CN113390077A - Gas steam generator with variable atomization aperture - Google Patents

Abstract

The invention relates to the technical field of steam generators and discloses a fuel gas steam generator with variable atomization hole diameter, which comprises a boiler body, a water storage chamber arranged above the boiler body, and a pressure relief chamber arranged on one side of the water storage chamber, communicated with the water storage chamber and used for relieving pressure of the water storage chamber; the exhaust assembly is arranged at the top of the water storage chamber and used for controlling the steam discharge speed, and a pressure intensity detection meter is arranged on one side of the exhaust assembly; and the water filtering channel is arranged on one side of the exhaust assembly and is used for adsorbing water drops in the steam. The water storage chamber through the boiler body generates water vapor to lead to internal pressure intensity to be enlarged, when the pressure intensity reaches a rated value of the pressure intensity detection meter, the controller enlarges the internal space of the water storage chamber through the pressure relief chamber, the internal pressure relief of the boiler body is realized, the steam generator is prevented from being damaged by explosion due to excessive vapor, and when the space of the water storage chamber is enlarged, the water inlet amount of a water inlet port is increased, the internal water amount of the water storage chamber is increased, and the whole energy loss of the boiler body is avoided.

Description

Gas steam generator with variable atomization aperture

Technical Field

The invention relates to the technical field of steam generators, in particular to a fuel gas steam generator with variable atomization aperture.

Background

The steam generator is generally a boiler, and is an energy conversion device, energy input to the boiler is chemical energy and electric energy in fuel, the boiler outputs steam, high-temperature water or an organic heat carrier with certain heat energy, and when the steam generator is used at present, after steam is generated for a period of time, the internal pressure of the boiler is too high due to excessive steam generation, so that the explosion danger is easily caused.

Chinese invention patent CN201910579834.5 proposes an industrial boiler, which comprises a boiler body, a switch door, a storage structure, a pressure relief structure and an air inlet structure, wherein the boiler body for coal combustion and heat exchange is connected with the switch door for coal feeding, the boiler body is connected with the storage structure for water and steam outlets, the boiler body is connected with the pressure relief structure for steam pressure relief, the boiler body is connected with the air inlet structure for delivering oxygen to combust coal, and the air inlet structure is connected with the pressure relief structure. The combustion rate of coal in the storage chamber is reduced, and the steam in the water storage chamber is discharged by matching with a pressure release structure, so that the steam in the water storage chamber is released, although the steam generation amount in the pressure release process in the water storage chamber is reduced, the steam discharge amount flowing out of a pressure release port is reduced, and the loss after the steam pressure release is reduced, the expanded steam is released, so that the steam is discharged, a large amount of energy loss in the steam generator still exists, and some special steam use occasions need to use drier steam, aiming at the existing steam generator, as the superheated steam belongs to saturated wet steam, and the saturated wet steam is in the transmission process, as the moisture content in the superheated steam is higher, the temperature of the superheated steam is reduced due to liquefaction phenomenon during the transportation, and accumulated water corrosion is caused in a pipeline, so after the steam is generated, further water removal of the vapor is required.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a fuel gas steam generator with variable atomization aperture, which has the advantages that the pressure in the water storage chamber is temporarily expanded through a pressure relief chamber, the pressure in the water storage chamber is further reduced, the explosion danger caused by overlarge pressure in the water storage chamber is avoided, after steam is produced, water drops in the steam are separated from the steam through a water filtering channel and a separating valve, the water drops are matched with the pressure relief chamber to be collected, the reduction of the overall energy of the steam generator caused by excessive steam in the water storage chamber is avoided, the overall energy loss of the steam generator caused by the loss of the steam in the pressure relief process is solved, and the like.

(II) technical scheme

In order to solve the technical problems, the invention provides the following technical scheme: a gas steam generator with variable atomization hole diameter comprises a boiler body, a water storage chamber arranged above the boiler body, and a pressure relief chamber arranged on one side of the water storage chamber, communicated with the water storage chamber and used for relieving pressure of the water storage chamber; the exhaust assembly is arranged at the top of the water storage chamber and used for controlling the steam exhaust speed, and a pressure intensity detection meter is arranged on one side of the exhaust assembly; the water filtering channel is arranged on one side of the exhaust assembly and is used for adsorbing water drops in steam; one end of the separation valve is connected with the outlet of the water filtering channel, the other end of the separation valve is connected with the pressure relief chamber, and the separation valve is used for water-vapor separation and guiding water into the pressure relief chamber; the pressure relief chamber comprises a movable plate, the movable plate is located between the pressure relief chamber and the water storage chamber, and a one-way valve is arranged above the movable plate, so that when the movable plate moves towards the pressure relief chamber, water in the pressure relief chamber is guided into the water storage chamber.

