CN218645860U - Quick cooling structure of boiler - Google Patents

Abstract

The utility model discloses a rapid cooling structure of boiler, comprising a base plate, the top fixedly connected with of bottom plate handles the case and the pot body, the top fixedly connected with furnace body of the pot body, the top fixedly connected with sleeve of the pot body, telescopic inner wall fixedly connected with atomizing nozzle, the fixed surface of furnace body is connected with the spiral cooling tube, handle the bottom fixedly connected with water tank of incasement wall, the delivery port intercommunication of water tank has the water pump, the water pump passes through the pipeline intercommunication with atomizing nozzle, the top fixedly connected with dry refrigerator of water tank. The utility model discloses a setting of bottom plate, processing case, the pot body, furnace body, spiral cooling tube, sleeve, atomizing nozzle, water tank, water pump, dry refrigerator, second coiled pipe, delivery pump and first coiled pipe has solved the cooling structure of boiler on the existing market and has often adopted water-cooled mode to cool down the boiler, and this mode cooling structure is single, leads to the slow problem of cooling speed.

Description

Quick cooling structure of boiler

Technical Field

The utility model relates to a boiler technical field specifically is a rapid cooling structure of boiler.

Background

The boiler is an energy conversion device, the energy input to the boiler comprises chemical energy, electric energy and the like in fuel, the boiler outputs steam, high-temperature water or an organic heat carrier with certain heat energy, the hot water or the steam generated in the boiler can directly provide heat energy required for industrial production and people life, and can also be converted into mechanical energy through a steam power device or be converted into the electric energy through a generator. In the use process of the boiler, the overheating condition of the boiler body can occur, the service lives of the boiler body and the internal equipment of the boiler body can be seriously influenced, and therefore economic loss is caused.

The cooling structure of boiler often adopts water-cooled mode to cool down the boiler in the existing market, and this mode cooling structure is single, leads to cooling speed slow, consequently need design transformation to the rapid cooling structure of boiler, effectually prevents that its phenomenon that cooling speed is slow from appearing.

SUMMERY OF THE UTILITY MODEL

For solving the problem that provides in the above-mentioned background art, the utility model aims to provide a rapid cooling structure of boiler possesses the fast advantage of cooling rate, and the cooling structure of having solved boiler on the existing market often adopts water-cooled mode to cool down to the boiler, and this mode cooling structure is single, leads to the slow problem of cooling rate.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a rapid cooling structure of boiler, includes the bottom plate, the top fixedly connected with of bottom plate handles the case and the pot body, the top fixedly connected with furnace body of the pot body, the top fixedly connected with sleeve of the pot body, telescopic inner wall fixedly connected with atomizing nozzle, the fixed surface of furnace body is connected with spiral cooling tube, the bottom fixedly connected with water tank of handling the incasement wall, the delivery port intercommunication of water tank has the water pump, the water pump passes through the pipeline intercommunication with atomizing nozzle, the top fixedly connected with dry refrigeration case of water tank, the first coiled pipe of back fixedly connected with of handling the case, the inside fixedly connected with second coiled pipe of dry refrigeration case, the top fixedly connected with delivery pump of handling the incasement wall, the delivery port of spiral cooling tube and the water inlet intercommunication of first coiled pipe, the delivery port of first coiled pipe and the water inlet intercommunication of second coiled pipe, the delivery port of second coiled pipe and the water inlet intercommunication of delivery pump, the delivery port of delivery pump and the water inlet intercommunication of spiral cooling tube.

As the utility model discloses it is preferred, the back fixedly connected with fan of handling the case.

As the utility model discloses it is preferred, handle the right side fixedly connected with air pump of incasement wall, the air inlet intercommunication of air pump has the intake pipe, the intake pipe runs through dry refrigerator and extends to the left side of handling the case, the gas outlet of air pump passes through the pipeline and extends to telescopic inside.

As the utility model discloses preferred, the inside fixedly connected with filter screen of intake pipe.

