CN219624251U - Smoke leakage prevention condensing boiler - Google Patents

Abstract

The utility model relates to the technical field of condensing boilers, and discloses a smoke leakage prevention condensing boiler, which comprises a condensing boiler and a heat-conducting device, wherein the condensing boiler is used for storing and heating condensed water; the waste heat recovery mechanism is connected to the condensing boiler and can recover and utilize heat in waste smoke generated during heating of the condensing boiler; the waste heat recovery mechanism comprises a first smoke separation pipeline and a second smoke separation pipeline. This leak protection cigarette condensation boiler, when using, the produced waste gas heats on to the waste heat recovery mechanism after the combustible gas ignites, the waste heat recovery mechanism of being heated can take place heat exchange with the comdenstion water in the condensation boiler to realize the recycle of heat in the waste gas, in the power drive subassembly is carried to waste gas from waste heat recovery mechanism exhaust waste gas, promote the drive leaf on the power drive subassembly through waste gas, make the pivot rotate, can drive the defeated fan after stopping the power supply through the pivot and move, saved the electric power resource.

Description

Smoke leakage prevention condensing boiler

Technical Field

The utility model relates to the technical field of condensing boilers, in particular to a smoke leakage prevention condensing boiler.

Background

The boiler is an energy conversion device, the energy input to the boiler is chemical energy and electric energy in fuel, the boiler outputs steam, high temperature water or organic heat carrier with certain heat energy, the boiler for providing hot water is called a hot water boiler, the boiler is mainly used for life, a small amount of application is also available in industrial production, the waste smoke generated by the existing boiler in the water heating process is usually discharged directly outwards, the heat in the waste smoke and the wind power of the waste smoke are not effectively utilized, and the waste of resources is easily caused.

Disclosure of Invention

The utility model aims to provide a smoke leakage prevention condensing boiler, which aims to solve the problems in the prior art.

The embodiment of the utility model adopts the following technical scheme:

a smoke leakage prevention condensing boiler comprises a condensing boiler, a heat pump and a heat pump, wherein the condensing boiler is used for storing and heating condensed water; the waste heat recovery mechanism is connected to the condensing boiler and can recover and utilize heat in waste smoke generated during heating of the condensing boiler; the waste heat recovery mechanism comprises a first smoke separation pipeline and a second smoke separation pipeline, and is used for absorbing heat in waste smoke and exchanging heat with condensed water in the condensing boiler; the power driving assembly is connected between the condensing boiler and the waste heat recovery mechanism, and can convert the wind power discharged by waste smoke into mechanical energy to provide power for the condensing boiler. The power driving assembly comprises a rotating shaft, a driving blade is connected to the rotating shaft, and waste smoke can push the driving blade to rotate, so that the rotating shaft rotates.

Preferably, the waste heat recovery mechanism further comprises a first smoke collecting box and a second smoke collecting box, the first smoke collecting box and the second smoke collecting box are both connected to the inner side of the condensing boiler, the first smoke dividing pipeline is connected between the first smoke collecting box and the second smoke collecting box, and the second smoke dividing pipeline is connected to the second smoke collecting box.

Preferably, the power driving assembly further comprises a smoke exhaust pipeline and a wind driven machine, wherein the wind driven machine comprises a shell, and the rotating shaft is connected to the shell.

Preferably, the shell is connected with a smoke inlet and a smoke outlet, and the smoke inlet is communicated with the smoke exhaust pipeline.

Preferably, the condensing boiler comprises a boiler body, wherein the boiler body is used for containing condensed water.

Preferably, the boiler body is connected with a water filling port and a water outlet pipeline, water can be filled into the boiler body through the water filling port, and the heated condensed water in the boiler body can be taken out through the water outlet pipeline.

Preferably, the inner side of the boiler body is connected with a combustion pipeline, and the combustion pipeline can provide space for combustion of combustible gas.

Preferably, the boiler body is connected with a draught fan, the air conveying end of the draught fan is connected with a combustion pipeline, and the draught fan can convey combustible gas and oxygen into the combustion pipeline for combustion.

The beneficial effects of the utility model are as follows:

when the waste gas recovery device is used, waste gas generated after ignition of combustible gas heats the waste heat recovery mechanism, the heated waste heat recovery mechanism can exchange heat with condensed water in the condensing boiler, thereby realizing the recycling of heat in the waste gas, waste gas discharged from the waste heat recovery mechanism is conveyed into the power driving assembly, the waste gas pushes driving blades on the power driving assembly, the rotating shaft rotates, the fan after stopping power supply can be driven to operate through the rotating shaft, and electric power resources are saved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the ambit of the technical disclosure.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional perspective view of the present utility model;

FIG. 3 is a schematic perspective view of the waste heat recovery assembly and the wind driven mechanism of the present utility model;

FIG. 4 is a schematic diagram of the perspective structures of the waste heat recovery mechanism and the wind power driving mechanism of the utility model;

fig. 5 is a schematic perspective view of a wind power driving assembly according to the present utility model.

