CN211953239U - Internal fin type multi-return-stroke hot water furnace body - Google Patents

Abstract

An inner fin type multi-return-stroke hot water furnace body relates to the application field of boiler equipment. It contains furnace body, furnace, fin, tapered furnace copper wall, the outer awl section of thick bamboo of furnace body, the interior awl section of thick bamboo of furnace body, the furnace body adopt the intermediate layer design, the furnace body inner chamber be provided with furnace, furnace in be provided with a plurality of fins, furnace be provided with the inner awl section of thick bamboo of furnace body all around, the furnace body outside be provided with tapered furnace copper wall, tapered furnace copper wall inboard be connected with the outer awl section of thick bamboo of furnace body. With this utility model an interior many return strokes of fin formula hot water furnace body, cone bucket inner wall and interior fin are as the heat sink of heat exchange in the furnace, and cone outer wall and six baffles are as carrying out the heat abstractor of heat exchange to rivers in the runner in the furnace body, and its overall structure is compact, and under the condition of less volume, heat exchange area greatly increased effectively improves boiler thermal efficiency and volume simultaneously less, uses occupation space little, and is energy-conserving effectual, discharges lowly.

Description

Internal fin type multi-return-stroke hot water furnace body

Technical Field

The utility model relates to a boiler equipment application, concretely relates to many return strokes of interior fin formula hot water furnace body.

Background

At present, a small miniature household hot water heating boiler generally adopts a cylindrical or conical furnace tube structure, a circular or square water tank is additionally arranged at the top of the boiler to realize gas-water exchange, so that heat generated by combustion is transferred into water, and the water is taken as a carrier to be conveyed to a heat utilization area.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a many return strokes of interior fin formula hot water furnace body, traditional boiler with propose in solving above-mentioned background adopts the overhead air water exchange mode, its shortcoming is that heat transfer area is little, heat exchange efficiency is low, thereby cause the thermal efficiency low, exhaust gas temperature is high, it is extravagant to cause the energy, and the poor scheduling problem of heating effect, the heat absorbing device of heat exchange in this whole furnace body of hot water furnace body awl bucket inner wall and interior fin conduct furnace, cone outer wall and six baffles carry out the heat abstractor of heat exchange as rivers in to the runner in the furnace body, its overall structure is compact, under the condition of less volume, heat exchange area greatly increased, effectively improve boiler thermal efficiency and volume simultaneously less, it is little to use occupation space, energy-saving effect is good, it is low to discharge.

In order to achieve the above purpose, the utility model adopts the following technical scheme: it contains furnace body, furnace, fin, tapered furnace copper wall, the outer awl section of thick bamboo of furnace body, the interior awl section of thick bamboo of furnace body, the furnace body adopt the intermediate layer design, the furnace body inner chamber be provided with furnace, furnace in be provided with a plurality of fins, furnace be provided with the inner awl section of thick bamboo of furnace body all around, the furnace body outside be provided with tapered furnace copper wall, tapered furnace copper wall inboard be connected with the outer awl section of thick bamboo of furnace body.

A flow channel partition plate is arranged between the furnace body outer conical cylinder and the furnace body inner conical cylinder, water feeding holes are formed in two adjacent layers of the flow channel partition plate, and a flow channel is arranged between the flow channel partition plates.

The side surface of the top end of the furnace body is provided with a water outlet, the side edge of the bottom end of the furnace body is provided with a water inlet, and the opening part of the top end of the furnace body is provided with a furnace mouth.

The utility model discloses a theory of operation: the utility model provides an interior wing formula many return strokes hot water furnace body, the furnace body adopts the intermediate layer design, be many return strokes water course in the middle of the intermediate layer, for increasing heat transfer area and the heating time of water in the furnace body, the adjacent two-layer water hole of leaving of intermediate layer water course baffle, in order to ensure that rivers distance is the longest and heat transfer area is the biggest, and heating time is the longest, be equipped with the fin in the furnace of furnace body inner tube's furnace, the heat that produces in the furnace passes through fin and the absorption of toper furnace barrel wall, and transmit the aquatic of flowing through in many flow strokes water course through toper furnace barrel wall and many return strokes water course baffle, realize heat exchange, and carry the generated heat with the furnace burning regional heat consumption through carrier water.

After the technical scheme is adopted, the utility model discloses beneficial effect does: with this utility model an interior many return strokes of fin formula hot water furnace body, it adopts the overhead air water exchange mode to have solved traditional boiler, its shortcoming is that heat transfer area is little, heat exchange efficiency is low, thereby cause the thermal efficiency low, exhaust gas temperature is high, cause the energy waste, and the poor scheduling problem of heating effect, the heat absorbing device of heat exchange in this whole furnace body of hot water furnace body awl bucket inner wall and interior fin conduct furnace, cone outer wall and six baffles carry out the heat abstractor of heat exchange as rivers in to the runner in the furnace body, its overall structure is compact, under the condition of less volume, heat exchange area greatly increased, effectively improve boiler thermal efficiency simultaneously and volume less, it is little to use occupation space, energy-conserving effectual, it is low to discharge.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

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

FIG. 2 is a cross-sectional view of FIG. 1A-A;

fig. 3 is a cross-sectional view of fig. 1B-B.

