RU2352865C1 - Bath-house furnace (versions) - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: present invention relates to heat power engineering, particularly to domestic bath-house furnaces, and is meant for heating premises, heating water and generating steam. The furnace has in the top part of its combustion chamber, two chambers for heat-retaining load, between the vertical walls of which a cavity is formed for an outlet manifold. The top part of the outlet manifold is bordered by the upper wall with an outlet connection pipe fitted in it. The bottom of the outlet manifold is bordered by two slanting plates with an aperture in the middle. In the outlet manifold there are slanting guide plates. For passage of smoke fumes in the side walls of the outlet manifold, there is an opening. The chamber for heat-retaining load is such that, its side walls and side walls of the outlet manifold with the walls of the furnace housing form a gas-passage space, on the whole width of which there are cut plates on the junction with the side wall and the bottom of the outlet manifold. The cut plates are rectangular and have upward bending edges. The top of the furnace is bordered by a frame, mated with the top profile of the combustion chamber, forming an inclination to storage containers of the heat-retaining load, and on which a detachable water tank is fixed. Description of the second version the furnace is given.

EFFECT: increased efficiency of the furnace.

9 cl, 5 dwg

Description

The invention relates to the field of heat engineering, namely to wood-fired domestic bath stoves, and is intended for heating a room, heating water and generating steam, it is used mainly in individual baths.

Known furnace for a bath according to patent No. 45508, IPC F24B 1/02, 05/10/2005, containing a furnace enclosed by a casing with a chimney, a cavity for heat storage loading, located above the arch of the furnace chamber, as well as a removable water tank and heat exchange element. The furnace is additionally equipped with a secondary afterburner located in the cavity for heat-accumulating loading in front of the chimney; inside the afterburner there is a flue gas cut-off screen mounted on the rear wall of the chamber with a gap between its edges and side walls of the chamber, on the outside of which, on the roof of the combustion chamber, are installed heat transfer fins. The furnace chamber door is enclosed by a forward-facing casing with a flange, and the water tank with its side wall is adjacent to the casing of the rear wall of the combustion chamber, with which it is connected through a heat-exchange element.

The disadvantage of this furnace is the inefficient removal of heat from the walls of the afterburning chamber, since the rear wall of the chamber does not work to heat the heat storage load, and the heat storage load, which is located in the upper front part of the cavity, is removed from the walls of the afterburning chamber and, therefore, does not warm up properly. The cavity for the heat storage load is structurally deep, which does not allow the heat storage load to be heated uniformly throughout the volume.

The closest analogue to the claimed furnace is a stove-heater for solid fuel, containing a firebox, an ash pan, an grate, a chamber for heat storage loading, chimneys. Flue gases enter the channels around the stone chamber and exit the chimney through the front opening. The furnace has gaps between the walls of the furnace and the fence, which serve as channels for the circulation and heating of air. A hot water pipe is installed in the same channel (see. V. Safin. We are building a bathhouse: Ref. Benefit. - M.: Stroyizdat, 1990, p. 124-126).

The disadvantage of this furnace is the inefficient removal of heat from the walls of the chimneys, since the large length of the chimneys and its horizontal location does not work for heating air or stones. The chimney has an exit to the front wall of the furnace, which increases its dimensions, fire hazard and reduces ease of use.

The stone chamber is made deep, so uneven heating of the stones occurs and water is difficult to access the stones located at the bottom of the stone chamber.

The objective of the invention is to increase the efficiency and intensity of heat exchange between the products of combustion of fuel and heat-removing surfaces of the furnace structure, increasing the life of the furnace.

The technical result from the use of the invention is to increase the heat transfer area and reduce the time of heating the room and heating the heat storage load, reducing the load on the bottom of the chamber for the heat storage load, increasing the rigidity of the structure.