Preferably, the one end that the surge-chamber was kept away from to the aqua storage chamber is provided with water inlet port, water inlet port one side top is provided with the high water level inductor, and the below is provided with the low water level inductor, high water level inductor and low water level inductor are used for detecting the inside water level of aqua storage chamber respectively, boiler body one side is provided with controller case.

Preferably, the water storage chamber bottom is provided with the combustion chamber, the combustion chamber includes a plurality of combustion nozzle, the combustion nozzle bottom is provided with the gas passageway, the gas passageway is connected with the gas source.

Preferably, the pressure relief chamber further comprises a driving rod, one end of the driving rod is connected with the moving plate, the other end of the driving rod is connected with the driving seat, a heat insulation plate is arranged on the periphery of the driving seat, the driving rod penetrates through the heat insulation plate, and a heat dissipation opening is formed in the back of the driving seat.

Preferably, the exhaust assembly comprises a gas collecting hood, the end part of the gas collecting hood is provided with a gas outlet, a regulating valve is arranged above the gas outlet, and the other end of the regulating valve is connected with the water filtering channel.

Preferably, the water filtering channel comprises a folding tube bank, the folding tube bank is inclined to the separating valve, a heat preservation layer is arranged outside the folding tube bank, one end of the folding tube bank is connected with the regulating valve, and the other end of the folding tube bank is connected with the separating valve.

Preferably, the separating valve includes a separating chamber, one side of the separating chamber close to the boiler body is provided with an air inlet connecting pipe and is connected with the folding pipe row, one side of the separating chamber perpendicular to the air inlet connecting pipe is provided with a water guide pipe, the water guide pipe is located one end inlet in the separating chamber is arranged downwards, and a fixing shaft is arranged on the same side of the water guide pipe.

Preferably, the separating valve further comprises a floating ball, the floating ball is rotatably connected with the fixed shaft, a steam outlet is formed in the position, right opposite to the floating ball, of the separating chamber, and after the floating ball floats, the steam outlet is blocked, so that water in the separating chamber flows into the pressure relief chamber quickly.

(III) advantageous effects

Compared with the prior art, the invention provides a fuel gas steam generator with variable atomization aperture, which has the following beneficial effects:

1. this gas steam generator with atomizing aperture is changeable, the reservoir chamber vapor through boiler body leads to inside pressure grow, when pressure reaches pressure detection table rated value, the controller passes through the pressure release room and enlarges reservoir chamber inner space, realize the inside pressure release of boiler body, steam generator has been avoided leading to the harm of bursting because of the steam is excessive, and when enlarging the reservoir chamber space, increase water inlet port's inflow, make the inside water yield of reservoir chamber increase, avoid boiler body's whole energy loss, avoid simultaneously causing the dry combustion method phenomenon because of the water level reduces.

2. This gas steam generator with atomizing aperture is changeable gathers together the inside steam that produces of reservoir chamber through the gas collecting channel to derive through the venthole, when deriving, adjust the internal diameter of venthole through the governing valve, and then under the fixed condition of the inside steam volume of reservoir chamber, realize adjusting the speed that the steam derived.

3. This gas steam generator with atomizing aperture is changeable gathers the water droplet in the vapor through drainage channel, wherein utilizes folding bank of tubes to make vapor change the direction many times in folding bank of tubes's passageway through foldable passageway, makes wet steam change the direction at every turn after, earlier spouts to the passageway inner wall, and then makes the water droplet of suspension in the vapor adhere to and flows down, then carries out steam-water separation in leading into the isolating valve with rivers and vapor, wherein the outside heat preservation of folding bank of tubes prevents that the vapor temperature from running off.