Description of reference numerals: the furnace comprises a furnace body 1, a hearth 2, fins 3, a conical furnace copper wall 4, a furnace body outer conical cylinder 5, a furnace body inner conical cylinder 6, a flow channel partition plate 7, a water feeding hole 8, a flow channel 9, a water outlet 11, a water inlet 12 and a furnace mouth 13.

Detailed Description

Referring to fig. 1 to 2, the technical solution adopted by the present embodiment is: it contains furnace body 1, furnace 2, fin 3, the outer awl section of thick bamboo 5 of tapered furnace copper wall 4, furnace body, the interior awl section of thick bamboo 6 of furnace body, furnace body 1 adopt the intermediate layer design, 1 inner chamber of furnace body be provided with furnace 2, furnace in be provided with a plurality of fins 3, furnace be provided with the interior awl section of thick bamboo 6 of furnace body all around, 1 outside of furnace body be provided with tapered furnace copper wall 4, the 4 inboard of tapered furnace copper wall be connected with the outer awl section of thick bamboo 5 of furnace body.

Furthermore, a flow channel partition plate 7 is arranged between the furnace body outer conical cylinder 5 and the furnace body inner conical cylinder 6, two adjacent layers of the flow channel partition plate 7 are provided with upper water holes 8, and a flow channel 9 is arranged between the flow channel partition plates 7.

Furthermore, a water outlet 11 is arranged on the side surface of the top end of the furnace body 1, a water inlet 12 is arranged on the side edge of the bottom end of the furnace body 1, and a furnace mouth 13 is arranged on the mouth part of the top end of the furnace body 1.

The utility model discloses a theory of operation: the utility model provides an interior wing formula many return strokes hot water furnace body, the furnace body adopts the intermediate layer design, be many return strokes water course in the middle of the intermediate layer, for increasing heat transfer area and the heating time of water in the furnace body, the adjacent two-layer water hole of leaving of intermediate layer water course baffle, in order to ensure that rivers distance is the longest and heat transfer area is the biggest, and heating time is the longest, be equipped with the fin in the furnace of furnace body inner tube's furnace, the heat that produces in the furnace passes through fin and the absorption of toper furnace barrel wall, and transmit the aquatic of flowing through in many flow strokes water course through toper furnace barrel wall and many return strokes water course baffle, realize heat exchange, and carry the generated heat with the furnace burning regional heat consumption through carrier water.

After the technical scheme is adopted, the utility model discloses beneficial effect does: with this utility model an interior many return strokes of fin formula hot water furnace body, it adopts the overhead air water exchange mode to have solved traditional boiler, its shortcoming is that heat transfer area is little, heat exchange efficiency is low, thereby cause the thermal efficiency low, exhaust gas temperature is high, cause the energy waste, and the poor scheduling problem of heating effect, the heat absorbing device of heat exchange in this whole furnace body of hot water furnace body awl bucket inner wall and interior fin conduct furnace, cone outer wall and six baffles carry out the heat abstractor of heat exchange as rivers in to the runner in the furnace body, its overall structure is compact, under the condition of less volume, heat exchange area greatly increased, effectively improve boiler thermal efficiency simultaneously and volume less, it is little to use occupation space, energy-conserving effectual, it is low to discharge.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (3)

1. An inner fin type multi-return-stroke hot water furnace body is characterized in that: it contains furnace body (1), furnace (2), fin (3), tapered furnace copper wall (4), the outer awl section of thick bamboo of furnace body (5), the interior awl section of thick bamboo of furnace body (6), furnace body (1) adopt the intermediate layer design, furnace body (1) inner chamber be provided with furnace (2), furnace in be provided with a plurality of fins (3), furnace be provided with the interior awl section of thick bamboo of furnace body (6) all around, furnace body (1) outside be provided with tapered furnace copper wall (4), tapered furnace copper wall (4) inboard be connected with the outer awl section of thick bamboo of furnace body (5).

2. The internally finned multi-return hot water furnace body of claim 1, wherein: the furnace body outer cone cylinder (5) and the furnace body inner cone cylinder (6) are provided with a flow channel partition plate (7) therebetween, two adjacent layers of the flow channel partition plate (7) are provided with water feeding holes (8), and a flow channel (9) is arranged between the flow channel partition plates (7).

3. The internally finned multi-return hot water furnace body of claim 1, wherein: the furnace body (1) top side on be provided with delivery port (11), furnace body (1) bottom side on be provided with water inlet (12), furnace body (1) top oral area on be provided with fire door (13).

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