CN108561867A - A kind of liquid is smoked to wash steam generator - Google Patents

Abstract

The present invention provides a kind of gas steam generators, including burner and water tank, the water tank includes water inlet and steam (vapor) outlet, portion on the burner is arranged in water tank, the heat pipe that setting is upwardly extended since water tank bottom inside water tank, the heat pipe is more, and the bottom of the lower end of the heat pipe is connected on the inner wall of water tank.The present invention improves gas steam generator, the top of water tank is quickly transferred thermal energy to by the fireballing feature of adopting heat pipes for heat transfer by the way that heat pipe is arranged in water tank bottom, the heat transfer rate to thermal energy is improved, the absorbability of heat can be further met.

Description

A kind of liquid is smoked to wash steam generator

Technical field

The present invention relates to a kind of steam generator technology more particularly to a kind of steam generators of the heat pipe of Novel structure.

Background technology

Hot pipe technique is George Ge Luofo of U.S. Los Alamos (Los Alamos) National Laboratory in 1963 One kind of (George Grover) invention is known as the heat transfer element of " heat pipe ", it takes full advantage of heat-conduction principle and is situated between with phase transformation The heat of thermal objects is transmitted to outside heat source rapidly by the quick thermal transport property of matter through heat pipe, and the capacity of heat transmission is more than to appoint The capacity of heat transmission of what known metal.

The industries such as aerospace, military project were widely used in before hot pipe technique, since being introduced into radiator manufacturing so that People change the mentality of designing of traditional heat sinks, have broken away from and simple have obtained the list of more preferable heat dissipation effect by high air quantity motor One radiating mode opens heat dissipation industry new world using hot pipe technique so that radiator obtains satisfied heat transfer effect.At present Heat pipe is widely used in various heat transmission equipments, including the UTILIZATION OF VESIDUAL HEAT IN etc. of power domain, such as power plant.

Steam generator is the mechanical equipment for water being heated as using the thermal energy of fuel or other energy steam.Steam is sent out Raw device application field is extensive, is widely used in clothing factory, drycleaner's, restaurant, steamed bun shop, dining room, dining room, factories and miness, Bean Products Factory etc. Place.Current steam generator is also widely used in the treatment of various diseases, be particularly applied to muscle, ligament etc. because For the treatment of chronic disease caused by aging and old damage, such as CN2167709Y patents, but at present in the prior art, such as CN2167709Y patents can cause the vapor (steam) temperature generated excessively high, and can cause because directly generating steam by heating The water from steam of generation point is excessive, and drug is because be that particle is deposited on lower part it is possible that will appear, the steam sprayed Middle active constituent content is too low, and temperature is excessively high, and intelligence degree is not high in the prior art, can not carry out effective intelligence Energyization operates.

In background technology, when using gas-combustion heating steam generator, combustion gas either directly heats water tank or by secondary Heat exchange generates steam, especially directly heats water tank, and water tank upper and lower part are carried out using the heat convection inside water tank Fluid convection exchanges heat, but needs lower part hot fluid free convection to top in such cases, and heat exchange efficiency is low.

In the background technology, inventor has developed structure as described in Figure 1, and above structure has for improving heat absorption Prodigious raising, but because heat pipe evaporation ends extend to combustion space, the gas of combustion space is caused to flow bad, Bu Nengchong Divide and burn, and background technology cost is relatively high, therefore the application has carried out further on the basis of background technology It improves.

In view of the above-mentioned problems, the present invention is improved on the basis of invention in front, a kind of new structure is provided Steam generator makes full use of heat source, reduces energy consumption, improves combustion efficiency.

Invention content

In view of the above-mentioned problems, the present invention is improved on the basis of invention in front, a kind of new heat pipe knot is provided Structure steam generator, to realize making full use of for waste heat.

To achieve the goals above, technical scheme is as follows：

A kind of gas steam generator, including burner and water tank, the water tank include water inlet and steam (vapor) outlet, water tank setting Portion on the burner, which is characterized in that the heat pipe that setting is upwardly extended since water tank bottom inside water tank, the heat pipe is more The bottom of root, the lower end of the heat pipe is connected on the inner wall of water tank.