In the figure: 1. condensing boiler; 11. a boiler body; 12. a water filling port; 13. a combustion conduit; 14. a blower; 15. a water outlet pipe; 2. a waste heat recovery mechanism; 21. a first smoke collection box; 22. a first smoke dividing pipeline; 23. a second smoke collection box; 24. a second fume separation pipeline; 3. a power drive assembly; 31. a third smoke collection box; 32. a smoke exhaust duct; 33. a wind driven machine; 331. a housing; 332. a rotating shaft; 333. a driving blade; 334. a smoke inlet; 335. and a smoke outlet.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

As shown in fig. 1-5, a smoke leakage preventing condensing boiler; including condensing boiler 1 for deposit and heat the comdenstion water, be connected with waste heat recovery mechanism 2 on the condensing boiler 1, waste heat recovery mechanism 2 can carry out recycle with the heat in the produced waste gas when condensing boiler 1 heats, be connected with power drive assembly 3 between condensing boiler 1 and the waste heat recovery mechanism 2, power drive assembly 3 can become mechanical energy with the wind-force conversion of waste gas emission to for condensing boiler 1's use provides power.

As shown in fig. 1, the condensing boiler 1 comprises a boiler body 11, a water injection port 12 and a water outlet pipeline 15 are connected to the boiler body 11, condensed water can be conveyed into the boiler body 11 through the water injection port 12, the heated condensed water can be discharged outwards through the water outlet pipeline 15 for a user to use, a combustion pipeline 13 is connected to the inner side of the boiler body 11, an ignition head (not shown in the figure) is connected to the inner side of the combustion pipeline 13, combustible gas conveyed into the combustion pipeline 13 is ignited through the ignition head to form flames, the combustion pipeline 13 is heated, the condensed water in the boiler body 11 is heated through heat exchange between the combustion pipeline 13 and the condensed water in the boiler body 11, an air conveying fan 14 is connected to the outer side of the boiler body 11, the air outlet end of the air conveying fan 14 is connected with the combustion pipeline 13, and the air conveying fan 14 can convey the combustible gas and oxygen to the inner side of the combustion pipeline 13.

As shown in fig. 1-4, the waste heat recovery mechanism 2 comprises a first smoke collecting box 21 and a second smoke collecting box 23 which are connected to the inner side wall of the boiler body 11, a first smoke dividing pipe 22 is connected between the first smoke collecting box 21 and the second smoke collecting box 23, a second smoke dividing pipe 24 is connected to the inner side of the second smoke collecting box 23, the second smoke dividing pipe 24 is located below the first smoke dividing pipe 22 and penetrates through the right side of the boiler body 11, and the first smoke collecting box 21 is communicated with the first smoke collecting box 21.

The waste smoke generated by the combustion in the combustion pipeline 13 is conveyed into the first smoke collecting box 21, and is conveyed into the second smoke collecting box 23 through the first smoke dividing pipeline 22, and finally is conveyed into the power driving assembly 3 through the second smoke dividing pipeline 24, when the waste smoke passes through the first smoke collecting box 21, the first smoke dividing pipeline 22, the second smoke collecting box 23 and the second smoke dividing pipeline 24, the heat in the waste smoke is absorbed by the first smoke collecting box 21, the first smoke dividing pipeline 22, the second smoke collecting box 23 and the second smoke dividing pipeline 24, and at the moment, the heat in the first smoke collecting box 21, the first smoke dividing pipeline 22, the second smoke collecting box 23 and the second smoke dividing pipeline 24 is subjected to heat exchange with condensed water in the boiler body 11, so that the heat in the waste smoke is recycled, and the use amount of combustible gas is reduced.

As shown in fig. 1-5, the power driving assembly 3 comprises a third smoke collecting box 31 connected to the outer side of the condensing boiler 1, the third smoke collecting box 31 is communicated with the second smoke dividing pipeline 24, the third smoke collecting box 31 can collect waste smoke of heat recycling, the third smoke collecting box 31 is connected with a smoke discharging pipeline 32, the smoke discharging end of the smoke discharging pipeline 32 is connected with a wind driven machine 33, the wind driven machine 33 comprises a shell 331, the right end of the shell 331 is provided with a smoke inlet 334, the smoke inlet 334 is communicated with the smoke discharging end of the smoke discharging pipeline 32, the front side of the shell 331 is provided with a smoke outlet 335, the smoke outlet 335 can discharge the waste smoke in the shell 331 outwards, and the smoke outlet 335 can be connected with purifying equipment for treating the waste smoke.

