RU143749U1 - GAS-GENERATED BOILER WITH HEATED AIR DUCT - Google Patents

Abstract

1. A gas boiler with a heated duct, comprising a housing in the form of a sheathing made of sheet metal, in which a pyrolysis chamber with a grate is placed, a heat exchanger made in the form of a series of hollow sections connected to an external water jacket of the heat-transfer fluid and the intersection space associated with the chimney, ash compartment, control unit, liquid coolant recirculation system, air supply system with a fan, and a chimney connected to the exhaust pipe, while the pyrolysis chamber and the ash compartment there are hatches with doors, characterized in that the pyrolysis chamber and the heat exchanger are spaced horizontally at a distance equal to the height of the spacers between them, which is the inner water jacket, while the outer water jacket is selectively placed - at or below the grate, the pyrolysis chamber is located on the front side of the boiler, and the heat exchanger attached to it is placed on the rear side of the boiler, with sections of the heat exchanger located vertically and the width of the part of its chimney oriented toward pyrolysis the first chamber, 1.5-3 times the width of the subsequent parts of the chimney, the above-mentioned grate is made of pipes connected with an external water jacket, manholes are grouped in one frame with a removable cover in the inner lining above the pyrolysis chamber and above the heat exchanger, and in the lower part of the boiler, a drainage unit with a plug is mounted, while the means for supplying air to the pyrolysis chamber is made in the form of the main and additional ducts of U-shaped cross-section placed in an external water jacket

Description

The utility model relates to the field of heat power engineering, namely, to domestic furnaces for solid fuel.

Known gas boiler with a heated duct, comprising a housing in the form of a sheathing of sheet metal, in which the pyrolysis is placed. a chamber with a grate, a heat exchanger made in the form of a series of hollow sections in communication with an external water jacket of the liquid coolant and the intersection space associated with the chimney, an ash compartment, a control unit, a liquid coolant recirculation system, an air supply system with a fan, and a chimney connected with an exhaust pipe, while the pyrolysis chamber and the ash compartment have hatches with doors (website http://gion-teplo.com/kotly-tverdotoplivnye/18-kotly-tverdotoplivnye-defro-optima-komfort. Solid fuel boilers DEFRO, 2013 )

This technical solution is the closest to the utility model, therefore, taken as a prototype.

The disadvantages of the prototype are the low combustion efficiency due to the low temperature of the air entering the furnace and the energy consumption for heating it.

The technical result from the use of the claimed technical solution is to increase the efficiency of the device by reducing energy costs for heating the air for burning fuel.

Below are the general and particular essential features characterizing the causal relationship of the utility model with the specified technical result.

A gas boiler with a heated duct contains a housing in the form of a sheet metal sheathing in which pyrolysis is placed. a chamber with a grate, a heat exchanger made in the form of a series of hollow sections in communication with an external water jacket of the liquid coolant and the intersection space associated with the chimney, an ash compartment, a control unit, a liquid coolant recirculation system, an air supply system with a fan, and a chimney connected with exhaust pipe. The pyrolysis chamber and the ash compartment have hatches with doors. The pyrolysis chamber and the heat exchanger are spaced horizontally at a distance equal to the height of the spacers between them, which is an internal water jacket. The lower part of the outer water jacket is placed selectively: at or below the grate. The pyrolysis chamber is located on the front of the boiler, and the heat exchanger attached to it is located on the back of the boiler. The heat exchanger sections are arranged vertically, and the width of the part of its chimney oriented to the pyrolysis chamber is 1.5-3 times the width of the subsequent parts of the chimney. The mentioned grate is made of pipes communicated with an external water jacket, in the inner lining above the pyrolysis chamber and above the heat exchanger, hatches are made grouped into one frame with a removable cover. A drainage unit with a plug is mounted in the lower part of the boiler. The air supply to the pyrolysis chamber is made in the form of a main and additional U-shaped ducts-ducts placed in an external water jacket between the casing of the casing and the casing of the pyrolysis chamber and attached by the open part to the latter above the vertical row of through holes in it. The fan is installed on the main duct duct, the upper ends of both ducts are closed with plugs, and their lower ends are located in the ash compartment. These doors are pivotally attached to the boiler lining and are equipped with a threaded lock with a handle, and each door has thermo-fire-retardant elements on the inside. The lower part of the outer and inner water jackets can be covered with a pan of the ash compartment with the lower parts of the sections located at a distance from it. Sheathing sheets of the heat exchanger can be closed by the bottom in the interval between the indicated tray and the lower parts of the sections with the possibility of forming a bottom horizontal water jacket. The lower parts of the outer and inner water jackets can be hermetically connected to the upper part of the ash compartment. The lining of the heat exchanger can be hermetically sealed with a bottom located at a distance from the upper part of the ash compartment with the possibility of forming a horizontal water jacket connected to the external and internal water jackets. The specified fan may be located in the upper or lower part of the main duct duct.

