RU2047818C1 - Personal heat generator - Google Patents

Abstract

FIELD: heat generators. SUBSTANCE: heat generator has heat-insulated housing made of panels and divided into heating-boiling and gas duct sections by vertical partition. Located in furnace space along its lateral sides are heat-absorbing shields. Furnace space is bounded lengthwise by one wall of oven chamber which is separated by protective shield made in form of louvres. Gas duct is formed by clearance between other walls of oven and panels of heat-insulated housing which are parallel to them; section of heat-insulated housing located above upper wall of oven is divided by longitudinal partition into upper gas duct passage provided with damper and lower gas duct passage. Gas duct section of heat generator is divided into upper and lower gas duct compartments by horizontal partition provided with ports; arranged in upper compartment is tube bundle of surface heat exchanger connected to hot-water supply system; arranged in lower compartment is tube bundle of heat exchanger of heating system. Upper compartment is provided with branch for connection with smoke flue and is connected with furnace space by means of adjustable port provided with gate; lower compartment is connected with end of gas duct by means of connecting port. Heat generator is connected to remote surface heat exchanger which is additionally connected to circulating pipe line by means of connectors provided with damper. EFFECT: completeness of use of heat of fuel and ease of use of heat generator in autumn and spring seasons. 3 cl, 6 dwg

Description

 The invention relates to heating, preferably for use by individual homeowners.

 An individual heat generator is also known, including a heat-insulating casing with a firebox inside it with a flue connecting the latter to the chimney, an ash pan separate from the firebox with a grate, an oven, heat-absorbing screens of the heating system mounted along the side surfaces of the firebox, the upper wall of which is made in the form hob.

 The disadvantage of this solution is the insufficient efficiency of using the heat of the combusted fuel due to the insufficient utilization of the heat of the exhaust gases, in addition, the seasonal switching of the heat generator to the operating mode corresponding to the season is quite complicated and requires the installation (removal) of chamotte insert in front of the heat-receiving screens of the heating system and reforming the furnace space ( installation of the grate at the appropriate height in the furnace space), which complicates the operation of the heat generator interseasonal period).

 The technical result is to increase the completeness of the use of heat of combusted fuel while simplifying the operation of the heat generator in the off-season.

 The technical result that can be obtained by carrying out the invention is expressed in providing a more complete utilization of the heat of the exhaust gases, while providing the possibility of regulation of the used length of the duct.

 The problem is solved in that in the individual heat generator, including a heat-insulating casing with a firebox inside it with a flue connecting the latter to the chimney, an ash pan separated from the firebox by a grate, an oven, heat-absorbing screens, heating systems mounted along the side surfaces of the firebox, the upper wall of which is made in the form of a hob, contains a heating-cooking and gas duct sections, separated from each other by a vertical partition, while its space is limited in length by the side wall of the oven, and the gas duct of this section is formed by the gap between the remaining walls of the oven and the walls of the section housing parallel to it, the gas duct entrance corresponding to the gap between the upper wall of the oven and the upper wall of the section housing, and its end section is located between the lower wall of the oven and the upper wall of the housing of the section, while the flue gas section of the heat generator is divided by a horizontal partition into compartments, in the upper of which a pipe is mounted the first bundle of the surface heat exchanger of the hot water supply system, and the tube bundle of the surface heat exchanger of the heating system is mounted in the lower one, the back wall of the upper compartment of the flue section equipped with a pipe for connecting the chimney, and a window is made in the horizontal partition of the flue section near its front wall, in addition, the end the flue of the heating and cooking section is connected to the lower compartment of the flue section through a window made in the vertical partition of the separation section at their rear walls ki, and the furnace space is connected with the upper compartment of the gas duct section through a window with a slide gate made in the vertical partition of the separating section near their front wall.

 The duct section adjacent to the upper wall of the oven is divided by a horizontal partition into insulated ducts, while in the furnace along the side wall of the oven there is an adjustment screen in the form of blinds equipped with a mechanism for opening it, and the length of the screen corresponds to the length of the side wall of the oven, and its height is equal to the distance from the hearth of the furnace to the horizontal partition of the gas duct, in addition, the upper gas duct is equipped with a slide gate.

 The output of the heat-receiving screens of the heating system is connected to the input of the heating circuit, a remote surface heat exchanger mounted outside the heat generator, and the output of this circuit through a jumper equipped with a valve is connected to the return pipe of the heating system, and the heat-receiving circuit of the remote heat exchanger is connected to the hot water supply system.

 Figure 1 shows a heat generator, front view; figure 2 is the same, a top view; figure 3 section aa in figure 2; in Fig.4 a section bB in Fig.2; in Fig. 5, section G-G in Fig. 2; Fig.6 connection diagram of the heat generator to the heating systems and hot water supply.