As the utility model discloses preferred, telescopic fixed surface is connected with thermal-insulated felt.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a bottom plate, handle the case, the pot body, the furnace body, the spiral cooling tube, the sleeve, atomizing nozzle, the water tank, a water pump, the dry fridge, the second coiled pipe, the setting of delivery pump and first coiled pipe, the cooling structure of boiler has been solved on the existing market often adopts the water-cooled mode to cool down to the boiler, this mode cooling structure is single, lead to the slow problem of cooling speed, in use, when the furnace body high temperature and when needs cool down the furnace body, the operator starts the delivery pump, under the effect of delivery pump, coolant flow in the second coiled pipe is to the spiral cooling tube in, from and carry out first order cooling treatment to the furnace body, then coolant flow is to the first coiled pipe in, then the operator starts the fan, thereby cool down the coolant flow in the first coiled pipe, coolant flow in last first coiled pipe is to the second coiled pipe in, the inside of dry fridge is provided with the dry ice, thereby make the incasement temperature lower, thereby dispel the heat to the coolant liquid in the second coiled pipe, cycle in proper order, the device possesses the advantage of cooling speed.

2. The utility model discloses a setting of fan can increase near the air flow rate of first coiled pipe, and then accelerates the radiating rate of cooling liquid in the first coiled pipe.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional view of the structure of the present invention;

fig. 3 is a left side schematic view of the structure of the present invention.

In the figure: 1. a base plate; 2. a treatment tank; 3. a pan body; 4. a furnace body; 5. a spiral radiating pipe; 6. a sleeve; 7. an atomizing nozzle; 8. a water tank; 9. a water pump; 10. a dry refrigerator; 11. a second serpentine tube; 12. a delivery pump; 13. a first serpentine tube; 14. an air pump; 15. an air inlet pipe; 16. a filter screen; 17. a fan; 18. a heat insulation felt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 3, a rapid cooling structure of boiler, including a bottom plate 1, a top fixedly connected with processing box 2 and a pot body 3 of bottom plate 1, a top fixedly connected with furnace body 4 of pot body 3, a top fixedly connected with sleeve 6 of pot body 3, an inner wall fixedly connected with atomizing nozzle 7 of sleeve 6, a fixed surface of furnace body 4 is connected with spiral radiating pipe 5, a bottom fixedly connected with water tank 8 of the inner wall of processing box 2, a water outlet of water tank 8 is communicated with a water pump 9, water pump 9 is communicated with atomizing nozzle 7 through a pipeline, a top fixedly connected with dry refrigerator 10 of water tank 8, a first coil pipe 13 fixedly connected with the back of processing box 2, a second coil pipe 11 fixedly connected with the inside of dry refrigerator 10, a top fixedly connected with delivery pump 12 of the inner wall of processing box 2, a water outlet of spiral radiating pipe 5 is communicated with a water inlet of first coil pipe 13, a water outlet of first coil pipe 13 is communicated with a water inlet of second coil pipe 11, a water outlet of second coil pipe 11 is communicated with a water inlet of delivery pump 12, and a water inlet of delivery pump 12 is communicated with a water inlet of spiral radiating pipe 5.

Referring to fig. 3, a fan 17 is fixedly connected to the rear surface of the treatment tank 2.

As a technical optimization scheme of the utility model, through fan 17's setting, can increase near the air flow rate of first coiled pipe 13, and then accelerate the radiating rate of cooling liquid in first coiled pipe 13.

Referring to fig. 2, an air pump 14 is fixedly connected to the right side of the inner wall of the processing box 2, an air inlet of the air pump 14 is communicated with an air inlet pipe 15, the air inlet pipe 15 penetrates through the dry refrigerator 10 and extends to the left side of the processing box 2, and an air outlet of the air pump 14 extends to the inside of the sleeve 6 through a pipeline.

As a technical optimization scheme of the utility model, through the setting of air pump 14 and intake pipe 15, can be to the lower gas of the inside delivery temperature of sleeve 6 to accelerate the heat dissipation of furnace body 4.

Referring to fig. 2, a filter screen 16 is fixedly connected to the inside of the intake duct 15.

As a technical optimization scheme of the utility model, through filter screen 16's setting, can filter the dust in the air, prevent that the dust from gathering in intake pipe 15's inside and leading to intake pipe 15 and outside heat conduction speed's reduction.

