CN202254992U - Integral heat pipe gas temperature regulator - Google Patents

Abstract

The embodiment of the utility model discloses an integral heat pipe gas temperature regulator. The integral heat pipe gas temperature regulator comprises an evaporator, a condenser, a heat pipe group, a spraying component and a water funnel, wherein the evaporator is arranged in a high-temperature flue gas channel; the condenser is arranged in a low-temperature flue gas channel, the condenser and the evaporator are separated by a baffle; the heat pipe group penetrates through the baffle, a part of the heat pipe group is arranged in the evaporator to form an evaporation section, the other part of the heat pipe group is arranged in the condenser to form a condensing section, a heat transfer working medium is filled in the heat pipe group, both ends of the heat pipe group are closed; the spraying component is arranged on the condenser and above the heat pipe group; and the upper end of the water funnel is connected with the inner wall of the lower part of the condenser in a sealing manner and is arranged below the heat pipe group, and the lower end of the water funnel is connected with a water tank through a drainage pipe. The evaporator and condenser of the integral heat pipe gas temperature regulator are both in a sealed environment,when the regulator is used to cool a dangerous gas (such as coal gas), no air can enter the regulator and the use safety can be ensured.

Description

The integrated thermal fume temperature regulator

Technical field

The utility model relates to a kind of heat exchanger, particularly a kind ofly is installed in the integrated thermal fume temperature regulator that coal gas of converter dry dust removal system afterbody is used to cool off coal gas.

Background technology

The temperature of coal gas of converter is very high, needs it is cooled off.At present, the cooling device of coal gas of converter is divided into two kinds basically.A kind of is spray thrower, and spray thrower is arranged in the gas passage, and the mode of coal gas being carried out spraying steam and water rapid cooling makes its cooling.The type of cooling of said spray has drawback: make the coal gas moisture big, thereby influence the service life and the dust removing effects of cleaner; In addition, the mode of spray also can influence the quality that reclaims coal gas.Another kind is the common tube shell heat exchanger.Said heat exchanger has drawback: its complex structure, gas lateral section are little, and resistance drop is big, and are easy to stop up, and cause heat exchanger heat exchange weak effect, can't satisfy production requirement at all, the most important thing is to exist unsafe factors such as gas leak.

Also having a kind of cooling device is fume temperature regulator, and referring to shown in Figure 1, said fume temperature regulator comprises evaporimeter 1 ', condenser 2 ', heat pipe pipe group 3 ' and spray assembly 4 '.Evaporimeter 1 ' is arranged in the high-temperature flue gas passage, and condenser 2 ' places outdoor.Evaporimeter 1 ' be a monoblock type with condenser 2 ', between through the dividing plate separation.Heat pipe pipe group 3 ' is passed dividing plate, and a part is positioned at evaporimeter 1 ' and forms evaporator section 31 ', and another part is positioned at condenser and forms condensation segment 32 ', has heat-transfer working medium in the said heat pipe pipe group 3 '.Spray assembly 4 ' is arranged on the condenser 2 ', and is positioned at the top of condensation segment.Spray assembly 4 ' comprises moisturizing tube bank 41 ' and water leg 42 '; One end of moisturizing tube bank 41 ' is water supplement port 41a '; The below of moisturizing tube bank 41 ' is provided with a plurality of nozzles 43 '; The below of heat pipe pipe group 3 ' is provided with shutter 44 ' and water leg 42 ', and an end of water leg 42 ' is provided with discharge outlet 42a '.

Said evaporimeter 1 ' is arranged in the gas passage, and condenser 2 ' is arranged at outdoor, adopts the air cooling.During work; Form steam behind the heat of coal gas in the heat-transfer working medium absorption gas passage in the evaporator section, steam gets into condensation segment from evaporator section, and air sucks from shutter 44 '; Steam receives air in condensation segment cooling forms water; Water flows back to the evaporator section from condensation segment again, and circulation again and again is to handle the cooling of the coal gas in the gas passage.Simultaneously, nozzle 43 ' ejection liquid is injected on the condensation segment liquid, so that condensation segment carries out water-cooled, the liquid that is sprayed finally falls into water leg 42 ', from the discharge outlet 42a ' outflow of water leg 42 '.