Preferably, the bottom of the lower end of the heat pipe is the inner wall of water tank.

Preferably, communicating pipe is arranged between at least two adjacent heat pipes.

Preferably, the center of water tank is located at the focal position of speculum.

Preferably, the water tank and heat pipe are to be integrated.

Preferably, the heat pipe surrounds bottom centre's point annular Multi-layers distributing of water tank, along the bottom centre of water tank Point setting multilayer heat pipe, the axis of every layer of heat pipe is identical at a distance from central point, is to be formed with bottom centre's point of water tank The arc structure in the center of circle.

Preferably, in horizontal plane projection, the outer diameter of heat pipe is d, between the adjacent heat pipe center of circle of same layer away from From for L, it is N, same layer institute that the center of circle of heat pipe and two closed on the heat pipe center of circle of adjacent row, which constitute the apex angle of isosceles triangle, Then meet claimed below in diameter of a circle D2, the diameter of a circle D1 of adjacent inner layer：

Sin（N）=a+b*W³- c*W²- d*W, wherein Ln are logarithmic functions, and W=d/ (D2-D1), a, b, c, d are parameters, are met It is following to require：

0.77<a<0.78, 0.38<b<0.39,0.785<c<0.795,0.87<d<0.88；

0.3< d/L<0.5。

Preferably, the burner includes burner seat, it is installed on the burner seat for placing water tank Stove circle, the combustion head equipped with several orifices is fixedly mounted in the burner seat, the bottom of the burner seat is equipped with combustion Tracheae, the burner seat are equipped with the air outlet slit of several supply combustion head combustion adjuvants, the outside of the burner seat Equipped with the intake adit being connected to the air outlet slit, the intake adit is equipped with air intake；The stove circle, the water tank Bottom and the burner seat form combustion chamber, and the stove circle is hollow interlayer, and the internal layer double wall top of the stove circle is equipped with Several return air inlets, the internal cavities of the stove circle are connected to the intake adit.

Preferably, a=0.7766, b=0.3879, c=0.7913, d=0.8735.

Preferably, multiple air outlet slits are set from lower to upper part, and from the lower to the upper, the density of air outlet slit distribution It is increasing.

Preferably, multiple air outlet slits are set from lower to upper part, and from the lower to the upper, the density of air outlet slit distribution Increasing amplitude is continuously increased.

Preferably, multiple air outlet slits are arranged from lower to upper part, from the lower to the upper, the diameter of air outlet slit is more next It is bigger.

Preferably, from the lower to the upper, the increasing amplitude of air outlet slit diameter is continuously increased.

Preferably, the arc-shaped structure of stove circle.

Compared with prior art, the present invention has the advantage that：

1）The present invention improves gas steam generator, by the way that heat pipe is arranged in water tank bottom, passes through adopting heat pipes for heat transfer speed Fast feature is spent, the top of water tank is quickly transferred thermal energy to, the heat transfer rate to thermal energy is improved, can further meet The absorbability of heat.Compared with background technology is invented, utilization efficiency of heat energy can be significantly improved, ensures the gas of combustion space Fully flowing and burning, and it is cost-effective.

2）The present invention improves the condensation end structure of the heat pipe in gas steam generator, by adjacent condensation segment Between communicating pipe is set, by be arranged communicating pipe, can be even to avoid uneven heating between heat pipe, realize heat pipe between pressure it is equal Weighing apparatus, defect caused by avoiding the uneven heating between different heat pipes even.

3）The present invention can be ensured in process fluid flow by being connected to the changing rule of distributed quantity and caliber Reach pressure equilibrium as soon as possible.

4）The variation for the distribution density and diameter in short transverse that the present invention passes through the air outlet slit of burner, can Ensure being sufficiently mixed for air and combustion gas, reaches abundant burning.

5）The present invention improves the structure of the evaporation ends of the heat pipe in steam generator, and the evaporation ends of heat pipe are prolonged Farther direction is reached, in the case where not changing the condensation end volume of heat pipe so that the endotherm area of the evaporation ends of heat pipe increases Add, the heat absorption range of heat pipe can be expanded in this way, the heat of heat source distalmost end can be absorbed.Heat pipe in compared with the existing technology Evaporation ends and condensation end are consistent size, while reducing the volume and floor space of heat exchanger so that compact-sized.

