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公开(公告)号:US4136676A
公开(公告)日:1979-01-30
申请号:US858370
申请日:1977-12-07
摘要: There is disclosed an improved flue box assembly which consists of a housing formed by a continuous sidewall, a top wall and a bottom wall, each of the top wall and bottom wall having an aperture disposed therein, the interior diametric sizing of the housing being substantially greater than both the top wall and bottom wall apertures, and the housing including a damper plate pivotally mounted interioraly thereof and spaced between the top and bottom wall respectively, the damper plate further including a flue opening having a diametric sizing substantially smaller than the top and bottom wall apertures, and the damper plate being constructed and accommodated to be movable between an open position and a closed position, such that when the damper plate is in the closed position, the flue opening is interposed between the top wall aperture and the bottom wall aperture and insures a maximum burning of the fuel in the corresponding furnace, while alternatively, under back pressures or an explosion condition, the damper plate is permitted to move into the full open position and expose the substantially greater diametric sizing of the flue box in order to permit an efficient emission of flue gases from the furnace. The relationship between the various size openings as between the top and bottom wall apertures, the interior diametric sizing of the housing, and the flue opening in the damper plate insures substantially complete combustion of the fuels in the furnace while at the same time accommodating the requirement for a quick, safe and efficient exhaust of flue gases under back pressure or explosive conditions. SUBACKGROUND OF THE INVENTIONIt has become increasingly important to provide the means whereby the various types of fuel presently in existence are conserved to the maximum extent. For example, it has become increasingly known that fuels such as natural gas, oil and the like must be conserved if the current global supply is to provide the needs of the world until alternate sources of fuel or energy sources can be developed. In this connection, various types of devices have been innovated in the last several years with a view toward conserving our natural fuels.It is now known that the efficiency of various heating plants such as home furnaces and the like, has not been too great for the reason that often, the fuels are not sufficiently burned in the combustion chamber, and hence, the flue waste gases include a fairly large percentage of unburned fuel such as natural gas. It has, therefore, been deemed desirable to develop devices which will retain the natural gases in the combustion chamber or furnace until virtually all of the fuel is combusted such that the flue gases which escape from the furnace are virtually completely waste gases.Over the years, various types of devices have been developed which have come to accomplish this end, and in fact, it is believed that various of these devices do in fact accomplish this desired end. For example, U.S. Pat. No. 1,196,117 illustrates a damper plate which is employed in the exhaust line of a furnace which consists of a pivotally mounted plate which seats over a sheet metal exhaust tube and is intended to retain the bulk of the exhaust or waste gases within the furnace assembly until they are combusted. It will be noted in connection with this disclosure, that the external perimeter of the sheet metal waste pipe is provided with a plurality of circumferentially disposed recesses in order to permit the escape of some of the flue gases during combustion, while the damper plates insures that the bulk of the gases will remain in the furnace until fully combusted. Similar types of devices are shown in U.S. Pat. No. 1,580,106 which again shows a damper plate which is apertured to permit the exhaust of some of the waste gases during the combustion process, as well as in U.S. Pat. No. 3,912,223, which again shows a pivotally mounted damper plate which closes off the exhaust pipe and retains the gases in the furnace until fully combusted.The difficulties which have been noted in connection with these types of devices is the fact that during any back pressure or explosive situation, it is necessary that means be provided for waste gases to exhaust themselves from the furnace immediately so that a destructive explosion in the furnace will not occur. It is for this reason that damper plates which are provided along the exhaust pathway of the tubing are providing in a pivotable or otherwise movable fashion. It is intended that during a back pressure or explosive situation, the pivotally mounted damper plate will move to a fully open position and permit the waste gases to be immediately exhaustable from the combustion chamber. The difficulty with the prior art devices is the fact that the diametric sizing of the exhaust pipe immediately above the damper plate has been virtually the same as or less than the diametric sizing of the exhaust pipe immediately below the damper plate. As a result, there is still a danger that the exhaust gases, during a back pressure or explosive situation, cannot be quickly exhausted through the waste pipe, and hence, the danger of an explosive situation with regard to the entire furnace is still present.OBJECTS AND ADVANTAGESIt is therefore the principal object of the