchange between the hot flue gases and the heated air.

Between the rear wall 6 and the side walls 5a and 5b of the housing 3 and the metal partitions 19, there are one or more chambers 20 for external combustion-supporting air, which continue to the lower portion of the housing located below the combustion chamber 9 between the bottom wall 12 of the last and bottom wall 4 the housing 3 is connected to the burner 10, while in their upper section these chambers are fluidly connected to the metal inlet channel 21 for external combustion-supporting air.

Channel 21 has an inlet 22 for external combustion-supporting air, taken outside the heated room in which the gas fireplace 1 is installed (FIG. 2), and preferably extends through the wall P of the building.

The combustion chamber 9 at its ceiling 15 is in fluid communication with a metal pipe 23 of the chimney that is installed to exhaust the flue gases and preferably continues inside the inlet channel 21 for external combustion-supporting air, thus simultaneously delimiting the gap 24, intended to delimit the flow of combustion-supporting air, while heat exchange is provided in countercurrent to this flow with relatively hot flue gases coming from the combustion chamber 9. As is known in the art, the chimney pipe 23 ends with an exhaust diffuser 25, which is located outside the inlet 22 for combustion-supporting air.

The upper ventilation chamber 18 is in communication with the rear and side ventilation chambers 16, 17a and 17b, respectively, and a plurality of upper holes 26, only one of which is shown in FIG. 2, above which, if the gas fireplace is equipped with a casing K, a space S is preferably provided, designed to supply air from a room that is drawn in through one or more inlets 27 formed in the housing K and preferably covered by a mesh 28, before air is supplied to the ventilation and heating circuit through the openings 26.

The ventilation and heating circuit for indoor air also contains, in addition to ventilation chambers 16, 17a, 17b and 18, a motor-driven fan 30, preferably a solenoid valve, operating with a relatively large flow, the suction side of which is in fluid communication with the lower a collector 31, which, in turn, is in communication with the ventilation chambers 16, 17a, 17b and 18, while its supply side is connected to a room hot air supply pipe 32 located at the base 2 below the combustion chamber 9.

A silencing device 33 of any suitable type is installed in the supply pipe 32, configured to eliminate or substantially reduce the noise level produced in the forced air flow of the supply pipe 32. After the silencer device 33, there is an outlet 34 for supplying heated room air to a heated space, and, if necessary, one or more pipe inlets (not shown in the drawings) for supplying room hot air to rooms adjacent to the space in which the gas fireplace 1 is installed.

In front of the gas fireplace 1, preferably above the combustion chamber 9, a humidification device 35 can be installed that contains a reservoir of water that evaporates due to heat exchange with hot flue gases coming from the combustion chamber, as well as heat exchange with room air entering the space S, in the case of gas fireplace equipped with a casing K, thereby reducing the dryness of the heated air supplied to the room in which the gas fireplace 1 is located, thus making the air more pleasant.

A relatively cold external combustion-supporting air enters the fireplace through one or more wall or ceiling inlets 23, flows through the combustion-supporting air inlet 21, and enters the combustion-supporting air chamber 20, from where it flows below the combustion chamber 9 before entering it bottom to oxidize the gas supplied to the burner 10 through the gas supply pipe 11.

As a result of the combustion reaction, relatively hot flue gases are generated in the combustion chamber 9, which exit the combustion chamber through a chimney 23, through which they are thus released and scattered in the environment through a diffuser 25.

Preferably, since the chimney pipe 23 extends inside the inlet channel 21 for external combustion-supporting air, as described above, convective heat exchange occurs in counterflow of the supply air with the hot flue gases, which leads to sequential heating of the combustion-supporting air flowing through the gap 24, and therefore cooling flue gases.

And, on the contrary, the heated room air enters the ventilation and heating circuit of the gas fireplace 1 through the upper openings 26 or, if the gas fireplace 1 is equipped with a casing K, through the inlet openings 27 formed on the casing K, on which a grid 28 is installed. Thanks to the fan 30 with a drive from the engine, the room air, which enters the ventilation and heating circuit, forcibly flows through the ventilation chambers 16, 17a and 17b located between the combustion chamber 9 and the combustion-supporting chamber or chambers 20. In the chambers 16 , 17a, 17b, the ventilation of the air is heated due to double heat exchange, that is, with the walls 13a, 13b and 14, respectively, of the combustion chamber 9, which blow hot flue gases, and partitions 19, blown by the combustion-supporting air, previously heated as a result of heat exchange with hot flue gases, released through the pipe 23 of the chimney.

The fan outlet 30 is connected to a silencer device 33 to eliminate any monotonous noise generated in the hot air stream supplied to one or more hot air supply pipes through which heated air is supplied through openings 34 into the room in which the gas fireplace 1 is installed, or also partially served through the corresponding pipes in adjacent rooms.

