CN216814606U - High-efficient boiler - Google Patents

Abstract

The utility model relates to the field of boiler equipment, in particular to a high-efficiency hot water boiler which comprises a boiler frame, a boiler body, a coal storage assembly and a burner assembly. The boiler body is arranged on the boiler frame; the coal storage assembly and the combustor assembly are arranged on the boiler body. The utility model utilizes the first-stage heating rod to concentrate the heat generated by coal combustion of the combustion machine; meanwhile, heat generated by the operation of the combustion machine is concentrated by utilizing the heat conducting plate and the secondary heating rod; the primary heating rod and the secondary heating rod carry out double heating on the water body in the boiler body, so that the utilization rate of heat generated by the combustion machine is improved, the waste of heat energy is effectively reduced, the recycling efficiency of the heat energy is improved, the working efficiency of the water heater is improved, and the practicability of the water heater is improved.

Description

High-efficient boiler

Technical Field

The utility model relates to the field of boiler equipment, in particular to a high-efficiency hot water boiler.

Background

When the boiler is in a working state, heat generated by a burner of the boiler cannot be effectively utilized, the energy conversion efficiency of the whole equipment is low, and the energy-saving and environment-friendly effects are poor.

The utility model with the authority bulletin number of CN207661975U discloses a high-efficiency hot water boiler, which comprises a boiler base, a burner, a flame observation hole, a heat preservation layer, a computer controller, a smoke outlet, a combustion chamber, a fire tube, a spiral spoiler, a water jacket and a smoke collection chamber, wherein the boiler base is arranged below the heat preservation layer; the combustion chamber is arranged at the bottom of the inner side of the heat preservation layer and is connected with the flame observation hole and the combustion machine, a plurality of fire tubes are arranged between the combustion chamber and the smoke collection chamber, spiral spoilers are arranged on the inner sides of the fire tubes, and water jackets are arranged on the outer sides of the fire tubes. After the technical scheme is adopted, the utility model has the beneficial effects that: it realizes high-efficiency heat exchange, improves the heat efficiency of the boiler and saves fuel.

However, the above technical solutions have the following disadvantages: the device combustor sets up in the holistic outside of boiler, and the heat that the combustor produced can't be effectively utilized, has caused the energy waste, is unfavorable for improving boiler's work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-efficiency hot water boiler aiming at the technical problems in the background technology.

The technical scheme of the utility model is as follows: a high-efficiency hot water boiler comprises a boiler frame, a boiler body, a coal storage assembly and a burner assembly. The boiler body is arranged on the boiler frame; the coal storage assembly and the burner assembly are arranged on the boiler body.

The coal storage component comprises a coal storage rack, a feeding pipe, a smoke exhaust pipe, a coal combustion chamber and a first-stage heating rod; the coal storage rack is arranged on the boiler body; the feeding pipe is arranged on the coal storage rack and communicated with the coal combustion chamber; the smoke exhaust pipe is arranged at the smoke exhaust end of the coal combustion chamber; the coal combustion chamber is arranged on the boiler body; the primary heating rod is arranged on the boiler body.

The burner component comprises a burner mounting frame, a burner, a heat conducting plate and a secondary heating rod; the burner mounting rack is arranged on the boiler body; the combustor is arranged on the combustor mounting frame; the heat conducting plate is arranged at one end of the burner mounting frame, which is close to the coal combustion chamber; the second-stage heating rod is arranged on the heat conducting plate.

The boiler body is provided with a steam port and a water inlet.

Preferably, the coal storage assembly further comprises a feed bin gate.

Preferably, the primary heating rod and the secondary heating rod are arranged in parallel.

Preferably, the primary heating rod is arranged between the secondary heating rod and the coal combustion chamber.

Preferably, a water level observation window is arranged on the boiler body, and a water outlet is arranged at the lower end of the boiler body.

Preferably, the combustor mounting frame is rotatably provided with an access door.

Preferably, a burner observation window is arranged on the burner mounting frame.

Compared with the prior art, the technical scheme of the utility model has the following beneficial technical effects: the first-level heating rod is used for concentrating heat generated by coal combustion of the combustion machine; meanwhile, heat generated by the working operation of the combustion machine is concentrated by utilizing the heat conducting plate and the secondary heating rod; the primary heating rod and the secondary heating rod carry out double heating on the water body in the boiler body, so that the utilization rate of heat generated by the combustion machine is improved, the waste of heat energy is effectively reduced, the recycling efficiency of the heat energy is improved, the working efficiency of the water heater is improved, and the practicability of the water heater is improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a first cross-sectional view of an embodiment of the present invention.

FIG. 3 is a second cross-sectional view of an embodiment of the present invention.

Reference numerals: 1. a boiler frame; 2. a coal storage assembly; 3. a burner assembly; 4. a boiler body; 5. a steam port; 6. a water inlet; 7. a water level observation window; 8. a coal storage rack; 9. a feed bin gate; 10. a feed pipe; 11. a smoke exhaust pipe; 12. a coal combustion chamber; 13. a first-stage heating rod; 14. a burner mounting bracket; 15. an access door; 16. a combustion engine; 17. a heat conducting plate; 18. a secondary heating rod; 19. a burner viewing window; 20. and (7) a water outlet.

Detailed Description

Example one

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

In the present embodiment, the primary heating rod 13 is used to concentrate the heat generated by the coal combustion of the combustor 16; meanwhile, heat generated by the working operation of the combustion machine 16 is concentrated by utilizing the heat conducting plate 17 and the secondary heating rod 18; the primary heating rod 13 and the secondary heating rod 18 perform double heating on the water body in the boiler body 4, so that the utilization rate of heat generated by the combustion machine 16 is improved, the waste of heat energy is effectively reduced, the recycling efficiency of the heat energy is improved, the working efficiency of the boiler is improved, and the practicability of the boiler is improved.