6）Communicating pipe is arranged in adjacent evaporation ends in the present invention, can be in the feelings that heat pipe is heated different to cause pressure different Under condition, the fluid in evaporation ends that pressure can be made big quickly flows to the small evaporation ends of pressure, to keep integral pressure Equilibrium avoids hot-spot or supercooling.

Description of the drawings

Fig. 1 is steam generator background technology schematic diagram of the present invention.

Fig. 2 is the specific embodiment schematic diagram of steam generator of the present invention.

Fig. 3 is cisten mechanism schematic diagram of the present invention.

Fig. 4 is schematic diagrames of the Fig. 3 from top.

Fig. 5 is the heat pipe partial structural diagram of present invention setting communicating pipe.

Fig. 6 is burner structure schematic diagram of the present invention.

In figure：1- burner seats, 2- stove circles, 3-combustion heads, 4- intake adits, the combustion chambers 5-, 7- orifices, 8- heat preservations Material, 10- heat pipes, 111- air supply openings, 112- air outlet slits, 121- air outlet slits, 211- return air inlets, 101- vertical portions, 102- horizontal components, 103- VERTICAL TUBEs, 105- water tanks, 106- heat source passages, 107- communicating pipes, 108- water inlets, 109- steam Vapor outlet, 21 internal layer double walls.

Specific implementation mode

The specific implementation mode of the present invention is described in detail below in conjunction with the accompanying drawings.

Herein, if without specified otherwise, it is related to formula, "/" indicates that division, "×", " * " indicate multiplication.

If Fig. 2-6 discloses a kind of gas steam generator using heat pipe, the steam generator include burner and Water tank 105, the water tank 105 include water inlet 108, and the burner combustion sends out the water in heating water tank 105, the steam Raw device further includes the heat pipe 10 being arranged in water tank 105, as shown in Fig. 2, the heat pipe 10 is arranged inside water tank 105, and from 105 bottom of water tank starts to upwardly extend, and the heat pipe 10 is more, and the bottom of the lower end of the heat pipe is connected to the inner wall of water tank On.

Traditional gas steam generator is all to directly heat water tank by combustion gas to generate steam, utilizes pair inside water tank Stream heat exchange exchanges heat to carry out the fluid convection of water tank upper and lower part, but needs lower part hot fluid free convection in such cases To top, heat exchange efficiency is low, and the present invention in water tank bottom by being arranged heat pipe, because the gas of the inside steams at once after heat pipe is heated The evaporation ends for sending out the top of the heat pipe risen, exchange heat on top, and such heat is just quickly transmitted to water tank upper, can be with Heat exchange efficiency is quickly improved, the heat utilization efficiency of the thermal energy of burning is improved.

The present invention is compared with the background technology described in Fig. 1, and above structure improves a lot for improving heat absorption tool, And because heat pipe evaporation ends do not extend to combustion space, causes the gas of combustion space to flow, can fully be fired It burns, and cost can be saved.

Preferably, the bottom of the lower end of the heat pipe 10 is the inner wall of water tank 105.In this way so that heat pipe and water tank can be with As a whole, using the inner wall of water tank as the lower end wall surface of heat pipe, thermal contact resistance is reduced so that compact overall structure,

Preferably, the water tank and heat pipe are to be integrated.

Preferably, the water tank is spherical structure.

Preferably, communicating pipe 107 is arranged between at least two adjacent heat pipes 10.Such as it is as shown in figure 5, adjacent to each other Two heat pipes 5 between be arranged communicating pipe 107.Certainly, Fig. 5 is only schematic diagram, although showing only two heat pipes, simultaneously Only two heat pipes are not indicated that.By be arranged communicating pipe 107, can be even to avoid uneven heating between heat pipe 10, realize heat pipe it Between pressure it is balanced, defect caused by avoiding the uneven heating between different heat pipes even.

Preferably, from 10 lower part of heat pipe to 10 top of heat pipe, it is continuously increased the distance between adjacent communicating pipe 107.Cause For heat pipe the thermal energy of burning, the then heat release in water tank are absorbed in bottom.With flowing up for heat pipe vertical portion fluid, stream The continuous heat release of body, with the continuous heat release of fluid, the pressure in different heat pipes continuously decreases, therefore passes through above-mentioned setting, energy It is enough to ensure to reach pressure equilibrium as soon as possible in process fluid flow, save communicating pipe quantity, energy-saving material.

