Gas burner and air heater assembly for a gas clothes dryer

A burner for a gas dryer is made up of a mixing tube having an open end for admission of gas fuel into the mixing tube. At least one other opening proximate to the open end serves to admit air into the mixing tube for mixing the air and the gas fuel. A burner head is located at an end of the mixing tube opposite the open end for allowing a mix of gas fuel and air to be discharged and be ignited into a flame. A baffle is attached to the burner at the base of the burner head and extends radially outward therefrom to prevent disruption of combustion of the gas fuel and air mixture as a result of secondary air being drawn outside and along the length of the mixing tube from the open end thereof toward the burner head. An air heater assembly for gas dryer includes combustion chamber having an air inlet and an air outlet for allowing air to flow therethrough and be heated for being passed over clothes to be dried in a drum of a dryer. The aforementioned burner is employed in the air heater assembly within the combustion chamber.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a gas burner for a gas dryer which produces an even and well dispersed flame distribution, with low consumption of fuel and reduced noxious emissions such as carbon monoxide. In another aspect, the present invention relates to a heater assembly for a gas clothes dryer which employs such a burner.

2. Discussion of the Prior Art

Gas burners are used in a number of applications ranging from furnaces, gas clothes dryers and other like applications in which it is desired to heat air for use for various purposes. A universal requirement for all burners is that they should be efficient in burning fuel supplied, generally are required to provide a desired flame profile depending on the application, should be quiet and should not produce large amounts of potentially harmful bi-products such as carbon monoxide.

In the case of the use of such burners in household applications, one current prominent use is in clothes dryers, typically clothes dryers using natural gas as a fuel. Such dryers can be a popular amenity for households of all incomes since consumers can dry two loads of clothes in a natural gas dryer, on average, for the amount of money it costs to dry just one load in an electric dryer.

For additional savings and energy conservation, current natural gas dryers use electronic ignition systems instead of a continuously burning pilot light. Generally such dryers work by moving warm air through the clothes inside. Inside of the dryer is a rotating drum and the dry heated air created by a natural gas burner flows over and through the clothes as the drum tosses them through the air. The moist air coming off the clothes is exhausted through a vent to the outdoors, and is replaced by more dry heated air.

Due to current energy costs, it is very important that burners employed in heaters in natural gas dryers function with high efficiency while providing a wide flame distribution to heat a maximum amount of air. This provides a large flow of warm air to clothes being dried. It is also important that such burners avoid producing harmful or noxious byproducts such as carbon monoxide, due to the fact that even though gas dryers are vented generally to the outside, they are still used in enclosed home, and typically within smaller rooms such as laundry rooms. If such bi-products are produced at any high level, there is a high risk of harm to occupants or pets of the homes, and in particular, to operators of the gas clothes dryer.

In the past design of burners, it has been recognized that unintended secondary airflow around the burner head or nozzle of a burner can result in imperfect burning of fuel with resultant undesirable by-products. One prior art burner recognizes that the burning of fuels can result in the formation of nitrogen oxides (NO2), which when released to the atmosphere constitute pollutants.

In order to avoid such bi-products, one approach involves providing a fuel discharge nozzle with a shielding cone, which is generally disk shaped and includes a plurality of openings formed therein for allowing passage of a limited amount of air therethrough. The cone is an attempt to create a protected area adjacent the nozzle. However, as a result of the air flowing through openings in the cone, there still results an incomplete burning of fuels with resultant undesirable bi-products. Moreover, there is also caused a redirection of the flame in the direction of the secondary air being passed through the openings in the cone.

Another attempt to influence fuel burning with a burner involves an arrangement, which produces flames as long, slender rod like jets of great length. In this burner arrangement, one or more principal orifices are placed symmetrically on or about the axis of a pipe. The principal flow of gas is through these principal orifices. Secondary jets issue from the pipe at an angle to the axis of the pipe. The secondary orifices are shielded by a baffle surrounding the orifices which also includes openings for inducing air into the space adjacent to the secondary orifices, thereby also affecting the direction of the flame and the burning efficiency.

In yet still another arrangement, a conical shroud is provided shaped to avoid lateral divergence of flames. Such an arrangement results in an essentially unidirectional flame, which is not well suited for heating large volumes of air.

In accordance with the present invention, the problems of the prior art are avoided by providing a burner for use, in particular, with a gas clothes dryer, which functions efficiently in terms of consumption of fuel, produces a substantially constant flame with low levels of undesirable bi-product emissions, is not subject to adverse effects on the flame resulting from secondary air flow, and provides a flame which is dispersed over a wide area to provide heating of large volumes of air for use in a dryer.

BRIEF SUMMARY OF THE INVENTION

In one aspect, there is disclosed a burner for providing a stable flame for heating air. The burner includes a mixing tube having an open end for admission of gas fuel thereunto and at least one opening proximate to the open end for admission of air thereunto to allow mixing of air and gas in the mixing tube. A burner head is located at an end of the mixing tube opposite the open end for allowing mixed gas and air to be discharged therethrough and ignited into a flame. The burner head is of substantially hemispheric shape and has a plurality of discharge openings formed by perforations and slots distributed along the surface thereof for providing a substantially uniform distribution of flames emanating from the surface thereof. A baffle is attached to the burner at the base of the burner head, and extends radially outward therefrom an amount sufficient to prevent disruption of combustion of the air gas fuel mixture being discharged from the burner head resulting from air being drawn along the length of the mixing tube on the outside thereof from the open end thereof toward the burner head.