4. The gas steam generator with the variable atomization aperture is characterized in that steam and water after water and steam separation are guided into a separation chamber in a moving mode through an air inlet connecting pipe, the water guide pipe is arranged at one end, located in the separation chamber, of the water guide pipe downwards, the water can be gathered at the bottom of the separation chamber, the floating ball is arranged in the separation chamber in a rotating mode through one end of a fixing shaft, the floating ball can rotate up and down, when the gathered water at the bottom of the separation chamber reaches a certain amount, the floating ball completely floats up and blocks a steam outlet, the pressure in the separation chamber rises at the moment, the gathered water at the bottom of the separation chamber is pressed outwards, the gathered water is guided into a pressure relief chamber through the water guide pipe to be collected, then under the siphon action, the water in the separation chamber can be continuously discharged, the floating ball leaves the steam outlet at the moment, the steam is guided out of the steam outlet again for use, when the siphon speed is higher than the gathering speed of the water at the bottom of the separation chamber, the water at the bottom of the separation chamber can not continuously guarantee siphon, and after the siphoning is finished for a period of time, the water can be repeatedly gathered at the bottom of the separation chamber again, and when the water reaches a certain amount, the actions are repeated again to realize continuous water-vapor separation.

5. The gas steam generator with variable atomization hole diameter can change the diameter through the exhaust component arranged above the water storage chamber, can enable the steam discharge amount to control the impulse force generated when the steam is discharged, thereby realizing that the steam can be sprayed to the inner wall of the folding pipeline, the steam can change the direction in the water filtering channel for many times through the folding channel, the steam is firstly sprayed to the inner wall of the channel after changing the direction each time, and then the water drops suspended in the steam are attached and flow down, then the water flow and the steam are guided to a separation valve for water-steam separation, and the high-temperature water is stored, then when the pressure release chamber carries out pressure release treatment on the water storage chamber, warm water collected in the pressure release chamber is led into the water storage chamber again through the one-way valve, secondary utilization of separated water is achieved, heat energy in the separated water is recovered, and heat energy needed by steam production is further reduced.

Drawings

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

FIG. 2 is a schematic view of the overall internal perspective cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the overall internal plan cross-sectional structure of the present invention;

FIG. 4 is a second schematic perspective view of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4A;

fig. 6 is a schematic perspective sectional view of the inside of the separation valve of the present invention.

In the figure: 1. a boiler body; 2. a water storage chamber; 21. a water inlet port; 22. a high water level sensor; 23. a low water level sensor; 24. a controller box; 3. a pressure relief chamber; 31. moving the plate; 32. a one-way valve; 33. a drive rod; 34. a driving seat; 35. a heat insulation plate; 36. a heat dissipation port; 4. an exhaust assembly; 41. a gas-collecting hood; 42. an air outlet; 43. adjusting a valve; 5. a pressure intensity detection meter; 6. a water filtration channel; 61. folding the tube row; 62. a heat-insulating layer; 7. a separation valve; 71. a separation chamber; 72. an air inlet connecting pipe; 73. a water conduit; 74. a fixed shaft; 75. a floating ball; 76. a vapor outlet; 8. a combustion chamber; 81. a combustion nozzle; 82. and a gas channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a gas steam generator with variable atomization hole diameter includes a boiler body 1, a water storage chamber 2 disposed above the boiler body 1, and a pressure release chamber 3 disposed at one side of the water storage chamber 2 and communicated with the water storage chamber 2 for releasing pressure from the water storage chamber 2; the exhaust component 4 is arranged at the top of the water storage chamber 2 and used for controlling the steam exhaust speed, and a pressure intensity detection meter 5 is arranged on one side of the exhaust component 4; the water filtering channel 6 is arranged on one side of the exhaust component 4 and is used for adsorbing water drops in the steam; one end of the separating valve 7 is connected with the outlet of the water filtering channel 6, the other end of the separating valve 7 is connected with the pressure relief chamber 3, and the separating valve 7 is used for water-vapor separation and guiding water into the pressure relief chamber 3; the pressure relief chamber 3 comprises a moving plate 31, the moving plate 31 is located between the pressure relief chamber 3 and the water storage chamber 2, and a one-way valve 32 is arranged above the moving plate 31, so that when the moving plate 31 moves towards the pressure relief chamber 3, water in the pressure relief chamber 3 is guided into the water storage chamber 2.

Further, one end of the water storage chamber 2, which is far away from the pressure relief chamber 3, is provided with a water inlet port 21, a high water level sensor 22 is arranged above one side of the water inlet port 21, a low water level sensor 23 is arranged below the water storage chamber, the high water level sensor 22 and the low water level sensor 23 are respectively used for detecting the water level inside the water storage chamber 2, a controller box 24 is arranged on one side of the boiler body 1, the water level inside the water storage chamber 2 is detected in real time by the high water level sensor 22 and the low water level sensor 23, too much or too little water inside the water storage chamber 2 is avoided, and the steam generator is controlled by a controller in the controller box 24.