In the invention described above, many changes and variations can be made within the scope of the scope of the claims.

Thus, for example, in the ventilation and heating circuit, the side ventilation chambers 17a and 17b can communicate with each other through one or more tubular elements 29 extending from one chamber to another through the combustion chamber 9 on its upper wall or ceiling 15. In addition , ventilation chambers 16, 17a, 17b may be located outside the combustion support chamber 20 instead of being installed between the external combustion support chamber 20 and the combustion chamber 20.

In addition, although in the above embodiment, the flue pipe 23 for exhausting the flue gases and the inlet channel 21 for supporting the combustion air are arranged so that a gap 24 is formed between them for flowing through and heating the combustion air, the present invention also relates with an arrangement containing a direct supply of combustion-supporting air from the environment, that is, through an input channel 21 of combustion-supporting air, which connects the combustion chamber 9 to the external environment without h heating the input combustion-supporting air along the chimney.

Of course, the silencer device 33 can also be installed in front of the solenoid valve 30, as a result of which it will operate on both its inlet and outlet sides.

Claims (6)

1. A gas fireplace containing a base and a frame (2, 3) of the housing, a gas combustion chamber (9), at least one chimney pipe (23), designed to exhaust flue gases leaving the combustion chamber (9), at least at least one inlet channel (21) for supplying external combustion-supporting air, leading to a combustion-supporting air chamber, connected downstream to the combustion chamber (9), ventilation circuit (16, 17a, 17b, 18, 26, 29, 32) and heating, configured to draw in ambient air and heat, and supplying at least a portion thereof clearly, into the room in which the fireplace (1) is installed, and at least one fan (30) driven by an engine, configured to operate in a circuit (16, 17a, 17b, 18, 26, 29, 32) ventilation and heating, characterized in that at least one muffler device (33) is installed in the circuit (16, 17a, 17b, 18, 26, 29, 32) of the ventilation and heating and at least one device (33 ) the muffler is located in front of or after the corresponding fan (30) driven by the engine, with one or each chimney pipe (23) and the corresponding inlet (21) channel for the external the combustion-supporting air are located one inside the other, thus limiting the gap (24) through which heat exchange occurs in countercurrent to the combustion-supporting air with the flow of flue gases in the chimney pipe (23), while the ventilation and heating circuit contains at least one chamber (16, 17a) supporting the combustion of air and a combustion chamber (9), the suction side of the fan (30) driven by the engine in fluid communication with at least one ventilation chamber (16, 17a, 17b), and his supply side with bschena in fluid communication with the at least one channel (32) for feeding hot air into the room. 2. Gas fireplace according to claim 1, characterized in that it contains at least one humidification device (35) for hot air supplied to the room. 3. A gas fireplace according to claim 1, characterized in that at least one ventilation chamber (16, 17a, 17b) in heat exchange with at least one chamber (20) for combustion-supporting air and a chamber ( 9) the combustion has many ribs (A). 4. A gas fireplace containing a base and a frame (2, 3) of the housing, a gas combustion chamber (9), at least one chimney pipe (23), designed to exhaust flue gases leaving the combustion chamber (9), at least at least one inlet channel (21) for supplying external combustion-supporting air, leading to a combustion-supporting air chamber, connected downstream to the combustion chamber (9), ventilation circuit (16, 17a, 17b, 18, 26, 29, 32) and heating, configured to draw in ambient air and heat, and supplying at least a portion thereof clearly, into the room in which the fireplace (1) is installed, and at least one fan (30) driven by an engine, configured to operate in a circuit (16, 17a, 17b, 18, 26, 29, 32) ventilation and heating, characterized in that at least one muffler device (33) is installed in the circuit (16, 17a, 17b, 18, 26, 29, 32) of the ventilation and heating and at least one device (33 ) the muffler is located in front of or after the corresponding fan (30) driven by the engine, with one or each chimney pipe (23) and the corresponding inlet (21) channel for the external the combustion-supporting air are located one inside the other, thus limiting the gap (24) through which heat exchange occurs in countercurrent to the combustion-supporting air with the flow of flue gases in the chimney pipe (23), while the ventilation and heating circuit contains at least one ventilation chamber (16, 17a, 17b, 18, 29) located with heat exchange at least partially between at least one combustion-supporting chamber (20) and combustion chamber (9), said gas fireplace contains a casing (K) bounding the upper space (S) for the room air being heated and transferred to the ventilation and heating circuit (16, 17a, 17b, 18, 26, 29, 32). 5. Gas fireplace according to claim 4, characterized in that it comprises at least one humidification device (35) for hot air supplied to the room. 6. Gas fireplace according to claim 4, characterized in that at least one ventilation chamber (16, 17a, 17b) in heat exchange with at least one chamber (20) for combustion-supporting air and a chamber ( 9) the combustion has many ribs (A).

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