CN205980812U - Furnace body cooling system generates heat - Google Patents

Abstract

The utility model discloses a furnace body cooling system generates heat, including the cooling chamber, fence formula dispersion trachea and refrigeration cycle pipe, fence formula dispersion trachea and refrigeration cycle pipe set up in the cooling intracavity, fence formula dispersion trachea encircles refrigeration cycle pipe setting, fence formula dispersion trachea has air inlet and gas outlet, the inside cavity fluid intercommunication of air inlet and gas outlet and the furnace body that generates heat, the refrigeration cycle pipe is equipped with inlet and liquid outlet, during the operation, the coolant liquid gets into the refrigeration cycle pipe and flows from the liquid outlet from the inlet, the interior hot gas that produces of the furnace body that generates heat passes through the air inlet and gets into fence formula dispersion trachea, cooled off by the coolant liquid in the circulating pipe in fence formula dispersion trachea, then the inside cavity that gets into the furnace body that generates heat from the gas outlet cools off the furnace body that generates heat. The utility model discloses a furnace body cooling system generates heat adopts the cooling of circulation air cooling machine, can fall to maximum temperature in the stove below 50 degrees centigrade in 12 hours by force, and the furnace body cooling that realizes generating heat is high -efficient, quick.

Description

Heating body of heater cooling system

Technical field

This utility model is related to a kind of cooling system, relates more specifically to a kind of heating body of heater cooling system.

Background technology

Heating body of heater can produce substantial amounts of heat when producing, and these heats can make the temperature around heating body of heater Rapidly rise so that the temperature in manufacturing shop is very high, at high temperature the quality of the product in body of heater nor be guaranteed, Need to take the temperature in heating cooking stove body it is ensured that the temperature in heating cooking stove body is in OK range out of by cooling system.

Agglomerating plant generally requires for calandria to be heated to very high temperature, then by thermaltransmission mode, sample is carried out Heating, between often produce a lot of hot gas, the temperature of body of heater accordingly can become very high, general cooling system pass through water this Plant liquid equipment is lowered the temperature, the water after cooling needs to recycle again.In the prior art scheme, the water after cooling device Not only temperature is high, and reuses effect on driving birds is not good, does not only exist that cooling effect is bad, the wasting of resources, increases production cost, and And noise is especially big.

For above-mentioned weak point of the prior art, this utility model aims to provide a kind of cooling effect and preferably generates heat Body of heater cooling system.

Utility model content

The purpose of this utility model is exactly to provide a kind of good cooling results, economizes on resources and cost, the less heating of noise Body of heater cooling system.

This utility model provides a kind of heating body of heater cooling system it is characterised in that described heating body of heater cooling system Including cooling chamber, fence type dispersion trachea and cooling circulation pipe, described fence type dispersion trachea and cooling circulation pipe are arranged at institute State cooling intracavity, described fence type dispersion annulus trachealises are around described cooling circulation pipe setting, and described fence type dispersion trachea tool There are the chamber in fluid communication of air inlet and gas outlet, described air inlet and gas outlet and described heating furnace interior, described cooling Circulation pipe is provided with inlet and liquid outlet, during operation, described coolant from described inlet enter described cooling circulation pipe and from Described liquid outlet flows out, and the hot gas producing in described heating cooking stove body passes through the described fence type of described air inlet entrance and disperses gas Pipe, is cooled down by the coolant in described circulation pipe in described fence type dispersion tracheal strips, then enters described from described gas outlet The internal chamber of heating body of heater cools down to described heating body of heater.

Described heating furnace interior is provided with ventilation duct, and described ventilation duct is ringwise arranged in the inside of described watch box, The tube wall of described ventilation duct is provided with multiple fumaroles, for the cold wind from described cooling system is blown to retort four simultaneously In week, described ventilation duct and described gas outlet are in fluid communication and are used for receiving and disperse endotracheal cooling gas from described fence type Body.

Described inlet is located on the downside of described cooling system, and described liquid outlet is located on the upside of described cooling system, described cold But liquid flows from bottom to top.

Described fence type dispersion trachea is arranged from bottom to top along the inwall of described cooling chamber, thus forming spiralling grid Bar disperses trachea.

Described cooling circulation pipe is arranged from bottom to top along the inwall of described cooling chamber, thus form spiralling cooling following Endless tube.

Described fence type dispersion trachea is arranged in described cooling cavity wall, and described fence type dispersion trachea is cold with described But the alternate setting of circulation pipe.

It is preferred that described cooling system is additionally provided with bracing frame, support frame as described above is located at the lower section of described cooling chamber, for propping up Support whole cooling chamber.

Described fence type disperses the number of turns of trachea to enclose for 3-50, it is preferred that 8-30 circle, more preferably, 10-20 encloses.

The size of the aperture d of described fumarole is 1mm-300mm, it is preferred that 10mm-200mm, more preferably, 20mm- 100mm.

The size of the caliber D of described breather is 10mm-300mm, it is preferred that 10mm-200mm, more preferably, 20mm- 150mm.