The specified result is achieved in that the bathhouse furnace according to embodiment 1, comprising a firebox, an ash pan, a grate, a heat storage chamber, a guard enclosure and a water tank, according to the invention, in the upper part of the fire chamber contains two heat storage chambers, between vertical the walls of which are facing the center of the furnace, the cavity of the exhaust manifold is formed, bounded by the upper wall with an outlet pipe installed in it and side walls with windows for the passage of flue gases, two inclined plates forming its bottom with a slit in the middle, inclined guide walls are installed in the cavity, the side walls of the chambers for heat storage load in its upper part and the upper wall of the exhaust manifold are bent at an angle to the horizontal and rest on the side wall of the furnace body, limiting the flue space from above , the entire width of which cutoffs are installed, and on top the furnace is limited by a frame that mates with the upper contour of the furnace with a surface forming an inclination towards the center of the furnace, At the same time, the water tank is removable.

The indicated result is also achieved by the fact that the inclined guide walls are welded to the upper wall of the collector at an angle to it, and to the front and rear walls of the collector perpendicular to them.

The cutoffs are installed at the interface between the side wall and the bottom of the exhaust manifold and have the shape of a rectangular plate with upward bent edges.

A removable water tank is mounted on the frame and is adjacent to the rear wall of the furnace. The specified result is achieved in that the bathhouse furnace according to embodiment 2, comprising a firebox, an ash pan, a grate, a heat storage chamber, a guard enclosure and a water tank, according to the invention, in the upper part of the fire chamber contains two heat storage chambers, each of which in the cross section has the shape of a trapezoid, and in the longitudinal section - a parallelogram and between the inclined walls of which are facing the center of the furnace, an exhaust manifold cavity is formed, limited by the upper wall from the mouth an outlet pipe and a slot in the lower part of the collector installed in it, while a divider is installed in the cavity of the exhaust manifold, and the tanks for the heat storage load are installed so that they form gaps with all its walls, while on the side walls of the tanks for the heat storage load perpendicular cutoffs are installed to them over the entire width of the gas passage space, which are closely adjacent to the side walls of the furnace body, forming gas passage openings, from above, along the side walls of the furnace, gas odnoe space closes inclined toward the center of the oven plate, which mates with a frame defining the furnace, and the water tank is detachable.

The indicated result is also achieved by the fact that the divider is welded to the walls of the exhaust manifold, the cutoffs are installed at an angle of 40-60 ° to the horizontal, and the water tank is installed on the chimney pipe.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features that are identical to all the features of the claimed technical solution are absent, which indicates the conformity of the claimed technical solution to the patentability condition of “novelty”.

Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the prototype of the claimed object showed that they do not follow explicitly from the prior art. The prior art also did not reveal the popularity of the impact provided by the essential features of the claimed invention, the transformations on the achievement of the specified technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

In the bath furnace according to option 1, dividing the chamber for the heat storage load into two made it possible to halve the load on the bottom of each chamber and increase the heat exchange intensity between the products of fuel combustion and heat-removing surfaces.

The pipe for the chimney is located in the center of the furnace, this increases the distance from the walls and partitions of the bath, which improves fire safety.

The height of the inclined guide walls, the angle of their inclination and the size of the windows in the side walls of the outlet manifold are determined experimentally, based on the optimal parameters of the combustion processes such as the absence of smoke, draft, fuel consumption and the temperature of the exhaust gases.

The installation of cutoffs in the gas duct at the interface between the bottom and the side walls of the collector and their shape allow us to divide the gas flow of hot products of fuel combustion coming out of the furnace into two and direct it along the side walls of the chambers for heat storage loading, thereby ensuring the maximum possible heating of stones.

Windows in the side walls of the exhaust manifold, as well as inclined guide walls, allow you to create complex labyrinths for moving the products of combustion of fuel, increase the path of their passage and the area of heat-removing surfaces.

The gap in the bottom of the collector makes it easy to clean the flue from soot deposits.

In addition, the inclined guide walls welded to the side walls of the manifold and the upper wall provide additional structural rigidity.