Preferably, from 10 lower part of heat pipe to 10 top of heat pipe, the distance between adjacent communicating pipe 107 ever-increasing width It spends increasing.It is found through experiments that, above-mentioned setting, can ensure that more excellent in process fluid flow to reach pressure equal faster Weighing apparatus.This is also the best mode of communicating got by largely studying pressure changes in distribution rule.

Preferably, from 10 lower part of heat pipe to 10 top of heat pipe, the diameter of communicating pipe 107 constantly reduces.This purpose be for Setting ensures the connection area of bigger, because of flowing up with fluid, the continuous heat release of fluid, as fluid is continuous Heat release, the pressure in different heat pipes is smaller and smaller, therefore by above-mentioned setting, can ensure in process fluid flow as soon as possible Reach pressure equilibrium.

Preferably, from 10 lower part of heat pipe to 10 top of heat pipe, the ever-reduced amplitude of diameter of communicating pipe 107 is increasingly Greatly.Be found through experiments that, above-mentioned setting, can ensure in process fluid flow it is more excellent faster reach pressure equilibrium.This It is the best mode of communicating got by largely studying pressure changes in distribution rule.

The heat pipe is multiple, along the center of burner（The center of water tank lower face）Radially outward direction, institute The distribution density for stating communicating pipe is smaller and smaller.In numerical simulation and it was found that, the center along burner is outwardly radial The received heat in direction, single heat pipe is smaller and smaller, and the temperature of the heat pipe of different location is also different, to cause local heating It is uneven.Because with the burning of combustion gas, combustion gas is burnt at middle part first, and the high-temperature gas then generated is transported outward from center It is dynamic, therefore the outside received heat in middle part tapers into, and because outward, then because the increase of diameter leads to horizontal part facet Product is bigger, causes the heat of the distribution on unit area also smaller and smaller, therefore the heat being distributed on each heat pipe is caused to reduce. Different location heat pipe uneven heating can be caused even in this way, pressure is different.The present invention is connected by being arranged in the different location of burner The density of siphunculus is different, and the integral heat pipe pressure to make quickly keeps essentially identical, to improve whole heat exchange efficiency, section About material, local damage caused by avoiding non-uniform temperature extend the service life of heat pipe.

Preferably, along the center radially outward direction of burner, the distribution density of the communicating pipe is smaller and smaller Amplitude constantly increase.As the variation of communicating pipe distribution density, the present invention has carried out a large amount of numerical simulation and experiment, from And obtain the changing rule of above-mentioned communicating pipe distribution density.By above-mentioned changing rule, material can be saved, while can also Enough improve 6% or so heat exchange efficiency.

The heat pipe is multiple, along the center of burner（The center of water tank lower face）Radially outward direction, institute The caliber for stating communicating pipe is smaller and smaller.Numerical simulation and it was found that, along burner center radially outward direction, The received heat of single heat pipe is smaller and smaller, and the temperature of the heat pipe of different location is also different, to cause local heating uneven It is even.Because with the burning of combustion gas, combustion gas is burnt at middle part first, and the high-temperature gas then generated is moved out from center, because Received heat tapers into outward at this middle part, and because outward, then because the increase of diameter causes horizontal component area to be got over Greatly, cause the heat of the distribution on unit area also smaller and smaller, therefore the heat being distributed on each heat pipe is caused to reduce.In this way Different location heat pipe uneven heating can be caused even, pressure is different.Communicating pipe is arranged by the different location in burner in the present invention Caliber it is different, the integral heat pipe pressure to make quickly keeps essentially identical, to improve whole heat exchange efficiency, saves material Material, local damage caused by avoiding non-uniform temperature extend the service life of heat pipe.

Preferably, along the center radially outward direction of burner, the smaller and smaller width of the caliber of the communicating pipe Degree is continuous to be increased.As the variation of Diameter of connecting pipe, the present invention has carried out a large amount of numerical simulation and experiment, on obtaining The changing rule for the Diameter of connecting pipe stated.By above-mentioned changing rule, material can be saved, while 6% or so can also be improved Heat exchange efficiency.