Further, 2 bottoms in reservoir chamber are provided with combustion chamber 8, and combustion chamber 8 includes a plurality of combustion nozzle 81, and combustion nozzle 81 bottoms is provided with gas channel 82, and gas channel 82 is connected with the gas source, utilizes a plurality of combustion nozzle 81 that distributes in the combustion chamber 8 to heat 2 bottoms in the reservoir chamber, makes the water in the reservoir chamber 2 heat up, wherein controls combustion temperature through gas channel 82 to the gas volume.

Further, the decompression chamber 3 further includes a driving rod 33, one end of the driving rod 33 is connected to the moving plate 31, the other end of the driving rod 33 is connected to the driving seat 34, a thermal insulation board 35 is disposed on the periphery of the driving seat 34, the driving rod 33 penetrates through the thermal insulation board 35, a heat dissipation port 36 is disposed on the back of the driving seat 34, the driving seat 34 drives the moving plate 31 to move in the decompression chamber 3 through the driving rod 33, when the pressure detection meter 5 detects that the internal pressure of the water storage chamber 2 is too high, the moving plate 31 moves in the decompression chamber 3 under the driving of the driving rod 33, so that the internal space of the water storage chamber 2 is enlarged, the internal pressure of the water storage chamber 2 is reduced, the phenomenon that the internal pressure of the water storage chamber 2 is too high due to too fast steam generation inside the water storage chamber 2, and the explosion of the boiler body 1 is avoided, and after the pressure of the internal of the water storage chamber 2 is reduced, the moving plate 31 returns to the initial position again.

Further, exhaust subassembly 4 includes gas collecting channel 41, and gas collecting channel 41 tip is provided with venthole 42, and the venthole 42 top is provided with governing valve 43, and the governing valve 43 other end is connected with drainage channel 6, utilizes gas collecting channel 41 to gather together the inside steam that produces of reservoir chamber 2 to derive through venthole 42, when deriving, adjust the internal diameter of venthole 42 through governing valve 43, and then under the fixed condition of the inside steam volume of reservoir chamber 2, can adjust the speed that steam derived.

Furthermore, the water filtering channel 6 comprises a folding tube row 61, the folding tube row 61 is obliquely arranged towards the separating valve 7, a heat insulating layer 62 is arranged outside the folding tube row 61, one end of the folding tube row 61 is connected with the regulating valve 43, the other end of the folding tube row is connected with the separating valve 7, steam is changed for multiple times in the channel of the folding tube row 61 through the folding channel by utilizing the folding tube row 61, after the direction of the wet steam is changed for each time, the wet steam is firstly sprayed onto the inner wall of the channel, then water drops suspended in the steam are attached and flow down, and then the water flow and the steam are guided into the separating valve 7 for water-steam separation.

Further, referring to fig. 5 to 6, the separating valve 7 includes a separating chamber 71, an air inlet connecting pipe 72 is disposed on one side of the separating chamber 71 close to the boiler body 1 and connected to the folding pipe bank 61, a water guide pipe 73 is disposed on one side of the separating chamber 71 perpendicular to the air inlet connecting pipe 72, an inlet of one end of the water guide pipe 73 located inside the separating chamber 71 is disposed downward, a fixing shaft 74 is disposed on the same side of the water guide pipe 73, the air inlet connecting pipe 72 is used to guide the steam and water after the steam and water are separated into the separating chamber 71, and because one end of the water guide pipe 73 located inside the separating chamber 71 is disposed downward, water is gathered at the bottom of the separating chamber 71 and then discharged through the water guide pipe 73 after reaching a certain amount.

Furthermore, the separating valve 7 further comprises a floating ball 75, the floating ball 75 is rotatably connected with the fixed shaft 74, a steam outlet 76 is arranged at the position of the separating chamber 71 opposite to the floating ball 75, after the floating ball 75 floats, the steam outlet 76 is blocked, so that the water in the separation chamber 71 rapidly flows into the pressure relief chamber 3, the floating ball 75 is rotated up and down in the separation chamber 71 by the floating ball 75 rotatably installed at one end of the fixed shaft 74, when the float ball 75 is completely floated by the water in the separation chamber 71 and the steam outlet 76 is blocked, the pressure in the separation chamber 71 is increased, the water collected at the bottom of the separation chamber 71 is guided into the pressure relief chamber 3 through the water guide pipe 73 to be collected, when the pressure relief chamber 3 carries out pressure relief treatment on the water storage chamber 2, warm water collected in the pressure relief chamber 3 is led into the water storage chamber 2 again through the one-way valve 32, so that secondary utilization of separated water is realized, heat energy in the separated water is recovered, and heat energy required by steam production is further reduced.