With continued reference to fig. 1-5, the inner side of the housing 331 is rotatably connected with a rotating shaft 332, the outer side of the rotating shaft 332 is connected with a driving blade 333, one end of the rotating shaft 332 extends out of the housing 331 and is connected with a driving shaft on the air conveying fan 14, waste smoke discharged by the smoke discharging pipeline 32 is conveyed into the smoke discharging pipeline 32, the driving blade 333 is pushed to enable the rotating shaft 332 to rotate, the rotating shaft 332 rotates to drive the air conveying fan 14 to operate, after the condensing boiler 1 operates for a period of time, power supply to the air conveying fan 14 is stopped, and the air conveying fan 14 is driven to operate by the wind power of the waste smoke through the wind power driving machine 33, so that electric power resources are saved.

Working principle: when the device is used, the air conveying machine 14 is started to convey combustible gas and oxygen into the combustion pipeline 13, the combustion pipeline 13 is heated by the ignition head in the combustion pipeline 13 to form flame, at the moment, heat exchange is carried out between condensed water in the boiler body 11 and the combustion pipeline 13 to heat the condensed water, waste smoke generated during combustion of the combustion pipeline 13 passes through the first smoke collecting box 21, the first smoke separating pipeline 22, the second smoke collecting box 23 and the second smoke separating pipeline 24 and is conveyed into the third smoke collecting box 31, the first smoke collecting box 21, the first smoke separating pipeline 22, the second smoke collecting box 23 and the second smoke separating pipeline 24 are heated by heat in the waste smoke, the heated first smoke collecting box 21, the first smoke separating pipeline 22, the second smoke collecting box 23 and the second smoke separating pipeline 24 are in heat exchange with the condensed water in the boiler body 11, so that recycling of the heat in the waste smoke is realized, waste smoke in the third smoke collecting box 31 is conveyed into the shell through the smoke discharging pipeline 32, and after the air conveying machine 14 is stopped, the waste smoke in the shell is pushed into the shell to drive the rotating shaft 332, and the rotating shaft 332 can be driven by the rotating shaft 332, and the rotating shaft 332 is driven by the rotating shaft 14.

Claims (8)

1. A smoke leakage preventing condensing boiler, comprising:

a condensing boiler (1) for storing and heating condensed water;

the waste heat recovery mechanism (2) is connected to the condensing boiler (1) and can recover and utilize heat in waste smoke generated when the condensing boiler (1) is heated;

the waste heat recovery mechanism (2) comprises a first smoke separation pipeline (22) and a second smoke separation pipeline (24) and is used for absorbing heat in waste smoke and exchanging heat with condensed water in the condensing boiler (1);

the power driving assembly (3) is connected between the condensing boiler (1) and the waste heat recovery mechanism (2) and can convert the wind power discharged by waste smoke into mechanical energy to provide power for the condensing boiler (1);

the power driving assembly (3) comprises a rotating shaft (332), the rotating shaft (332) is connected with a driving blade (333), and waste smoke can push the driving blade (333) to rotate, so that the rotating shaft (332) rotates.

2. The smoke leakage preventing condensing boiler according to claim 1, wherein: the waste heat recovery mechanism (2) further comprises a first smoke collecting box (21) and a second smoke collecting box (23), the first smoke collecting box (21) and the second smoke collecting box (23) are both connected to the inner side of the condensing boiler (1), the first smoke dividing pipeline (22) is connected between the first smoke collecting box (21) and the second smoke collecting box (23), and the second smoke dividing pipeline (24) is connected to the second smoke collecting box (23).

3. The smoke leakage preventing condensing boiler according to claim 1, wherein: the power driving assembly (3) further comprises a smoke exhaust pipeline (32) and a wind driven machine (33), the wind driven machine (33) comprises a shell (331), and the rotating shaft (332) is connected to the shell (331).

4. A smoke leakage preventing condensing boiler according to claim 3, characterized by: the shell (331) is connected with a smoke inlet (334) and a smoke outlet (335), and the smoke inlet (334) is communicated with the smoke exhaust pipeline (32).

5. The smoke leakage preventing condensing boiler according to claim 1, wherein: the condensing boiler (1) comprises a boiler body (11), and the boiler body (11) is used for containing condensed water.

6. The smoke leakage preventing condensing boiler according to claim 5, wherein: the boiler is characterized in that the boiler body (11) is connected with a water filling port (12) and a water outlet pipeline (15), water can be filled into the boiler body (11) through the water filling port (12), and condensate water heated in the boiler body (11) can be taken out through the water outlet pipeline (15).

7. The smoke leakage preventing condensing boiler according to claim 5, wherein: the inner side of the boiler body (11) is connected with a combustion pipeline (13), and the combustion pipeline (13) can provide space for combustion of combustible gas.

8. The smoke leakage preventing condensing boiler according to claim 7, wherein: the boiler is characterized in that a fan (14) is connected to the boiler body (11), the air conveying end of the fan (14) is connected with the combustion pipeline (13), and the fan (14) can convey combustible gas and oxygen into the combustion pipeline (13) for combustion.