Preferably, liquid is arranged in the water tank.The steam generator is a kind of steaming of drug fumigation in treating function Vapour generator.

Preferably, water tank includes water inlet 108 and steam (vapor) outlet 109, the steam of generation directly goes out from steam (vapor) outlet 109 It goes.

Alternatively, the steam generator further includes liquid evaporation tank, and the liquid evaporation tank passes through pipeline It is connected to water tank 105, atomizer is set in the liquid evaporation tank, steam (vapor) outlet is arranged in the liquid evaporation tank.

Drug is set in the water tank, the drug immersion in water, in use, being added by heat pipe in water tank Hot water, by water come Heating Drug, to generate liquid in water tank 105.The liquid of generation enters liquid evaporation by pipeline It in case, and is atomized in liquid evaporation tank, is then discharged by steam (vapor) outlet.Steam (vapor) outlet can be directly against patient's Sick position discharge, for treating.

The heat pipe is multiple, along the center of burner（The center of water tank lower face）Radially outward direction, institute The distribution density for stating heat pipe is smaller and smaller.Numerical simulation and it was found that, along burner the outwardly radial side in center To the received heat of single heat pipe is smaller and smaller, and the temperature of the heat pipe of different location is also different, to cause local heating not Uniformly.Because with the burning of combustion gas, combustion gas is burnt at middle part first, and the high-temperature gas then generated is moved out from center, Therefore received heat tapers into outward at middle part, and because outward, then because the increase of diameter leads to horizontal component area It is bigger, cause the heat of the distribution on unit area also smaller and smaller, therefore the heat being distributed on each heat pipe is caused to reduce.This Sample can cause different location heat pipe uneven heating even, cause temperature different.The present invention passes through the different location setting in burner The density of heat pipe is different, and the integral heat pipe temperature to make keeps essentially identical, to improve whole heat exchange efficiency, saves material Material, local damage caused by avoiding non-uniform temperature extend the service life of heat pipe.

Preferably, along the center radially outward direction of burner, the distribution density of the heat pipe is smaller and smaller Amplitude constantly increases.As the variation of heat pipe distribution density, the present invention has carried out a large amount of numerical simulation and experiment, to To the changing rule of above-mentioned heat pipe distribution density.By above-mentioned changing rule, material can be saved, while can also improve 9% or so heat exchange efficiency.

Preferably, the diameter and length of each heat pipe 10 are identical.

Preferably, the heat pipe 10 is multiple, along the center radially outward direction of burner, the heat pipe Caliber is smaller and smaller.The reason of concrete reason is with front heat pipe distribution density is identical.

Preferably, along the center radially outward direction of burner, the smaller and smaller amplitude of the caliber of the heat pipe It is continuous to increase.The reason of concrete reason is with front heat pipe distribution density is identical.

Preferably, the distribution density and length of all heat pipes 10 are all identical.

Preferably, as shown in figure 4, from top downwards from, or horizontal plane projection on, the heat pipe 10 surround water The central point annular Multi-layers distributing in bottom portion.

Preferably, heat pipe 10 is arranged in center position, along central point setting multilayer heat pipe 10, the axis of every layer of heat pipe 10 Line is identical at a distance from central point, to be formed using the central point of water tank bottom as the arc structure in the center of circle.

It is found by numerical simulation and experiment, distance and phase at the distance between heat pipe 10, including same diametrical position The distance between adjacent bed cannot be too small, too small that heat pipe distribution can be caused excessive, causes the caloric receptivity of every heat pipe insufficient, crosses conference Cause heat pipe distribution very little, causes heat pipe to overheat, therefore the application sums up by a large amount of numerical simulation and experiment and carrys out heat pipe The distribution of the optimizations of 10 distributions so that heat pipe can neither recept the caloric deficiency, and it is excessive to recept the caloric.