The device is illustrated by drawings, where: in Fig.1 shows a front view; figure 2 is a view aa in figure 1; figure 3 is a view of BB in figure 2; figure 4 is a view BB in figure 1, an option; figure 5 is a longitudinal section of a boiler with an expanding body and options I and II of the design of the heat exchanger; figure 6 is a view aa in figure 1, an option; Fig.7 is a view of III in Fig.5; on Fig is a side view of the boiler with a partial section; in Fig.9 is a view of IV in Fig.8; figure 10 is a longitudinal section of a pyrolysis chamber, option; figure 11 is a view of E in figure 10; in Fig.12 is a transverse section of the pyrolysis chamber, option; in Fig.13 is a view BB in Fig.1, a variant; in Fig.14 is a view BB in Fig.1, a variant; in Fig.15 is a view BB in Fig.1, a variant; in Fig.16 - door, front view; on Fig view DD in Fig; on Fig - view FJ in Fig.16.

The gas boiler with a heated duct contains a housing 1 in the form of a sheath made of sheet metal, in which the pyrolysis is placed. The chamber 2 with the grate 3, the heat exchanger 4, made in the form of a series of hollow sections in communication with the external water jacket F of the liquid coolant and the intersection space associated with the chimney 5, the ash compartment 6, the control unit 7, the recirculation system of the coolant, the air supply system with a fan 8, and a chimney 9 connected to the exhaust pipe 10.

The pyrolysis chamber 2 and the ash compartment 6 have hatches with doors 11.

The pyrolysis chamber 2 and the heat exchanger 4 are spaced horizontally at a distance equal to the height of the spacers 12 between them, which is the inner water jacket L

The lower part of the outer water jacket F is placed selectively: at the level of the grate 3 or lower.

The pyrolysis chamber 2 is located on the front side of the boiler, and the heat exchanger 4 attached to it is located on the rear side of the boiler.

The sections of the heat exchanger 4 are arranged vertically, and the width of the part of its chimney 13 oriented to the pyrolysis chamber is 1.5-3 times greater than the width of the subsequent parts 14 of the chimney.

Mentioned grate 3 is made of pipes communicated with an external water jacket F.

In the inner lining above the pyrolysis chamber and above the heat exchanger, hatches are made grouped in one frame 15 with a removable cover 16.

In the lower part of the boiler, a drainage unit 17 with a plug 18 is mounted.

The means of supplying air to the pyrolysis chamber 2 is made in the form of a main 19 and an additional 20 ducts of U-shaped cross section, placed in the outer water jacket F between the casing of the casing 1 and the casing of the pyrolysis chamber 2 and attached to the last over the vertical row of through holes 21 in it.

On the main duct duct 19, said fan 8 is installed.

The upper ends of both duct ducts 19 and 20 are closed with plugs (not shown), and their lower ends are placed in the ash compartment 6.

These doors 11 are pivotally attached to the casing of the housing 1 and are provided with a threaded lock 22 with a handle 23, and each door 11 on the inside has thermo-fire-retardant elements (not shown).

The specified lower part of the outer F and inner L water jackets can be closed with a pan 25 of the ash compartment 6 with the lower section 26 of the sections located at a distance from it (Fig. 13).

Sheathing sheets of the heat exchanger 4 can be closed by the bottom 27 in the interval between the pallet 25 and the lower part 26 of the sections with the possibility of forming a bottom horizontal water jacket N (figure 4).

The lower parts of the outer F and inner L water jackets can be hermetically connected to the upper part 28 of the ash compartment 6 (Fig.14).

The casing of the heat exchanger 4 can be hermetically sealed with a bottom 29 located at a distance from the upper part 28 of the ash compartment 6 with the possibility of forming a horizontal water jacket R connected to said outer F and inner L water jackets of Fig. 15).

The inner section 30 of the heat exchanger 4, located near the pyrolysis chamber 2, has an L-shape, a short shelf of which is embedded in the pyrolysis chamber 2, and the outer section 31, located near the chimney 9, is made with an inclined cut in the upper part, oriented towards the exit from the boiler .

The outer section 31 of the heat exchanger 4 located near the chimney 9 can be tilted towards the exit from the boiler from position I to position II.

The front and rear walls of the housing 1 can be made inclined with the possibility of its expansion up (figure 5).

The specified fan 8 may be located in the upper or lower parts of the main duct duct 19.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation on the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the proposed utility model formula, including the purpose of the application, i.e. ., the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of the patent The ability of "novelty".

This technical solution is industrially applicable, since the description of the application and the name of the utility model indicate its purpose, it can be manufactured industrially and used in heating furnaces.

The technical solution is workable, feasible and reproducible, and the distinguishing features of the device allow to obtain the desired technical result - increasing the efficiency of the device by reducing energy consumption for heating the air for burning fuel.

The utility model in the form as described in each of the claims can be implemented using the tools and methods described in the prototype, which became public until the priority date of the utility model. Therefore, the claimed technical solution meets the condition of patentability ″ industrial applicability ″.

The implementation of the utility model is as follows.

A gas-generating boiler with a heated duct is assembled from two main nodes of the pyrolysis chamber 2 and a heat exchanger 4, between which and around them a water jacket is formed for a liquid coolant, which can be used water or non-freezing liquids such as antifreeze. The ash compartment 6 is also attached.