The ratio d/D of the aperture d of the described fumarole and caliber D of described breather is 1: 50-1: 1, it is preferred that 1: 30-1 : 1, more preferably, 1: 10-1: 1.

Major advantage of the present utility model includes：

A () heating body of heater cooling is efficient, quick, good cooling effect；

B () economizes on resources, reduce production cost, expands income；

C () noise is little；

D () fully condenses, fully optimize inner space.

Therefore, this utility model effectively reduces heating furnace body temperature, promotes the normally and efficiently operation of production technology, increases enterprise Industry income.

It should be understood that in the range of this utility model, above-mentioned each technical characteristic of the present utility model and below (such as enforcement Example) in can be combined with each other, thus constituting new or preferred technical scheme between each technical characteristic of specifically describing.It is limited to Length, here is no longer tired one by one to be stated.

Brief description

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or in description of the prior art the accompanying drawing of required use do simply introduce it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the heating body of heater cooling system structural map in one example of this utility model；

Fig. 2 is (annular) construction of fence type dispersion trachea of the heating body of heater cooling system in one example of this utility model Figure.

In described heating body of heater cooling system, the structural map of the circulating water pipe in cooling chamber is similar with Fig. 2, its difference It is, cooling circulating water pipeline is hermetically annular conduit, from bottom to top, fully condenses.

Each accompanying drawing, each sign is as follows：

1 bracing frame；

2- fence type disperses trachea；

3- inlet；

4- liquid outlet；

5- air inlet；

6 gas outlets；

7- trachea welding base；

8- inlet plenum；

9- gives vent to anger chamber.

Specific embodiment

The present inventor, through extensively in-depth study, is screened by a large amount of, develops a kind of cooling system first.This is cold But system can achieve that heating body of heater cooling is quick, and good cooling results economize on resources and cost, noise is less, complete on this basis Become this utility model.

Term

As used herein, term " cooling system " and term " circulated air cold ", equivalent in meaning, is used interchangeably.

This utility model provides a kind of cooling system, and it is a kind of good cooling results, economizes on resources and cost, and noise is relatively Little cooling system.

Typically, a kind of cooling system, for cooling down to heating body of heater, disperses trachea including cooling chamber, fence type With cooling circulation pipe.Described fence type dispersion trachea and cooling circulation pipe are arranged at described cooling intracavity, described fence type dispersion Annulus trachealises, around described cooling circulation pipe setting, expand contact area to greatest extent, effectively realize the effect of quick cooling, and Described fence type dispersion trachea has air inlet and gas outlet, the chamber of described air inlet and gas outlet and described heating furnace interior Room is in fluid communication, and described cooling circulation pipe is provided with inlet and liquid outlet.

Typically, described cooling chamber be used for cooling from described heating body of heater hot gas, described as from described The circulation of the hot gas of hot body of heater, heat exchange place, described fence type dispersion feed channel structure is ringwise and/or spirally；Described Cooling circulating line is used for the circulating cooling liquid of the hot gas of described heating body of heater that circulates, cools down, described cooling circulating line knot Structure is ringwise and/or spirally；Described cooling circulating water pipeline be two-way, a road is lower inlet pipeline, a road be on go out liquid Mouth pipeline, described inlet pipeline is connected to the inlet of described cooling chamber, and described liquid outlet pipeline is connected to described cooling chamber Liquid outlet.

Typically, during operation, described coolant enters described cooling circulation pipe and from described liquid outlet from described inlet Flow out, the hot gas producing in described heating cooking stove body passes through the described fence type of described air inlet entrance and disperses trachea, in described grid Bar dispersion tracheal strips are cooled down by the coolant in described circulation pipe, then enter in described heating body of heater from described gas outlet Portion's chamber cools down to described heating body of heater.

Typically, the retort of described heating body of heater is internally provided with ventilation duct, and described ventilation duct is in described heating body of heater Ringwise arrange inside retort, multiple fumaroles are provided with the tube wall of described ventilation duct, for will be cold from cooling system Wind blows to retort surrounding simultaneously, and described ventilation duct and described gas outlet are in fluid communication and are used for receiving from described fence type dispersion Endotracheal cooling gas.

Typically, described inlet is located on the downside of described cooling system, and described liquid outlet is located on the upside of described cooling system, Described coolant flows from bottom to top.

Typically, described fence type disperses trachea and described cooling circulation pipe to set from bottom to top along the inwall of described cooling chamber Put, thus forming spiralling fence type dispersion trachea.Described fence type dispersion trachea is arranged in described cooling cavity wall, with And described fence type dispersion trachea and the described cooling alternate setting of circulation pipe.

Below in conjunction with the accompanying drawings this utility model is described further.

As shown in figure 1, this utility model cooling system includes bracing frame 1, fence type disperses trachea 2, cooling chamber, and cooling follows Ring waterpipe, the system left and right sides further respectively has air inlet 5 and gas outlet 6, and upper and lower both sides further respectively have inlet 3 and go out Liquid mouth 4.Additionally, described fence type disperses trachea 2 to be referred to as, near the side of air inlet 5, the air inlet that described fence type disperses trachea 2 End 8, described fence type disperses trachea 2 to be referred to as, near the side of gas outlet 6, the outlet side 9 that described fence type disperses trachea 2.