The side walls of the chambers for heat-accumulating loading and the upper wall of the exhaust manifold in their upper part are bent at an angle of 40-50 ° and rest on the side wall of the furnace body, limit the gas duct space from above, thereby increasing the heating area of the stones by increasing the contact spot of flue gases with heated surface and increase the rigidity of the structure.

Chambers for heat storage loading are located in the furnace cavity and are heated by hot products of fuel combustion from four sides, which leads to efficient heating of heat storage loading and increase the efficiency of the furnace.

The proposed shape of the frame allows you to increase the rigidity of the structure and increase the number of loaded stones.

In the bath furnace according to option 2, the shape of the chambers for the heat storage load and their location allows for efficient heating of the heat storage load, as the hot air and gases generated from the combustion of fuel heat the five walls of each chamber for the heat storage load. The angle of inclination of the walls of the chambers for heat storage loading and their length geometrically depend on the height of the heater, the diameter of the outlet pipe and the size of the slit that they form.

The shape of the cutoffs and the place of their installation on the side walls of the tanks for heat storage loading is determined by the shape of the gap between the side walls of the furnace and the side walls of the tanks for heat storage loading, and the angle of their inclination was chosen experimentally from the need to extend the path of the flue gases as much as possible and divide them into two streams for more efficient heating of the side walls of the chambers for heat storage loading.

The presence of a divider in the cavity of the exhaust manifold is necessary to separate two oncoming gas streams and stabilize the draft. In addition, the divider is a guide gas flow and gives rigidity to the structure.

The invention is illustrated by drawings.

Figure 1 presents a General view of the furnace according to the first embodiment of the invention.

Figure 2 presents a cross section of the exhaust manifold of the furnace according to the first embodiment.

Figure 3 is a General view of the furnace according to the second embodiment of the invention.

Figure 4 presents a front view of a chamber for heat storage loading in the absence of the front wall of the furnace according to the second embodiment of the invention.

Figure 5 is a profile view of the chambers for heat storage loading in the absence of a side wall of the furnace (divider is not conventionally shown).

According to the first embodiment of the invention, the bath furnace consists of a combustion chamber 1 with an external fuel channel 2, a door 3 and a grate 4 in the lower part of the combustion chamber 1 separating the ash pan 5 with a drawer ash drawer 6 for receiving and removing ash. In the upper part of the combustion chamber 1 there are two chambers 7, 8 for heat storage loading. The vertical walls of the chambers for the heat storage load, facing the center of the furnace, form the cavity of the exhaust manifold 9. The exhaust manifold 9 is bounded by the side walls 11, and the front wall 13 and the rear wall 14 are common with the chambers 7, 8 for the heat storage load. At the top, the collector is bounded by the upper wall 12, in which the outlet pipe is installed 15. In the cavity of the exhaust manifold, two guide inclined partitions are installed 16. The guide partitions 16 are inclined to the center of the collector and are welded at an angle to the upper wall of the collector and perpendicular to the front 13 and rear 14 walls collector. The bottom 10 of the exhaust manifold 9 is made of two plates installed with a slope to the center and forming between themselves an angle of 100-120 °. To clean the chimney in the bottom 10 of the exhaust manifold 9, a gap 18 is made under the outlet pipe 15. A window 17 is made in the side walls 11 in the upper part thereof, which are the entrance to the exhaust manifold of gaseous products of fuel combustion. Between the inclined guide walls 16 and the side walls of the manifold 11 channels 19 for smoke and gases are formed. The inclined guide walls, with their internal surfaces, form a channel 20 through which the flue gases are directed to the outlet pipe 15. In the flue gas space formed by the side walls of the chambers 7, 8 for heat storage loading and the walls 11 of the exhaust manifold 9 and the side walls 21 of the furnace body, cut-offs are installed 22 and hard welded to them. The cutoffs 22 are installed at the interface between the side walls 11 of the exhaust manifold and its bottom 10. The cutoff 22 is a plate with upward curved edges with a length equal to the length of the side wall 11 of the exhaust manifold and a width equal to the width of the gas passage. The side walls of the chambers 7, 8 for heat storage loading and the upper wall 12 of the exhaust manifold 9 in their upper part are bent outward at an angle of 45 °, rely on the side walls 21 of the furnace body, thereby limiting the flue space from above and increasing the area for heating stones. Frame 23 has dimensions larger than the dimensions of the furnace body. The vertical wall of the frame 23 is mated with the upper contour of the furnace by a plate 24 having a slope towards the center of the furnace. A removable water tank 25 is attached to the frame 23, which is adjacent to the rear wall of the furnace and is equipped with a valve (not shown in the drawing). A significant part of the heat-transfer surface of the furnace is covered by an external casing-convector 26 with openings 27, which significantly accelerates the heating of air in the steam room and adjacent rooms due to the powerful circular convection flow.