As shown in figure 4, the internal diameter of the water tank is D, the outer diameter of heat pipe 10 is d, the adjacent heat pipe center of same layer The circular arc of axis is N, and the distance between adjacent heat pipe center of circle of same layer is L, and the center of circle of the circular arc is in storage heater Mandrel line, diameter of a circle D2 where same layer, the diameter of a circle D1 of adjacent inner layer then meet claimed below：

Sin（N）=a+b*W³- c*W²- d*W, wherein Ln are logarithmic functions, and W=d/ (D2-D1), a, b, c, d are parameters, are met It is following to require：

0.77<a<0.78, 0.38<b<0.39,0.785<c<0.795,0.87<d<0.88；

Preferably, a=0.7766, b=0.3879, c=0.7913, d=0.8735.

Preferably, tapering into D2/D, a, b is increasing, c, and d is smaller and smaller.

Preferably, 0 °<N<120°.

Preferably, 10 °<N<70°.

Above-mentioned empirical equation is to be obtained by a large amount of numerical simulations and experiment, and pass through verification experimental verification, because using three Power function, error is substantially within 2.8%.

Preferably, tapering into D2/D, a, b is increasing, c, and d is smaller and smaller.

Preferably, the heat absorption capacity 900-1100W of heat pipe, further preferably 1000W；

Internal diameter D is 1300-1500 millimeters, further preferably 1400 millimeters.

Heat pipe 10 is 9-10 millimeters, further preferably 9.5mm.

Certainly, Fig. 4 shows only 3 layers of heat pipe, can essentially be more than three layers.D2, D1 of Fig. 4 is also only an act Example, can essentially be using the heat pipe of central axis as the layer where D1, i.e. D1=0, using current D1 as the layer where D2.

Fig. 3 shows only half, the other half is symmetrical therewith, is just not described in detail.

As shown in attached drawing 2,6, the burner includes burner seat 1, is installed on the burner seat 1 for putting The stove circle 2 of water tank 105 is set, the combustion head 3 equipped with several orifices 7, the burner seat is fixedly mounted in the burner seat 1 1 bottom is equipped with the air supply opening 111 being connect with gas pipeline, and the burner seat 1 supplies the combustion head 3 equipped with several The air outlet slit 112 of combustion air, the outside of the burner seat 1 are equipped with the air duct 4 being connected to the air outlet slit 112, 4 lower end of the air duct is equipped with air intake 121, and the shell of the air supply line 4 coats the burner seat 1, in this way can profit The air entered with the heating of burner seat 1, saves gas thermal energy.Preferably, being viewed from above, combustion head 3 is circular configuration

Several orifices 7 is arranged on combustion head 3, and combustion gas can be made to reach best atomizing effect, so that combustion gas can be fully Burning, the stove circle 2 are in horn-like, and the oral area of the stove circle 2 is corresponding with the outer wall of the water tank round, can make water Case is heated evenly, the temperature in fast lifting pot, and the stove circle 2, the water tank and the burner seat 1 formation prevent flame The combustion chamber 5 rushed down outside makes the indoor flame of burning no longer be overflowed along the bottom of a pan, avoids thermal-flame and take away thermal energy, solve The heat energy loss phenomenon of the 20%-30% of fuel gas supply total amount of heat, while making the environment of surrounding no longer because by thermal-flame band The heat walked and improve temperature, improve the operating environment in kitchen；The stove circle 2 is hollow interlayer, the stove circle 2 Internal layer double wall 21 is equipped with several return air inlets 211 close to its oral area, and the internal cavities of the stove circle 2 connect with the intake adit 4 It is logical.

It is equipped with close to the position of bottom end in the stove circle 2 and is connected to the combustion chamber 5 and external exhaust gas auxiliary exhaust mouth 22, By outside the gas discharge combustion chamber after abundant burning, the combustion gas in combustion chamber can be made preferably to be mixed with fresh air, fully Burning, inhibits the generation of pernicious gas.

The outer surface of the stove circle 2 is covered with thermal insulation material 8, and the inner surface of the stove circle 2 can also be covered with thermal insulating material simultaneously Material 8.Scattering and disappearing for heat can be prevented in this way, while also making the environment of surrounding no longer because heat scatters and disappears and improves temperature.