In addition, in order to improve the air velocity of condensation segment 32 ', the heat transfer of enforcing condensation section is provided with blower fan 5 ' in the top of condensation segment 32 '.

But the below of above-mentioned condensation segment is an open type, separates with dividing plate between evaporimeter 1 ' and the condenser 2 '; And evaporator section is arranged in the gas passage, and what walk is high-temperature flue gas, and condensation segment is arranged on outdoor; What walk is air, therefore, need guarantee the making precision of dividing plate; The air that could guarantee low temperature can not pass through dividing plate to the evaporimeter internal leakage, otherwise in high-temperature flue gas, introduces air via dividing plate, and is explosion caused easily.

The utility model content

The purpose of the utility model is a kind of integrated thermal fume temperature regulator to be provided, to overcome above-mentioned defective, the security that raising is used.

The above-mentioned purpose of the utility model can adopt following technical proposal to realize:

A kind of integrated thermal fume temperature regulator, it comprises: evaporimeter, it is arranged in the high-temperature flue gas passage; Condenser, it is arranged in the low-temperature flue gas passage, separates through dividing plate between said condenser and the evaporimeter; Heat pipe pipe group, it passes said dividing plate, and a part is positioned at evaporimeter and forms evaporator section, and another part is positioned at condenser and forms condensation segment, has heat-transfer working medium in the said heat pipe pipe group, the closed at both ends of said heat pipe pipe group; The spray assembly, it is arranged on the said condenser, and said spray assembly is positioned at the top of heat pipe pipe group; The water receiving funnel, its upper end is connected with the inner wall sealing of the below of said condenser, and is positioned at the below of said heat pipe pipe group, and the lower end of said water receiving funnel connects water tank through drainage tube.

In preferred embodiment, said heat pipe pipe group is obliquely installed, and epimere is said condensation segment, and hypomere is said evaporator section.

In preferred embodiment, said heat pipe pipe group comprises a plurality of heat pipes that laterally arrange, and said heat-transfer working medium, the closed at both ends of each heat pipe are set in each heat pipe.

In preferred embodiment, said spray assembly comprises the moisturizing tube bank, and an end of said moisturizing tube bank is a water supplement port, and the below of moisturizing tube bank is provided with a plurality of nozzles.

In preferred embodiment, said moisturizing tube bank comprises a plurality of filling pipes, and each filling pipe all is connected with a moisturizing house steward, and said moisturizing house steward has said water supplement port.

In preferred embodiment, said water tank is the open tank of top cover sealing.

In preferred embodiment, the drainage tube of the lower end of said water receiving funnel is connected to the position below the liquid level in the said water tank.

In preferred embodiment, the outer surface of said heat pipe is wound with fin.

Characteristics and the advantage of the utility model embodiment are: be connected through dividing plate between its condenser and the evaporimeter; Because what flow in evaporimeter and the condenser all is coal gas; And the upper end of the water receiving funnel of condenser below around be and be tightly connected, make that the condenser below is that mode with the water seal sealing has completely cut off air, that is to say; Evaporimeter and condenser all are in the environment of sealing; When it is applied to the cooling of dangerous gas (such as coal gas), does not have air and get into, thereby guaranteed the security of using.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art; To do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below; Obviously, the accompanying drawing in describing below only is some embodiment of the utility model, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is that the structure master of the fume temperature regulator of being correlated with looks sketch map;

Fig. 2 is that the master of structure of the fume temperature regulator of the utility model embodiment looks sketch map;

Fig. 3 is the schematic top plan view of structure of the fume temperature regulator of the utility model embodiment.

The specific embodiment

To combine the accompanying drawing among the utility model embodiment below, the technical scheme among the utility model embodiment is carried out clear, intactly description, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.