According to a second embodiment of the invention, the bath furnace consists of a combustion chamber 1 with an external fuel channel 2, a door 3 and a grate 4 in the lower part of the combustion chamber 1, separating the ash pan 5 with a drawer ash drawer 6 for receiving and removing ash. In the upper part of the combustion chamber 1 there are two chambers 7, 8 for heat storage loading. The inclined walls of the tanks 7, 8 for heat storage loading, facing the center of the furnace, the cavity of the exhaust manifold is formed 9. The front wall 13 and the rear wall 14 of the collector 9 are common with chambers 7, 8 for heat storage loading. The top of the collector is limited by the upper wall 12, in which the outlet pipe 15 is installed. A divider 28 is installed in the cavity of the exhaust manifold, which divides the cavity of the exhaust manifold 9 into two parts and is welded to the walls of the exhaust manifold. The front 13 and rear 14 walls of the collector, which are common with the chambers 7, 8 for heat storage loading, are installed at an angle to the horizontal, and the opposite walls of the heater are installed parallel to them. Thus, in the cross section of the tank for heat storage loading they have the shape of a trapezoid, and in the longitudinal section - a parallelogram. The chambers for the heat storage load 7, 8 and the exhaust manifold 9 are installed so that they form gaps with all the walls of the furnace body. On the side walls of the chambers 7, 8 for heat storage loading at an angle of 40-60 ° to the horizontal, cut-offs 29 are installed, which are trapezoidal and tightly adjacent to the side walls of the furnace body 21, forming gas holes 30, 31. In the lower part of the exhaust manifold 9 under the outlet pipe 15 has a slit 18 for cleaning the chimney from soot.

In the upper part of the furnace along the side walls, a plate 32 is installed at an angle of 40-50 ° with a slope to the center of the furnace, which limits the gas duct space from above and increases the area for heating stones.

Frame 23 has dimensions larger than the dimensions of the furnace body. The vertical wall of the frame is mated with the upper contour of the furnace by a plate 24, which has a slope to the tanks 7, 8 with a heat storage load.

The surface of the furnace is closed by a casing-convector 26 with holes 27.

A removable water tank is not shown in the drawing.

The operation of the furnace according to option 1 is as follows.

Through an external fuel channel 2 with a door 3, fuel is placed on the grate 4, mainly firewood, and set fire to it. The draft adjustment to ensure normal combustion of the fuel is carried out by the necessary extension of the ash box 6, which opens the ash pan 5 and provides the fuel necessary for combustion to enter the combustion chamber 1 through the grate 4 from the ash pan 5 and optimizes the combustion process. The hot air and gases generated from the combustion of fuel rise up the combustion chamber and, reaching the cutoffs 22, are divided into two streams that wash the side walls of the chambers 7, 8 for heat storage loading and are sent to the windows 17 and then to the channels 19 formed the side walls 11 of the exhaust manifold 9 and the inclined guide walls 16. The combustion products are directed downward, wash the inclined guide walls 16 and sent to the channel 20, formed by the inner surfaces of the inclined guides of the burnout dock 16, and then into the outlet pipe 15.