Wind turbine is advertised air into combustion chamber from air intake, intake adit, air outlet slit, in the combustion chamber with from confession Gas port enters indoor combustion gas of burning by orifice atomization and mixes and burn, and is heated to water tank, also makes burning Indoor Air The temperature of body is got higher, most of insufficient high-temperature gas (at this moment the temperature of high-temperature gas can reach 800 DEG C or more) meeting of burning By return air inlet, combustion chambers burn is returned to once again by the internal cavities, intake adit and air outlet slit of stove circle, makes burning not The heat of sufficient high-temperature gas is not only recycled utilization, and it can be made fully to burn, and greatly reduces the use of combustion gas Amount, and inhibit the generation of the carbon monoxide, hydronitrogen that do great harm to human body, while the part generated in combustion chamber is useless Gas is discharged in the gap between water tank and stove circle, due to the gap very little between water tank and stove circle, so burned flame is not It can be overflowed from gap, keep heat losses less, the exhaust gas generated in small part combustion chamber is arranged by exhaust gas auxiliary exhaust mouth Go out.

Preferably, as shown in Figure 2,6, the arc-shaped structure of stove circle.

Preferably, multiple air outlet slits 112 are set from lower to upper part, from the lower to the upper, air outlet slit distribution Density was increasing before this, at a certain position, was then gradually reduced.Top by the way that multiple air outlet slits 112 are arranged is arrived down The variation of the distribution density of portion position, it is small by the air output of upper and lower position so that the combustion air on top to lower part gradually increases Add, is then gradually reduced so that even if air bolus caused by air capacity exists at maximum position, but the sky for passing through upper and lower The amount of gas be gradually reduced so that air bolus and and then be gradually sufficiently mixed, so that air gradually and combustion gas mixing, reaches To sufficient mixed effect, top or lower part large quantity of air is avoided to impact combustion gas suddenly so that air forms the presence of agglomerate, Cause the mixing of air fuel gas bad.It can make the study found that by above-mentioned setting with numerical simulation through a large number of experiments It obtains air fuel gas to be sufficiently mixed, combustion efficiency improves 10% or so.It should be noted that above-mentioned achievement is the applicant It is not the common knowledge of this field by what is largely studied.

Preferably, multiple air outlet slits are set from lower to upper part, and from the lower to the upper, the density of air outlet slit distribution Increasing amplitude constantly reduces, and starts at a certain position, and the amplitude that the density of air outlet slit distribution is gradually reduced is more next It is bigger.It being found through a large number of experiments with numerical simulation study, this setting enables to air and combustion gas more fully to mix, Improve efficiency of combustion.

Preferably, a certain position is the centre position in 2 short transverse of stove circle.

Preferably, multiple air outlet slits 112, from the lower to the upper, the diameter of air outlet slit are arranged from lower to upper part It is increasing before this, at a certain position, then it is gradually reduced.By the way that the top of multiple air outlet slits 112 is arranged to lower portion The variation for the diameter set, it is small by the air output of upper and lower position so that the combustion air on top to lower part gradually increases, then by It is decrescence small so that though at maximum position caused by air capacity air bolus exist, but by the amount of the air of upper and lower by It is decrescence small so that air bolus and being then gradually sufficiently mixed, so that air gradually and combustion gas mixing, reaches sufficient Mixed effect avoids top or lower part large quantity of air from impacting combustion gas suddenly so that air forms the presence of agglomerate, causes air The mixing of combustion gas is bad.Air is enabled to fire the study found that by above-mentioned setting with numerical simulation through a large number of experiments Gas is sufficiently mixed, and combustion efficiency improves 10% or so.It should be noted that be that the applicant passes through a large amount of for above-mentioned achievement Research obtain, be not the common knowledge of this field.

Preferably, from the lower to the upper, the increasing amplitude of air outlet slit diameter constantly reduces, at a certain position Start, the amplitude that air outlet slit diameter is gradually reduced is increasing.Find that this sets with numerical simulation study through a large number of experiments It sets and air and combustion gas is enabled to more fully to mix, improve efficiency of combustion.

Preferably, a certain position is the centre position in 2 short transverse of stove circle.

Preferably, along the center radially outward direction of combustion head 3, the distribution density of the orifice 7 is more next It is smaller.Ensure that combustion gas is gradually increased externally to intermediate distributed number, a large amount of combustion gas is located at medium position and fully burns, combustion From middle part burning, then flue gas is discharged from return port 211 when burning so that flue gas can whole heating surfaces heated, ensure That integrally heats is uniform.