The working principle is as follows: when the water heater is used, the steam generator is started to work through the controller in the controller box 24, a water source is connected with the water storage chamber 2 through the water inlet port 21, an external gas source introduces gas into the combustion chamber 8 through the gas channel 82, after the water level in the water storage chamber 2 reaches a rated value set by the high water level sensor 22, the controller controls the combustion chamber 8 to start heating the water storage chamber 2, the bottom of the water storage chamber 2 is heated by the aid of the combustion nozzles 81 distributed in the combustion chamber 8, water in the water storage chamber 2 is heated, and the gas flow is controlled through the gas channel 82 to control combustion temperature.

Then, after the water storage chamber 2 is heated for a period of time, a large amount of water vapor is generated, the water vapor gathers the water vapor generated in the water storage chamber 2 under the action of the gas collecting hood 41 and is led out through the air outlet 42, when the steam is led out, the inner diameter of the air outlet 42 is adjusted by the adjusting valve 43, and the speed of leading out the steam can be adjusted under the condition that the steam amount in the water storage chamber 2 is fixed, when the amount of the steam in the water storage chamber 2 is too small, the inner diameter of the air outlet 42 is adjusted to be small by the adjusting valve 43, so that the force generated when the steam is discharged is increased, when the amount of the vapor in the water storage chamber 2 is excessive, the inner diameter of the air outlet 42 is adjusted to be larger by the adjusting valve 43, so that the discharging speed of the vapor is accelerated under a certain force generated by discharging the vapor, wherein, the pressure intensity inside the water storage chamber 2 is detected by the pressure intensity detection meter 5, the steam volume generated in the water storage chamber 2 is judged, and the intelligent control is realized by the controller.

Then the steam gathers the water drops in the steam through the water filtering channel 6, wherein the folding tube bank 61 is used for changing the direction of the steam in the channel of the folding tube bank 61 for a plurality of times through the folding channel, after the direction of the wet steam is changed each time, the wet steam is firstly sprayed on the inner wall of the channel, and then the water drops suspended in the steam are attached and flow down, then the water flow and the steam are led into the separation valve 7 for water-steam separation, wherein the heat preservation layer 62 outside the folding tube bank 61 prevents the temperature loss of the steam;

the air inlet connecting pipe 72 guides the steam and water after water and vapor separation into the separation chamber 71 in a moving way, because one end of the water guide pipe 73 positioned in the separation chamber 71 is arranged downwards, the water can be gathered at the bottom of the separation chamber 71, the floating ball 75 is rotatably arranged at one end of the fixed shaft 74, the floating ball 75 can rotate up and down in the separation chamber 71, when the gathered water at the bottom of the separation chamber 71 reaches a certain amount, the floating ball 75 completely floats up and blocks the steam outlet 76, the pressure in the separation chamber 71 rises at the moment, the gathered water at the bottom of the separation chamber 71 is pressed outwards, the water is guided into the pressure relief chamber 3 through the water guide pipe 73 to be collected, then the water in the separation chamber 71 can be continuously discharged under the siphoning action, the floating ball 75 leaves the steam outlet 76 at the moment, the steam is guided out from the steam outlet 76 for use again, wherein when the siphoning drainage speed is higher than the gathering speed of the water at the bottom of the separation chamber 71, the water accumulated at the bottom of the separation chamber 71 can not be continuously ensured by siphoning, after siphoning is finished, water can be repeatedly accumulated at the bottom of the separation chamber 71 within a period of time, and when the water reaches a certain amount, the actions are repeated again, so that continuous water-vapor separation is realized.

When the water storage chamber 2 generates steam to cause the internal pressure to increase and the pressure reaches the rated value of the pressure detection meter 5, the controller decompresses the water storage chamber 2 through the decompression chamber 3, the driving seat 34 is used for driving the moving plate 31 to move in the decompression chamber 3 through the driving rod 33, when the pressure detection meter 5 detects that the internal pressure of the water storage chamber 2 is too high, the moving plate 31 moves in the decompression chamber 3 under the driving of the driving rod 33, so that the internal space of the water storage chamber 2 is increased, further the pressure in the water storage chamber 2 is reduced, the phenomenon that the internal pressure of the water storage chamber 2 is too high due to the fact that the steam is too fast generated in the water storage chamber 2, further explosion of the boiler body 1 is caused is avoided, and after the internal pressure of the water storage chamber 2 is reduced, and the moving plate 31 returns to the initial position again.