The operation of the furnace according to the second embodiment is as follows.

Through an external fuel channel 2 with a door 3, fuel is placed on the grate 4, mainly firewood, and set fire to it. The draft adjustment to ensure normal combustion of the fuel is carried out by the necessary extension of the ash box 6, which opens the ash pan 5 and provides the fuel necessary for combustion to enter the combustion chamber 1 through the grate 4 from the ash pan 5 and optimize the combustion process. Hot air and gases formed from the combustion of fuel rise up the combustion chamber and, reaching the cutoffs 29, are divided into two streams and flow into the gas ducts 30, 31. Washing the walls of the chambers for heat storage loading, the gases enter the exhaust manifold 9 and then into outlet pipe 15.

Thus, the creation of complex labyrinths for the products of fuel combustion, the increase in the path of their passage and the area of heat-removing surfaces in the presented versions of the furnace for a bath allow intensifying heat transfer in the furnace and gas flues by improving the conditions of heat transfer from the products of combustion of fuel to the heated elements, reduce the dimensions of the furnace, and reduce consumption of materials per unit capacity of the furnace and increase its efficiency.

Claims (9)

1. A furnace for a bath containing a firebox, an ash pan, a grate, a chamber with a heat storage load, a guard-guard and a water tank, characterized in that two chambers for a heat storage load are installed in the upper part of the fire chamber, between the vertical walls of which are facing the center the combustion chamber, the cavity of the exhaust manifold is formed, bounded by the upper wall with an outlet pipe installed in it and side walls with windows for the passage of flue gases, and from the bottom by two inclined plates forming its bottom with a slot In the middle, in the cavity, inclined guide walls are installed, the side walls of the chambers for heat storage loading in its upper part and the upper wall of the exhaust manifold are bent at an angle to the horizontal and rest on the side wall of the furnace body, limiting from above the flue space, the full width of which cutoffs are installed, and on top of the furnace is limited by a frame that mates with the upper contour of the furnace surface, forming a slope to the center of the furnace, while the water tank is removable. 2. The furnace for a bath according to claim 1, characterized in that the inclined guide walls are welded to the upper wall of the collector at an angle to it, and to the front and rear walls of the collector perpendicular to them. 3. The furnace for a bath according to claim 1, characterized in that the cut-offs are installed at the interface between the side wall and the bottom of the exhaust manifold. 4. The furnace for the bath according to claim 1, characterized in that the cutter is in the form of a rectangular plate with the edges bent up. 5. The furnace for a bath according to claim 1, characterized in that the removable water tank is mounted on a frame and adjacent to the rear wall of the furnace. 6. A furnace for a bath containing a furnace, an ash pan, a grate, a chamber with a heat storage load, a guard-casing and a water tank, characterized in that two chambers for a heat storage load are installed in the upper part of the furnace, each of which has a cross-sectional shape trapezoid, and in longitudinal section - a parallelogram and between the inclined walls of which are facing the center of the furnace, the cavity of the exhaust manifold is formed, bounded by the upper wall with an outlet pipe and a slot in it at the bottom collector, in this case, a divider is installed in the cavity of the exhaust manifold, and the tanks for the heat storage load are installed in the furnace body so that they form gaps with all its walls, while on the side walls of the tanks for the heat storage load, cutoffs are installed perpendicular to them over the entire width of the gas duct which are tightly adjacent to the side walls of the furnace body, forming gas holes, from above along the side walls of the furnace the gas duct space is closed by a plate inclined to the center of the furnace slime, which mates with a frame defining the furnace, and the water tank is detachable. 7. The furnace for the bath according to claim 6, characterized in that the water tank is installed on the chimney pipe. 8. The furnace for the bath according to claim 6, characterized in that the divider is welded to the walls of the exhaust manifold. 9. The furnace for the bath according to claim 6, characterized in that the cut-offs are installed at an angle of 40-60 ° to the horizontal.

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