In a more specific aspect, the burner head includes a region at substantially the apex thereof having no discharge openings on the surface.

In a yet more specific aspect, the plurality of discharge openings in the baffle are of a size, distribution and number effective to prevent lightback. Preferably, the discharge openings are sixteen discharge openings arranged in two concentric equally spaced arrangements of eight openings below the region of the burner head, which has no openings. This results in a generally wide flame distribution substantially radially out from the burner head.

In an alternative aspect, the present invention relates to an air heater assembly for a gas dryer which includes a combustion chamber having an air inlet and an air outlet for allowing air to flow therethrough, for being heated and for being passed to clothes to be dried in a drum of the dryer. The air heater assembly includes, among other components, the afore-described burner for providing a stable flame for heating the air being passed through the combustion chamber.

DETAILED DISCUSSION OF THE INVENTION

FIGS. 1 and 2illustrate the burner11in accordance with the present invention. The burner11includes a mixing tube13for mixing fuel such as natural gas or propane with air. The mixing tube13includes a gas fuel inlet opening15. There is also an air inlet opening17for having air and gas fuel entrained into the mixing tube13and mixed therein. The burner11includes a gas burner head19having a plurality of perforations or openings21therein for discharging a fuel air mixture from the mixing tube13and out the burner head19. The gas burner head19includes a closed region23at the apex24thereof such that the air fuel mixture discharged therefrom, and resulting flames radiate generally radially outward from the gas burner head19.

In order to avoid the resulting flames from being disrupted and thus, result in generation of undesirable by-products such as carbon monoxide, etc., a baffle29is provided which includes a pair of attachment members31as extensions from the baffle29, extending generally in a direction parallel to the mixing tube13. The baffle29includes an air deflection plate35to prevent air which is entrained on the outside of the burner11in the direction of an arrow37from disrupting combustion of the fuel air mixture being discharged through the perforations or openings21.

The burner11also includes a pair of top and bottom plates25having a plurality of perforations or openings27to facilitate the burner11being secured within a gas dryer51such as that shown inFIG. 3, for example, through the use of screws, bolts, or other conventional fasteners, etc.

The gas dryer51, also illustrated inFIG. 4, typically includes a tumbler55inside for receiving wet clothes therein be tumbled and dried by rotation of the tumbler55. The air dryer includes a heater53which houses the burner11which is secured in a fixed position within the heater53with a combustion chamber through engagement with plates25, and attached through perforations27with appropriate screws, bolts, or other conventional fasteners, etc. The baffle29also is secured to the plates25by a pair of members31, each having an opening33, which openings33are aligned with the corresponding openings27of the plates25.

The burner11is shown in greater detail inFIGS. 5–8, shown without the baffle29attached. As may be appreciated fromFIGS. 5–8, the mixing tube13is of a generally smaller diameter than the burner head19. The smaller diameter mixing tube13allows for the discharge of the fuel air mixture to expand outwardly and out radially generally through the perforations21to result in a widely dispersed flame pattern (not illustrated). However, as also shown inFIGS. 5–8and11, the mixing tube25also includes a slightly larger open portion at the fuel inlet end thereof to allow appropriate volumes of fuel and air to enter through the inlet opening15and the air inlet17into a smaller cross section of the mixing tube13extending to the end proximate to the burner head19as is shown inFIG. 10. As shown inFIG. 9, andFIGS. 12–15, the burner head19is made from a stamped plate71, which includes the perforations21as well as a plurality of slots73. When forced into shape to form the burner head19, the slots73close to result in joined regions75and additional perforations21. The perforations21preferably are arranged in two substantially concentric circles28and30of eight perforations21, with the region23of the burner head19being closed to form the apex24. The burner head19so formed causes the fuel air mixture to be discharged generally radially resulting in a wide flame pattern (not illustrated) thereby maximizing the amount of air heated and passed into the tumbler region55of the dryer51.

As further shown inFIG. 4, when the air is heated by the heater53, it passes through a path57into the tumbler55and therefrom after drying clothes therein by removing moisture, and it is discharged through a discharge path59.

The baffle29in accordance with the present invention is more clearly shown inFIGS. 16–20and includes a rounded section77of the air deflection plate35and a more contoured section79of the air deflection plate35to accommodate space constraints and fitting within the dryer53. As may be appreciated, the air deflection plate35can take on various other shapes as necessary to the environment in which it is employed. What is important is that the size relative to fuel flow is an amount sufficient to eliminate the effects of secondary air flow such as that shown by arrow37inFIG. 1.

It is important to appreciate that a central opening75of the baffle29through which the burner head19passes needs to be of a very precise size to ensure no air leakage between the opening75at the region where the baffle29seats against a base of the burner head19. The members31extend along the same direction as the mixing tube13and are secured to the plates25through the openings or perforations33. The burner11, and in particular the gas burner head19is preferably made of stainless steel, such as304or430stainless steel.

The burner11of the present invention can operate with alternative sources of fuel such as propane or natural gas. The size of the perforations21on the burner head19are selected to provide appropriate size flames to meet the requirements for heating air passed through a gas dryer51. The location of the perforations21in the two concentric circles28and30and the sizes of the perforations21are selected such that when operated in combination with the baffle29, results in no flashback yet has a smooth ignition, for example, with an electronic igniter. In selecting the sizes of the various components, they are optimized to result in carbon monoxide generation of less than 0.04% (400ppm), in an air-free sample of the flue gases from the dryer.

Having thus generally described the invention in detail, the same will become better understood from the appended claims in which it is described in a non-limiting manner.