When the pressure relief chamber 3 carries out pressure relief treatment on the water storage chamber 2, warm water collected in the pressure relief chamber 3 is led into the water storage chamber 2 again through the one-way valve 32, so that secondary utilization of separated water is realized, heat energy in the separated water is recovered, and heat energy required by steam production is further reduced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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 (8)

1. A fuel gas steam generator with variable atomization hole diameter comprises a boiler body (1), a water storage chamber (2), a pressure relief chamber (3), an exhaust assembly (4), a water filtering channel (6) and a separating valve (7); the method is characterized in that: the pressure relief chamber (3) comprises a movable plate (31), the movable plate (31) is located between the pressure relief chamber (3) and the water storage chamber (2), and a one-way valve (32) is arranged above the movable plate (31), so that when the movable plate (31) moves towards the pressure relief chamber (3), water in the pressure relief chamber (3) is guided into the water storage chamber (2).

2. The gas vapor generator with variable atomizing aperture of claim 1, wherein: the exhaust assembly (4) is arranged at the top of the water storage chamber (2) and used for controlling the steam discharge speed, one side of the exhaust assembly (4) is provided with a pressure detection meter (5) which comprises a gas collecting hood (41), the end part of the gas collecting hood (41) is provided with a gas outlet (42), an adjusting valve (43) is arranged above the gas outlet (42), and the other end of the adjusting valve (43) is connected with the water filtering channel (6).

3. The gas vapor generator with variable atomizing aperture of claim 2, wherein: drainage passageway (6) set up exhaust subassembly (4) one side for adsorb the water droplet in the vapour, it includes folding bank of tubes (61), folding bank of tubes (61) slope sets up to separating valve (7), folding bank of tubes (61) outside is provided with heat preservation (62), folding bank of tubes (61) one end with governing valve (43) are connected, the other end with separating valve (7) are connected.

4. A variable atomizing aperture gas vapor generator as set forth in claim 3, wherein: the separating valve (7) is arranged on one side of the water storage chamber (2), is communicated with the water storage chamber (2) and is used for relieving pressure of the water storage chamber (2); separating valve (7) one end with drainage passageway (6) exit linkage, the other end with pressure relief chamber (3) are connected, separating valve (7) are used for steam-water separation to in leading into pressure relief chamber (3) with water, it includes separating chamber (71), separating chamber (71) are close to one side of boiler body (1) be provided with admit air connecting pipe (72) with folding bank of tubes (61) are connected, separating chamber (71) with admit air connecting pipe (72) vertically one side is provided with aqueduct (73), aqueduct (73) are located the inside one end entry of separating chamber (71) sets up downwards, aqueduct (73) homonymy is provided with fixed axle (74).

5. The gas vapor generator with variable atomizing aperture of claim 4, wherein: the separating valve (7) further comprises a floating ball (75), the floating ball (75) is rotatably connected with the fixed shaft (74), a steam outlet (76) is formed in the position, right opposite to the floating ball (75), of the separating chamber (71), and after the floating ball (75) floats, the steam outlet (76) is blocked, so that water in the separating chamber (71) can rapidly flow into the pressure relief chamber (3).

6. The gas vapor generator with variable atomizing aperture of claim 2, wherein: the utility model discloses a boiler, including delivery port, reservoir chamber (2), pressure relief chamber (3), inlet port (21) one side top is provided with high water level inductor (22), and the below is provided with low water level inductor (23), high water level inductor (22) and low water level inductor (23) are used for detecting reservoir chamber (2) inside water level respectively, boiler body (1) one side is provided with controller case (24).

7. The gas vapor generator with variable atomizing aperture of claim 2, wherein: the water storage chamber (2) bottom is provided with combustion chamber (8), combustion chamber (8) include a plurality of burner nozzle (81), burner nozzle (81) bottom is provided with gas passageway (82), gas passageway (82) are connected with the gas source.

8. The gas vapor generator with variable atomizing aperture of claim 2, wherein: the pressure relief chamber (3) still includes actuating lever (33), actuating lever (33) one end with the movable plate (31) is connected, and the opposite side is connected with drive seat (34), drive seat (34) week side is provided with heat insulating board (35), actuating lever (33) run through heat insulating board (35), drive seat (34) back is provided with thermovent (36).

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