Referring to Fig. 2 and shown in Figure 3, the integrated thermal fume temperature regulator that the utility model embodiment proposes, it comprises evaporimeter 1, condenser 2, heat pipe pipe group 3, spray assembly 4 and water receiving funnel 5.Said evaporimeter 1 is arranged in the high-temperature flue gas passage.Condenser 2 is arranged in the low-temperature flue gas passage, separates through dividing plate between said condenser 2 and the evaporimeter 1.Heat pipe pipe group 3 is passed said dividing plate, and a part is positioned at evaporimeter 1 and forms evaporator section 31, and another part is positioned at condenser 2 and forms condensation segment 32, has heat-transfer working medium in the said heat pipe pipe group 3, the closed at both ends of said heat pipe pipe group 3.Spray assembly 4 is arranged on the said condenser 2, and is positioned at the top of heat pipe pipe group 3.The upper end of water receiving funnel 5 is connected with the inner wall sealing of the below of said condenser 2, and is positioned at the below of said heat pipe pipe group 3, and the lower end of said water receiving funnel 5 connects water tank 6 through drainage tube 51.

The utility model embodiment adopts heat pipe pipe group 3 as heat-transfer surface, and evaporimeter 1 is arranged in the high-temperature flue gas passage, and condenser 2 is arranged in the low-temperature flue gas passage.The evaporator section 31 of heat pipe pipe group 3 places the high-temperature flue gas passage, and the heat-transfer working medium in it absorbs heat and produces steam, imports condensation segment 32 into.Spray assembly 4 in the condenser 2 ejects cooling fluid the heat pipe pipe group of condensation segment 31 is carried out water-cooled cooling; The steam that imports condensation segment 32 into is cooled at condensation segment 32 and forms water after liquid cooling is but lowered the temperature; Water flows into evaporator section 31, reduces the gas temperature in the flue in this way.Cooling fluid falls into water receiving funnel 5 after heat pipe pipe group 3 is cooled, and gets into water tank 6 through drainage tube 51, is used to seal the end of water receiving funnel 5, does not allow air to pass through water receiving funnel 5 and gets into condensation side.

Among the utility model embodiment; Be connected through dividing plate between condenser 2 and the evaporimeter 1 because what flow in evaporimeter 1 and the condenser 2 all is coal gas, and the upper end of the water receiving funnel 5 of condenser 2 belows around be and be tightly connected; Make that condenser 2 belows are to have completely cut off air with the mode that water seal seals; That is to say, all do not have air in evaporimeter 1 and the condenser 2 and get into, thereby guaranteed the security of using.

According to an embodiment of the utility model, said heat pipe pipe group 3 is obliquely installed, and epimere is said condensation segment 32, and hypomere is said evaporator section 31.When the heat-transfer working medium in the heat pipe pipe group 3 after evaporator section 31 absorbs heats and produces steam; Flow into the condensation segment 32 of epimere; And at condensation segment 32 formation water after the cooling fluid cooling of spray assembly 4 ejections, and flow into evaporator section 31 again, go round and begin again; The heat pipe pipe group 3 that tilts makes the mobile more smooth and easy of steam and water in the heat pipe pipe group 3, and cooling effect is better.

Furthermore, said heat pipe pipe group 3 comprises a plurality of heat pipes that laterally arrange, and said heat-transfer working medium, the closed at both ends of each heat pipe are set in each heat pipe.Wherein, each heat pipe can be straight tube, also can be swan-neck, not as limit, as long as the steam of evaporator section 31 and the water of condensation segment 32 can be flowed each other.

According to an embodiment of the utility model, said spray assembly 4 comprises moisturizing tube bank 41, and an end of said moisturizing tube bank 41 is water supplement port 41a, and the below of moisturizing tube bank 41 is provided with a plurality of nozzles 42.Cooling liquid such as water gets into moisturizing tube bank 41 from water supplement port 41a, and ejection from nozzle 42, and the liquid of ejection can be injected into the outer surface of condensation segment 32.