Referring to fig. 2, an insulation blanket 18 is fixedly attached to the surface of the sleeve 6.

As a technical optimization scheme of the utility model, through the setting of thermal-insulated felt 18, can prevent that the operator from bumping furnace body 4 and scalding because of the mistake.

The utility model discloses a theory of operation and use flow: when the furnace body 4 is required to be cooled due to overhigh temperature of the furnace body 4, an operator starts the conveying pump 12, under the action of the conveying pump 12, the cooling liquid in the second coiled pipe 11 flows into the spiral radiating pipe 5, so that the first-stage cooling treatment is performed on the furnace body 4, then the cooling liquid flows into the first coiled pipe 13, then the operator starts the fan 17, so that the cooling liquid in the first coiled pipe 13 is cooled, finally the cooling liquid in the first coiled pipe 13 flows into the second coiled pipe 11, and dry ice is arranged inside the refrigerator dryer 10, so that the temperature in the refrigerator dryer 10 is lower, and the cooling liquid in the second coiled pipe 11 is radiated and sequentially circulated;

then the operator starts water pump 9 for the water in the water tank 8 is through atomizing nozzle 7 blowout, thereby carries out the second level heat dissipation to furnace body 4, then the operator starts air pump 14, makes outside air sucked intake pipe 15, because intake pipe 15 runs through dry-type freezer 10, makes the air temperature in the intake pipe 15 reduce, then is carried to the bottom of sleeve 6, then carries out the forced air cooling heat dissipation to furnace body 4, thereby realizes the third level heat dissipation to furnace body 4.

In summary, the following steps: this rapid cooling structure of boiler through bottom plate 1, handle case 2, the pot body 3, furnace body 4, spiral cooling tube 5, sleeve 6, atomizing nozzle 7, water tank 8, water pump 9, dry refrigerator 10, second coiled pipe 11, delivery pump 12 and the setting of first coiled pipe 13, has solved the cooling structure of boiler on the existing market and often has adopted water-cooled mode to cool down to the boiler, and this mode cooling structure is single, leads to the slow problem of cooling speed.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a rapid cooling structure of boiler, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is fixedly connected with a processing box (2) and a pot body (3), the top of the pan body (3) is fixedly connected with a pan body (4), the top of the pan body (3) is fixedly connected with a sleeve (6), the inner wall of the sleeve (6) is fixedly connected with an atomizing nozzle (7), the surface of the furnace body (4) is fixedly connected with a spiral radiating pipe (5), the bottom of the inner wall of the treatment box (2) is fixedly connected with a water tank (8), the water outlet of the water tank (8) is communicated with a water pump (9), the water pump (9) is communicated with the atomizing nozzle (7) through a pipeline, the top of the water tank (8) is fixedly connected with a dry refrigerator (10), the back of the treatment box (2) is fixedly connected with a first coiled pipe (13), a second coiled pipe (11) is fixedly connected inside the dry refrigerator (10), the top of the inner wall of the treatment box (2) is fixedly connected with a delivery pump (12), the water outlet of the spiral radiating pipe (5) is communicated with the water inlet of the first coiled pipe (13), the water outlet of the first coiled pipe (13) is communicated with the water inlet of the second coiled pipe (11), the water outlet of the second coiled pipe (11) is communicated with the water inlet of the delivery pump (12), the water outlet of the delivery pump (12) is communicated with the water inlet of the spiral radiating pipe (5).

2. The rapid cooling structure of a boiler according to claim 1, wherein: the back of the treatment box (2) is fixedly connected with a fan (17).

3. The rapid cooling structure of a boiler according to claim 1, wherein: handle right side fixedly connected with air pump (14) of case (2) inner wall, the air inlet intercommunication of air pump (14) has intake pipe (15), intake pipe (15) run through dry refrigerator (10) and extend to the left side of handling case (2), the gas outlet of air pump (14) passes through the inside that the pipeline extended to sleeve (6).

4. A rapid cooling structure of a boiler according to claim 3, wherein: and a filter screen (16) is fixedly connected inside the air inlet pipe (15).

5. The rapid cooling structure of a boiler according to claim 1, wherein: and the surface of the sleeve (6) is fixedly connected with a heat insulation felt (18).

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