The horizontal arrangement of the subassemblies of the pyrolysis chamber 2 and the heat exchanger 4 expands the operational capabilities, since allows you to attach the pyrolysis chambers 2 of various sizes, depending on the required power.

Boiler 1 is built into the liquid heating system and can operate without maintenance for a long time until the next portion of fuel is laid due to the control system.

The electrical circuit of the device provides power to the control system either from the mains or from the battery through a converter connected to the control unit.

When firing up, the working pump is turned off until the temperature of the liquid in the boiler rises to a temperature of 60 °, while the fan 8 runs at high revs, and when it reaches 60 degrees, the pump is turned on, which turns off when the temperature decreases by 5 degrees from the set value.

This is necessary for the full combustion of pyrolysis gas.

After the liquid has completely warmed up, the pump switches off at a temperature of 40 °.

When the temperature reaches 60 °, the fan step-by-step reduces the speed by the air supply regulator 32 through each degree and turns off completely at 65 °.

When the temperature decreases, the fan 8 turns on and increases with each degree by 10% of revolutions per degree.

Thanks to automatic smooth control, fuel savings of up to 30% are achieved.

The technical result - increasing the efficiency of the device by reducing energy consumption for heating the air for burning fuel is achieved by placing duct ducts 19 in the zone heated by the pyrolysis chamber 2 and the external water jacket F (Fig. 3).

Air is supplied by fan 8 to the main 19 and an additional 20 duct ducts, in which it is heated and enters through its openings 21 in the pyrolysis chamber 2 into its combustion zone, increasing its efficiency due to the full combustion of the pyrolysis gas.

The performance of the fan 8 is regulated by the control unit 7 (computer) depending on the specified combustion conditions, determined by the required temperature of the coolant, depending on the calorific value and density of the fuel.

The device has the following advantages over known boilers:

a large loading chamber, water-passing grates, partitions are washed with liquid, i.e. there is nothing to burn out, a convenient inclined door for loading, automatic temperature control, not a mechanical draft regulator, but a computer control unit, the boiler burns on any quality of coal thanks to the correct air supply and does not require calibrated coal in comparison with other analogues of pyrolysis boilers.

The location of the heat exchange on the back of the pyrolysis chamber allows you to make a boiler of high power - 530 kW - heating area of 5000 square meters. With the rear location of the heat exchanger, you can make a large loading chamber - which increases the boiler operating time up to 7 days.

Using the utility model allows to increase the efficiency of the device by reducing energy consumption for heating the air for burning fuel.

Claims (7)

1. A gas boiler with a heated duct, comprising a housing in the form of a sheathing made of sheet metal, in which a pyrolysis chamber with a grate is placed, a heat exchanger made in the form of a series of hollow sections connected to an external water jacket of the heat-transfer fluid and the intersection space associated with the chimney, ash compartment, control unit, liquid coolant recirculation system, air supply system with a fan, and a chimney connected to the exhaust pipe, while the pyrolysis chamber and the ash compartment there are hatches with doors, characterized in that the pyrolysis chamber and the heat exchanger are spaced horizontally at a distance equal to the height of the spacers between them, which is the inner water jacket, while the outer water jacket is selectively placed - at or below the grate, the pyrolysis chamber is located on the front side of the boiler, and the heat exchanger attached to it is placed on the rear side of the boiler, with sections of the heat exchanger located vertically and the width of the part of its chimney oriented toward pyrolysis the first chamber, 1.5-3 times the width of the subsequent parts of the chimney, the above-mentioned grate is made of pipes connected with an external water jacket, manholes are grouped in one frame with a removable cover in the inner lining above the pyrolysis chamber and above the heat exchanger, and in the lower part of the boiler, a drainage unit with a plug is mounted, while the means for supplying air to the pyrolysis chamber is made in the form of the main and additional ducts of U-shaped cross-section placed in an external water jacket to the casing of the casing and the casing of the pyrolysis chamber and attached with the open part to the latter above the vertical row of through holes in it, said fan is installed on the main duct, the upper ends of both duct ducts are closed with plugs, and their lower ends are placed in the ash compartment, the doors are pivotally attached to the boiler skin and are equipped with a threaded lock with a handle, and each door has thermo-fire-retardant elements on the inside. 2. The gas boiler according to claim 1, characterized in that the said outer and inner water jackets are closed by an ash tray with an arrangement of said sections at a distance from it. 3. Gas boiler according to claim 1 or 2, characterized in that the heat exchanger casing sheets are closed with a bottom with the possibility of forming a bottom horizontal water jacket. 4. The gas boiler according to claim 1, characterized in that the outer and inner water jackets are hermetically connected to the upper part of the ash compartment. 5. The gas boiler according to claim 1 or 4, characterized in that the lining of the heat exchanger is hermetically closed by a bottom located at a distance from the upper part of the ash compartment with the possibility of forming a horizontal water jacket connected to the specified external and internal water jackets. 6. The gas boiler according to claim 1, characterized in that the fan is located in the upper part of the main duct duct. 7. The gas boiler according to claim 1, characterized in that the fan is located in the lower part of the main duct duct.