Example two

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, the coal storage assembly 2 also includes a feed bin gate 9.

In this embodiment, a feed bin gate 9 is provided to facilitate the addition of coal or other combustible material to the feed pipe 10.

EXAMPLE III

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, the primary heating rod 13 and the secondary heating rod 18 are arranged in parallel.

In this embodiment, the primary heating rod 13 and the secondary heating rod 18 are arranged in parallel, so that the number of the arranged heating rods is increased to the maximum within the limited range of the boiler body 1, thereby improving the energy conversion efficiency of the present invention.

Example four

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, the primary heating rod 13 is disposed between the secondary heating rod 18 and the coal combustion chamber 12.

In the present embodiment, the primary heating rod 13 is disposed between the secondary heating rod 18 and the coal combustion chamber 12, thereby facilitating the primary heating rod 13 to concentrate the heat generated by the coal combustion chamber 12.

EXAMPLE five

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, a water level observation window 7 is arranged on the boiler body 4, and a water outlet 20 is arranged at the lower end of the boiler body 4.

In this embodiment, a water level observation window 7 is provided, so that the worker can monitor the water level in the boiler body 4 conveniently.

Example six

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, the boiler body 4 is provided on the boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, an access door 15 is rotatably arranged on the burner mounting frame 14.

In this embodiment, an access door 15 is rotatably provided on the burner mounting frame 14 to facilitate access to the burner 16.

EXAMPLE seven

The high-efficient boiler that this embodiment provided, including boiler frame 1, boiler body 4, coal storage assembly 2 and combustor subassembly 3.

As shown in fig. 1 to 3, a boiler body 4 is provided on a boiler frame 1; the coal storage module 2 and the burner module 3 are disposed on the boiler body 4.

The coal storage component 2 comprises a coal storage rack 8, a feeding pipe 10, a smoke exhaust pipe 11, a coal combustion chamber 12 and a first-stage heating rod 13; the coal storage rack 8 is arranged on the boiler body 4; the feeding pipe 10 is arranged on the coal storage rack 8, and the feeding pipe 10 is communicated with the coal combustion chamber 12; the smoke exhaust pipe 11 is arranged at the smoke exhaust end of the coal combustion chamber 12; the coal combustion chamber 12 is arranged on the boiler body 4; the primary heating rod 13 is provided on the boiler body 4.

The burner assembly 3 comprises a burner mounting bracket 14, a burner 16, a heat conducting plate 17 and a secondary heating rod 18; the burner mounting frame 14 is provided on the boiler body 4; the burner 16 is disposed on the burner mount 14; the heat conducting plate 17 is arranged at one end of the burner mounting rack 14 close to the coal combustion chamber 12; the secondary heating rod 18 is disposed on the heat conductive plate 17.

The boiler body 4 is provided with a steam port 5 and a water inlet 6.

Further, a burner observation window 19 is provided on the burner mount 14.

In the present embodiment, the burner observation window 19 is provided to facilitate detection of the condition of the burner 16 outside the boiler body 4.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A high-efficiency hot water boiler comprises a boiler frame (1) and a boiler body (4), and is characterized by comprising a coal storage assembly (2) and a burner assembly (3);

the boiler body (4) is arranged on the boiler frame (1); the coal storage component (2) and the combustor component (3) are arranged on the boiler body (4);

the coal storage component (2) comprises a coal storage rack (8), a feeding pipe (10), a smoke exhaust pipe (11), a coal combustion chamber (12) and a primary heating rod (13); the coal storage rack (8) is arranged on the boiler body (4); the feeding pipe (10) is arranged on the coal storage rack (8), and the feeding pipe (10) is communicated with the coal combustion chamber (12); the smoke exhaust pipe (11) is arranged at the smoke exhaust end of the coal combustion chamber (12); the coal combustion chamber (12) is arranged on the boiler body (4); the primary heating rod (13) is arranged on the boiler body (4);

the burner component (3) comprises a burner mounting rack (14), a burner (16), a heat conducting plate (17) and a secondary heating rod (18); the burner mounting rack (14) is arranged on the boiler body (4); the burner (16) is arranged on the burner mounting rack (14); the heat conducting plate (17) is arranged at one end of the burner mounting frame (14) close to the coal combustion chamber (12); the secondary heating rod (18) is arranged on the heat conducting plate (17);

the boiler body (4) is provided with a steam port (5) and a water inlet (6).

2. A high efficiency hot water boiler according to claim 1, characterized in that the coal storage module (2) further comprises a feed bin gate (9).

3. A high efficiency hot water boiler according to claim 1, characterized in that the primary heating rod (13) and the secondary heating rod (18) are arranged in parallel.

4. A high efficiency hot water boiler according to claim 1, characterized in that the primary heating rod (13) is disposed between the secondary heating rod (18) and the coal combustion chamber (12).

5. A high efficiency hot water boiler according to claim 1, wherein the boiler body (4) is provided with a water level observation window (7), and the lower end of the boiler body (4) is provided with a water outlet (20).

6. A high efficiency hot water boiler according to claim 1, characterized in that the burner mounting frame (14) is rotatably provided with an access door (15).

7. A high efficiency hot water boiler according to claim 1, wherein the burner mount frame (14) is provided with a burner viewing window (19).

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