Described fence type dispersion trachea 2 is located in cooling chamber, and described fence type disperses the inlet end of trachea 2 and outlet side to divide It is not welded on the trachea welding base 7 of two pieces of vacuum flanges, form airtight chamber, separate with cooling water channel.

Described cooling circulating line is located in described cooling chamber, and two ends connect described inlet 3 and described liquid outlet respectively 4, described inlet 3 is connected to inlet pipeline, and described liquid outlet 4 is connected to liquid outlet pipeline.Described inlet 3 is located at system Downside, described liquid outlet 4 is located on the upside of system, and current flow from bottom to top, and thermal current is cooled down, and fully ensure that maximum cold But effect.

As shown in Fig. 2 described fence type dispersion trachea 2 is ringwise, advantageously contact area maximizes, through similar structures Annular or screw type cooling circulating water pipeline after cooling effect more preferably, solve currently available technology, long-term heat distributes Do not go out, the too high problem of cooling water temperature.

Fast and effectively basis is this utility model cooling system, enters in circulated air cold, by feed channel to heat While air-flow is fully exchanged, also by annular or spiral type coolant pipe thermal current is lowered the temperature simultaneously, finally by Gas outlet is discharged, and so that heating body of heater is lowered the temperature more thorough, comprehensively.Using the cooling of this utility model circulated air cold, can by force Maximum temperature in stove is dropped to less than 50 degrees Celsius in 12 hours, realizes heating body of heater cooling efficiently, quickly.

The all documents referring in this utility model are all incorporated as reference in this application, just as each document quilt It is individually recited as with reference to like that.In addition, it is to be understood that after having read above-mentioned teachings of the present utility model, this area skill Art personnel can make various changes or modifications to this utility model, and these equivalent form of values equally fall within the application claims Book limited range.

Claims (10)

1. a kind of heating body of heater cooling system is it is characterised in that described heating body of heater cooling system includes cooling chamber, fence type divides Diffuser and cooling circulation pipe, described fence type dispersion trachea and cooling circulation pipe are arranged at described cooling intracavity, described fence Formula dispersion annulus trachealises are around described cooling circulation pipe setting, and described fence type dispersion trachea has air inlet and gas outlet, institute State the chamber in fluid communication of air inlet and gas outlet and described heating furnace interior, described cooling circulation pipe is provided with inlet and goes out Liquid mouth, during operation, described coolant flows out from described inlet entrance described cooling circulation pipe and from described liquid outlet, described The hot gas producing in hot body of heater passes through described air inlet and enters described fence type dispersion trachea, disperses trachea in described fence type Interior cooled down by the coolant in described circulation pipe, then from described gas outlet enter described heating body of heater internal chamber to described Heating body of heater is cooled down.

2. heating body of heater cooling system as claimed in claim 1 is it is characterised in that described heating furnace interior is provided with ventilation Pipe, described ventilation duct is ringwise arranged in the inside of described heating body of heater, is provided with multiple jets on the tube wall of described ventilation duct Hole, for by the cold wind from cooling system blow to simultaneously described heating body of heater retort surrounding, described ventilation duct with described go out QI KOU is in fluid communication and is used for receiving disperses endotracheal cooling gas from described fence type.

3. heating body of heater cooling system as claimed in claim 1 is it is characterised in that described inlet is located at described cooling system Downside, described liquid outlet is located on the upside of described cooling system, and described coolant flows from bottom to top.

4. heating body of heater cooling system as claimed in claim 1 is it is characterised in that described fence type dispersion trachea is along described cold But the inwall in chamber is arranged from bottom to top, thus forming spiralling fence type dispersion trachea.

5. heating body of heater cooling system as claimed in claim 4 is it is characterised in that described cooling circulation pipe is along described cooling chamber Inwall arrange from bottom to top, thus forming spiralling cooling circulation pipe.

6. described heating body of heater cooling system as arbitrary in claim 4 and 5 is it is characterised in that described fence type disperses trachea It is arranged in described cooling cavity wall, and described fence type dispersion trachea and the described cooling alternate setting of circulation pipe.

7. heating body of heater cooling system as claimed in claim 1 is it is characterised in that described heating body of heater cooling system is additionally provided with Bracing frame, support frame as described above is arranged at the lower section of described cooling chamber, for supporting whole cooling chamber.

8. heating body of heater cooling system as claimed in claim 1 is it is characterised in that the number of turns of described fence type dispersion trachea is 3-50 encloses.

9. heating body of heater cooling system as claimed in claim 2 is it is characterised in that the size of the aperture d of described fumarole is 1mm-300mm；The size of the caliber D of described breather is 10mm-300mm.

10. heating body of heater cooling system as claimed in claim 9 is it is characterised in that the aperture d of described fumarole is logical with described The ratio d/D of the caliber D of trachea is 1: 50-1: 1.