Specifically be, moisturizing tube bank 41 comprises a plurality of filling pipes, and each filling pipe all is connected with a moisturizing house steward, and the moisturizing house steward has water supplement port 41a, and cooling liquid gets into each filling pipe from water supplement port 41a through the moisturizing house steward.Wherein, nozzle 42 can be restrained 41 length direction along moisturizing and evenly arranged, so that liquid can cover condensation segment 32 all outer surfaces as much as possible; The quantity of nozzle 42 and position can be determined on a case-by-case basis, as long as make the heat pipe in each condensation segment 32 all can be directed onto water.Wherein, moisturizing tube bank 41 can be parallel with heat pipe pipe group 3, i.e. moisturizing tube bank 41 also is obliquely installed, and it is identical to make that nozzle 42 arrives the distance of heat pipe of condensation segments 32, and cooling evenly.

According to an embodiment of the utility model, said water tank 6 is the open tank of top cover sealing.

The drainage tube 51 of the lower end of said water receiving funnel 5 is connected to the position below the liquid level in the said water tank 6.Specifically; Said water tank 6 has a discharge outlet, and said discharge outlet has a segment distance apart from the bottom surface of water tank 6, and the liquid level in the water tank 6 is maintained on the certain height; The lower end of drainage tube 51 is positioned at the lower position of said liquid level, thereby has the effect of lasting water seal sealing.

The outer surface of said heat pipe is wound with fin, with the expansion heat transfer area.

The utility model embodiment's is simple in structure, good heat dissipation effect, and heat exchange efficiency is high, is a kind of desirable cooling heat transferring utensil, is particularly suitable for the coal gas of converter dry dust removal, is used to cool off coal gas.

The above is merely several embodiment of the utility model, and those skilled in the art can carry out various changes or modification to the utility model embodiment and do not break away from the spirit and the scope of the utility model according to application documents are disclosed.

Claims (8)

1. an integrated thermal fume temperature regulator is characterized in that, said fume temperature regulator comprises:

Evaporimeter, it is arranged in the high-temperature flue gas passage;

Condenser, it is arranged in the low-temperature flue gas passage, separates through dividing plate between said condenser and the evaporimeter;

Heat pipe pipe group, it passes said dividing plate, and a part is positioned at evaporimeter and forms evaporator section, and another part is positioned at condenser and forms condensation segment, has heat-transfer working medium in the said heat pipe pipe group, the closed at both ends of said heat pipe pipe group;

The spray assembly, it is arranged on the said condenser, and said spray assembly is positioned at the top of heat pipe pipe group;

The water receiving funnel, its upper end is connected with the inner wall sealing of the below of said condenser, and is positioned at the below of said heat pipe pipe group, and the lower end of said water receiving funnel connects water tank through drainage tube.

2. integrated thermal fume temperature regulator according to claim 1 is characterized in that, said heat pipe pipe group is obliquely installed, and epimere is said condensation segment, and hypomere is said evaporator section.

3. integrated thermal fume temperature regulator according to claim 2 is characterized in that, said heat pipe pipe group comprises a plurality of heat pipes that laterally arrange, and said heat-transfer working medium, the closed at both ends of each heat pipe are set in each heat pipe.

4. integrated thermal fume temperature regulator according to claim 1 is characterized in that, said spray assembly comprises the moisturizing tube bank, and an end of said moisturizing tube bank is a water supplement port, and the below of moisturizing tube bank is provided with a plurality of nozzles.

5. integrated thermal fume temperature regulator according to claim 4 is characterized in that, said moisturizing tube bank comprises a plurality of filling pipes, and each filling pipe all is connected with a moisturizing house steward, and said moisturizing house steward has said water supplement port.

6. integrated thermal fume temperature regulator according to claim 1 is characterized in that, said water tank is the open tank of top cover sealing.

7. integrated thermal fume temperature regulator according to claim 1 is characterized in that, the drainage tube of the lower end of said water receiving funnel is connected to the position below the liquid level in the said water tank.

8. integrated thermal fume temperature regulator according to claim 3 is characterized in that the outer surface of said heat pipe is wound with fin.