 The heat generator comprises a heat insulating body 1 made of panels that are a box-like structure filled with heat-resistant heat-insulating material, such as mineral wool. An internal vertical partition 2 divides the internal volume of the housing 1 into heating and cooking 3 and gas duct 4 sections. The furnace space 5 is separated from the ash pan 6 by the grate 7. The heat-absorbing screens 8 are placed along the side surfaces of the furnace space 5. In the front wall of the heat generator, there are a furnace 9 and an ash pan 10 door. The furnace space 5 is covered on top with a hob 11. The oven 12 limits the furnace space one with its side wall 5. The flue 13 is formed by a gap between the upper 14, second side 15 and lower 16 walls of the oven 12 and the walls (panels) of the heat-insulating casing parallel to them. 1. The grate 7 and the oven 12 are supported on the support beams 17.

 The flue section 4 is divided by a horizontal partition 18 into two compartments. In the upper compartment 19 there is a tube bundle 20 of a surface heat exchanger connected to a hot water supply system. In the lower compartment 21, a tube bundle 22 of a surface heat exchanger connected to the heating system is mounted. The rear wall of the upper compartment 19 is equipped with a pipe 23 for connection to a chimney (not shown). In the horizontal partition 18, a window 24 is made (in a section adjacent to the front wall of the section). In the vertical partition 2, an adjustable window 25 (provided with a slide gate 26) and a connecting window 27 are made. The adjustable window 25 connects the furnace space 5 to the upper compartment 19 and is located on the portion of the partition 2 adjacent to the front wall of the heat generator body. The connecting window 27 connects the end of the flue 13 with the space of the lower compartment 21 of the flue section 4 and is located on the lower section of the partition 2 adjacent to the rear wall of the heat generator.

 The cross section of the gas duct 13 (above the upper wall of the oven 12 is divided by a horizontal partition 28 into the upper 29 and lower 30 gas ducts.

 Along the side wall of the oven 12, facing the furnace space 5, a protective screen 31 of the louvre type is installed. The width of the screen corresponds to the length of the side wall of the oven, and its height corresponds to the distance from the hearth (the surface of the grate 7) to the horizontal wall 28 of the gas duct 13. The upper gas duct 29 is equipped with a rotary damper 32, the opening mechanism for closing the protective screen 31 and the rotation mechanism of the damper 32 are blocked so that the open position of the shield 31 corresponds to the closed position of the shutter 32, and vice versa.

 The exhaust openings of the heat-absorbing screens 8 are connected to the input of the heating circuit of the remote surface heat exchanger 33 mounted outside the heat generator body 1, and its output through the valve 34, for example, in the form of a valve, is connected to the input of the tube bundle 22 located in the lower compartment 21 of the gas duct section.

 In this case, the output of the tube bundle 22 is directly connected to the heating system (connected to the supply pipe).

 The inlets of the heat pick-up screens 8 are connected to the return pipe 35 of the heating system. A jumper 36 provided with a valve 37 (for example, in the form of a valve) connects the output of the heating circuit of the remote surface heat exchanger 33 and the return pipe 35. The output of the heat-receiving circuit of the remote surface heat exchanger 33 is connected to the input of the tube bundle 20 located in the upper compartment 19 of the gas duct section, and the output of this tube bundle is connected to a hot water parser or to the input of a hot water storage tank (not shown).

 The proposed device operates as follows. (Depending on the season). The winter mode of operation is as follows.

 The initial state of the heat generator and the systems to which it is connected (valve 37 (jumpers 36), is in the closed position, valve 34 is open.

 The start of the heat generator 1 in operation with unheated flues is as follows. Open the gate valve 26 of the window 25, after which the fuel is burned in the furnace space 5. Flue gases from the furnace 5 through the window 25 enter the upper flue compartment 19, passing through which through the pipe 23 enter the chimney.

 The heat generated by burning fuel during this period of time is sensed by the hob 11, heat-absorbing screens 8, tube bundle 20 mounted in the upper flue compartment, and the side wall of the oven 12 facing the furnace (if the protective screen 31 is open, i.e. . does not interfere with the effect of radiant heat on the wall of the oven). Heated water from the exit of the heat-absorbing screens 8 enters the external surface heat exchanger 33, where it transfers part of its heat to the hot water supply system, after which it passes through the tube bundle 22 mounted in the gas duct 21 through the heating devices of the heating system (not shown) and gives its heat, through the return pipe 35 returns to the heat-receiving screens 8.

 The heat absorbed by the tube bundle 20 (upper compartment 19) is transferred to the water circulating in the hot water supply system.

 After heating the gas flues, the heat generator is switched to normal operation, for which they shut off the adjustable window 25 with a slide gate 26 (as a result, the exit of flue gases from the furnace space 5 directly to the upper exhaust compartment 19 is excluded).

 In this case, the outgoing gases enter the gas duct 13 through which they pass to the connecting window 27, through which they enter the lower gas duct 21. After passing the lower compartment 21, the gases pass through the window 24 into the upper gas duct 19, after which they enter the chimney.