present invention to provide an improved flue box assembly which may be installed in the pathway of the exhaust or waste conduit emanating from a furnace assembly, which will provide a movable damper plate which functions to retain the bulk of the gases within the furnace assembly to insure maximum combustion, while at the same time, being movable to an open position and providing an enlarged chamber during a back pressure or explosive situation such that the waste gases may be quickly and efficiently exhausted from the furnace thereby to minimize the danger of a destructive explosion.In accordance with the foregoing object, it is a further object of the invention to provide a flue box assembly which includes a housing formed by a continuous sidewall, top wall and bottom wall, with each of the top and bottom walls having an aperture, and including means to accommodate the inner connection to the apertures of an outlet and inlet conduit respectively, the housing having an overall interior diametric opening substantially greater than the diametric opening of either the inlet or the outlet apertures and conduit, and the housing further including damper means spaced a distance below the outlet aperture in the housing and movably positioned within the housing such that the damper means is movable between a closed position overlying the inlet aperture and an open position.Further to the above object, it is desirable to provide a damper means further including a flue opening sized to be diametrically smaller than each of the inlet and outlet apertures respectively such that the damper means functions to close off a substantial portion of the diametric opening within the housing when in the closed position, and to expose the substantially larger diametric opening of the housing relative to the inlet and outlet apertures respectively, when the damper means is positioned in the completely open position.In connection with the foregoing object, it is yet a further object of the invention to provide a flue box assembly of the type described wherein the housing is constructed to be interposed in the waste gas outlet emanating from a main furnace box, with the inlet aperture interconnected with the outlet conduit from the furnace, and the outlet aperture of the housing interconnected with an outlet conduit exhausting to atmosphere, wherein the housing assembly has a greater diametric sizing than the diametric sizing of the either the inlet or the outlet conduit connected thereto.Still a further object of the invention is to provide a flue box assembly of the type described wherein the damper means comprises a damper plate pivotally mounted to the interior of the housing on a sidewall portion thereof such that the damper plate is pivotally movable into a fully opened position under a back pressure condition, and into a closed position extending across the substantially diametric dimensions of the housing in order to substantially close the diametric opening within the housing with the exception of the area bounded by the flue opening contained in the damper plate.In connection with the foregoing object, it is a further object of the invention to provide a flue box assembly of the type described wherein the housing further includes a peripheral ledge mounted on the interior portions of the sidewall of the housing along a point approximately mid-position between the top and bottom wall portions thereof, and wherein the damper plate is arranged and constructed to rest on the peripheral ledge when in the closed position, the peripheral ledge functioning as a stop means for the damper plate when in the closed position.Still in connection with the foregoing objects, it is yet a further object of the invention to provide a flue box assembly of the type described wherein the area bounded by the damper plate at the lower end of the top wall at the upper end forms an emission chamber such that when the damper plate is in the closed position, the flue opening forms the inlet opening into the emission chamber and is of a smaller diametric sizing than the outlet aperture in the top wall, and when the damper plate is in the open position, the diametric opening of the housing forms the inlet opening into the emission chamber and is of a greater diametric sizing than the outlet aperture in the top wall, whereby the relationship of pressure and velocity of the waste gases emitted from the furnace during a back pressure or explosive occurrence is compenstated for to insure safe and efficient emission of waste gases when the damper plate is in the open position.Further features of the invention pertain to the particular arrangement of the elements and parts whereby the above-outlined and additional operating features thereof are attained.The invention, both as to its organization and method of operation, together with further objects and advantages thereof, will best be understood by reference to the following specification taken in connection with the accompanying.
摘要翻译: 公开了一种改进的烟道箱组件,其由由连续侧壁,顶壁和底壁形成的壳体组成,顶壁和底壁中的每一个具有设置在其中的孔,壳体的内径尺寸基本上 大于顶壁和底壁孔,并且壳体包括可枢转地安装在其内部并且分别位于顶壁和底壁之间的阻尼板,阻尼板还包括烟道开口,其具有基本上小于顶部的直径施胶 底壁孔,并且阻尼板被构造和收纳以在打开位置和关闭位置之间移动,使得当阻尼板处于关闭位置时,烟道开口插入在顶壁孔和底壁之间 并且确保在相应的炉中燃料的最大燃烧,或者替代地,在背压或例如, 爆破条件,阻尼板被允许移动到完全打开位置并且暴露烟道箱的大大的直径尺寸以便允许有效地从炉中排出烟道气。 在顶壁和底壁孔之间的各种尺寸的开口之间的关系,壳体的内径尺寸以及阻尼板中的烟道开口确保燃料在炉中基本上完全燃烧,同时满足要求 用于在背压或爆炸条件下快速,安全和有效地排放烟道气。
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