Preferably, along the center radially outward direction of combustion head 3, the distribution density of the orifice 7 is more next Smaller amplitude is continuously increased.As the variation of orifice distribution density, the present invention has carried out a large amount of numerical simulation and experiment, To obtain the changing rule of above-mentioned distribution density.By above-mentioned changing rule, it can be further ensured that the uniform of heating.

Preferably, along the center radially outward direction of combustion head 3, the diameter of the orifice 7 is smaller and smaller.

Preferably, along the center radially outward direction of combustion head 3, the diameter of the orifice 7 is smaller and smaller Amplitude be continuously increased.Main cause with it is as before.

Preferably, as shown in Fig. 2, water tank 105 forms ball structure, lower part is burner.It, can by above-mentioned setting Heat pipe and the fluid of heat exchange to be all provided entirely in ball, exterior space can be made full use of in this way, it is tight to reach structure The purpose gathered.

Although the present invention has been disclosed in the preferred embodiments as above, present invention is not limited to this.Any art technology Personnel can make various changes or modifications, therefore protection scope of the present invention is answered without departing from the spirit and scope of the present invention When being subject to claim limited range.

Claims (10)

1. a kind of gas steam generator, including burner and water tank, the water tank include water inlet and steam (vapor) outlet, water tank is set Set portion on the burner, which is characterized in that the heat pipe that setting is upwardly extended since water tank bottom inside water tank, the heat pipe are More, the bottom of the lower end of the heat pipe is connected on the inner wall of water tank.

2. steam generator as described in claim 1, which is characterized in that the bottom of the lower end of the heat pipe is the interior of water tank Wall.

3. steam generator as described in claim 1, which is characterized in that connection is arranged between at least two adjacent heat pipes Pipe.

4. steam generator as described in claim 1, which is characterized in that the center of water tank is located at the focal position of speculum.

5. steam generator as claimed in claim 2, which is characterized in that the water tank and heat pipe are to be integrated.

6. steam generator as described in claim 1, which is characterized in that bottom centre point annular of the heat pipe around water tank Multilayer heat pipe is arranged along bottom centre's point of water tank in Multi-layers distributing, and the axis of every layer of heat pipe is identical at a distance from central point, from And it is formed using the bottom centre of water tank point as the arc structure in the center of circle.

7. steam generator as claimed in claim 6, which is characterized in that in horizontal plane projection, the outer diameter of heat pipe is d, together The distance between one layer adjacent heat pipe center of circle is L, and the center of circle of heat pipe and two closed on the heat pipe center of circle of adjacent row are constituted The apex angle of isosceles triangle is N, and diameter of a circle D2 where same layer, the diameter of a circle D1 of adjacent inner layer then meet claimed below：

Sin（N）=a+b*W³- c*W²- d*W, wherein Ln are logarithmic functions, and W=d/ (D2-D1), a, b, c, d are parameters, are met such as Lower requirement：

0.77<a<0.78, 0.38<b<0.39,0.785<c<0.795,0.87<d<0.88；

0.3< d/L<0.5。

8. steam generator as described in claim 1, which is characterized in that the burner includes burner seat, the burning It is installed with the stove circle for placing water tank on device seat, the burning equipped with several orifices is fixedly mounted in the burner seat The bottom of head, the burner seat is equipped with Gas Pipe, and the burner seat is equipped with several supply combustion head combustion adjuvants Air outlet slit, the outside of the burner seat are equipped with the intake adit being connected to the air outlet slit, are set on the intake adit There is air intake；The stove circle, the water tank bottom and the burner seat form combustion chamber, and the stove circle is hollow folder The internal layer double wall top of layer, the stove circle is equipped with several return air inlets, and the internal cavities of the stove circle connect with the intake adit It is logical.

9. steam generator as claimed in claim 7, which is characterized in that a=0.7766, b=0.3879, c=0.7913, d= 0.8735。

10. steam generator method as described in claim 1, which is characterized in that liquid, the steam are arranged in the water tank Generator is a kind of steam generator of drug fumigation in treating function.