 In this case, heat is perceived by heat-absorbing screens 8, tube bundles 20 and 22 and the walls of the oven 12.

 Heated water from the output of the heat-absorbing screens 8 enters the external surface heat exchanger 33, where it transfers part of its heat to the hot water supply system, after which, after passing through the tube bundle 22 mounted in the gas duct 21 and restoring the initial level of heat content, it enters the heating devices of the heating system . Having given its heat, the water returns to the heat-receiving screens 8 of the heating system via the return pipe 35.

 Regulation of the thermal regime of the oven 12 is as follows.

 If you want to ensure maximum heat gain to the oven, then open the protective screen 31 (turn the shutter louvers perpendicular to the side wall of the oven 12), at the same time, the shutter 32, interlocked with the shutters (blinds) of the screen 21, rotates across the upper gas duct 29, blocking it. Thus, the gases emanating from the furnace are directed to the lower gas duct 30, after which they pass along the second side wall 15 to the lower wall 16 of the oven. Thus, in this mode, the oven 12 senses the maximum volume of the radiant heat flux and the maximum amount of heat transferred to it through the walls (maximum contact area of gases and the walls of the oven).

 Reducing heat gain to the oven is provided by turning the blinds at an angle to the wall of the oven (at the same time, the cross section of the upper gas duct 29 is opened due to the corresponding rotation of the shutter 32). Thus, the volume of radiant energy perceived by the oven wall facing the furnace 5 is reduced, the volume of heated outgoing gas in direct contact with the upper wall of the oven 12 is reduced (part of the gas is passed through the upper gas channel 29, without losing heat to the upper wall of the oven).

 If it is necessary to ensure minimal heat input to the oven 12, the protective screen 31 is completely closed (the shutter flaps are deployed parallel to the oven wall), which leads to the full opening of the cross section of the upper gas duct 29 (the shutter 32 is deployed along the direction of gas movement). In this case, the perception of the radiant heat flux by the wall of the oven, the contact of the gas flow with the upper wall of the oven (i.e., the area of contact of the gas flow with the heat-sensitive surfaces of the oven) is completely eliminated.

 The transfer of the heat generator from winter to summer operation means moving the valve 37 (jumpers 36) to the "Open" position, and the valve 34 to the "Closed" position.

 The scheme of the gas-air path and the combustion space remains the same as in the winter mode of operation. However, in the hot period, when it is necessary to minimize the amount of heat (from combustible fuel) transferred by the heat generator to the room, it is most advisable to use a scheme of its operation similar to that used for an unheated generator (i.e. with an open window 25).

Claims (3)

 1. INDIVIDUAL USE HEAT GENERATOR, including a heat-insulating case with a firebox placed in it with a flue connecting the latter to the chimney, an ash pan separated from the furnace by a grate, an oven, heat-absorbing screens of the heating system mounted along the side surfaces of the furnace, the top wall of which is made in the form hob, characterized in that the heat generator contains a heating, cooking and flue sections, separated from each other by a vertical partition, while the furnace the length of the oven is limited by the side wall of the oven, and the flue of this section is formed by the gap between the remaining walls of the oven and the walls of the section housing parallel to it, and the inlet of the duct corresponds to the gap between the upper wall of the oven and the upper wall of the section housing, and its end section is located between the lower the oven wall and the upper wall of the section housing, while the flue gas section of the heat generator is divided by a horizontal partition into compartments, in the upper of which a tube bundle is mounted to the surface heat exchanger of the hot water supply system, and in the lower tube bundle of the surface heat exchanger of the heating system, the back wall of the upper compartment of the flue section equipped with a pipe for connecting the chimney, and a window is made in the horizontal partition of the flue section near its front wall, the end of the flue of the heating and cooking section is connected with the lower compartment of the gas duct section through a window made in a vertical partition on its lower part near the rear wall, and the combustion space is connected with the upper compartment of the gas duct section through a window with a slide gate made in a vertical partition at the front wall of the housing.  2. The heat generator according to claim 1, characterized in that the output of the heat-receiving screens of the heating system is connected to the input of the heating circuit of the remote surface heat exchanger mounted outside the heat generator, and the output of this circuit through a jumper equipped with a valve is connected to the return pipe of the heating system, the heat-receiving circuit The remote heat exchanger is connected to the hot water supply system.  3. The heat generator according to claim 1, characterized in that the gas duct section adjacent to the upper wall of the oven is divided by a horizontal partition into insulated gas ducts, while in the furnace along the side wall of the oven there is a control screen in the form of blinds equipped with a mechanism for opening it -closing, moreover, the length of the screen corresponds to the length of the side wall of the oven, its height is equal to the distance from the hearth to the horizontal wall of the duct, and the upper duct is equipped with a slide gate.

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