CN210463078U

CN210463078U - Liquid fuel puffing fission device system for heating in winter and refrigerating in summer

Info

Publication number: CN210463078U
Application number: CN201920409228.4U
Authority: CN
Inventors: 王彦泽; 颜园甲; 陈瑜; 罗安文; 郭鹍鹏; 王苾; 李鑫
Original assignee: Wanrong Jintan Energy Technology Co ltd
Current assignee: Wanrong Jintan Energy Technology Co ltd
Priority date: 2019-03-28
Filing date: 2019-03-28
Publication date: 2020-05-05
Anticipated expiration: 2029-03-28

Abstract

The utility model relates to the heating and refrigeration field, in particular to a liquid fuel puffing fission device system for heating in winter and refrigerating in summer, which comprises a fission gasification terminal, a gasification base station, a wall-mounted furnace and an exhaust device; the fission gasification terminal includes a fission tube and a resonance box; the gasification base station comprises a liquid fuel tank and an air compressor, and the liquid fuel tank comprises an oil-gas separation device and an oil storage device; the gas hanging stove includes hanging stove furnace body and sets up the combustion chamber in hanging stove furnace body, is equipped with heat exchanger in the combustion chamber, and heat exchanger's below is equipped with methyl alcohol and fires burning furnace, fires the water of burning furnace in to heat exchanger through methyl alcohol and heats, and methyl alcohol fires the inlet of burning furnace and flow control pump's export UNICOM, is equipped with the flue with combustion chamber UNICOM on the hanging stove furnace body. The fission gas-liquid conversion system provided by the utility model has the advantages of simple structure, stable operation and less energy consumption. Methanol is used as fuel for heating, so that wall-hanging furnaces can be used for heating in special areas (without natural gas).

Description

Liquid fuel puffing fission device system for heating in winter and refrigerating in summer

Technical Field

The utility model relates to a heating and refrigeration technology field, more specifically relates to a popped fission ware system of liquid fuel that is used for heating winter, refrigerates in summer.

Background

In the face of the exhaustion of petrochemical energy, people actively seek for alternative energy of fossil energy, and the national government vigorously pushes an energy diversification strategy. Many boiler research institutions at home and abroad aim at clean and cheap alternative fuels, such as natural gas, methanol, electricity and the like. The alcohol-based fuel is the most potential novel alternative energy, and is the fuel mainly prepared from alcohols (such as methanol, ethanol, butanol and the like). It is in liquid or solid form. It is also a biomass energy, and is the same as nuclear energy, solar energy, wind energy and hydraulic energy, and is an environment-friendly clean energy which is widely popularized by governments in various countries at present; is very popular with the enterprise organizations of various countries. The methanol has a single molecular formula compared with coal, gasoline and diesel oil, the combustion emission of the methanol is very clean, no particulate matters (PM2.5, PM10), ozone, sulfur dioxide, CO, mercury and compounds thereof exist, and the emission of nitrogen oxides is more than 10 times lower than that of a natural gas boiler. The methanol fuel can replace coal and diesel oil, and can greatly relieve the air pollution which is difficult to bypass China. Especially lean oil, less gas and more coal are the main characteristics of the energy structure at the present stage in China, so that methanol is one of the accepted alternative fuels with great prospect at present as an important derivative product in the coal chemical industry. The liquid methanol as fuel has high combustion energy consumption, needs preheating and is not fully combusted; gaseous methanol as fuel has relatively low combustion energy consumption, more complete combustion and popularization value, but is easy to deposit carbon; the atomized methanol has less carbon deposition but high energy consumption.

The wall-mounted gas boiler is mainly used for providing daily water and heating water, and heats a water source by heat generated after combustion of gas such as natural gas and the like, so that the purposes of heating and water (hot water) supply are achieved. For some special areas, corresponding natural gas transmission pipelines are not available, so that the natural gas wall-hanging stove cannot be used. Therefore, there is a need for a wall-mounted gas stove that is convenient for use in special areas.

SUMMERY OF THE UTILITY MODEL

To the technical problem, the utility model provides a popped fission ware system of liquid fuel that is used for winter heating, summer refrigeration, this system handles liquid fuel through the resonance of high-speed collision, resonance case and fission pipe to utilize this fuel as heating and refrigeration use.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a liquid fuel puffing fission system for heating in winter and refrigerating in summer comprises a fission gasification terminal, a gasification base station, a wall-mounted furnace and an exhaust device;

the fission gasification terminal includes a fission tube and a resonance box; a first port and a second port are respectively arranged at two ends of the fission tube body; the first port is fixedly connected with a high-pressure sprayer, a nozzle of the high-pressure sprayer is arranged in the fission tube body, the other end of the high-pressure sprayer is communicated with an inlet tube, the high-pressure sprayer sprays a plurality of high-speed jet flows, the inlet tube comprises a gas inlet tube and a liquid inlet tube, the gas inlet tube is used for introducing high-pressure air, the liquid inlet tube is used for introducing liquid fuel, a pressure pump is arranged on the liquid inlet tube, and a mixing cavity is arranged between the inlet tube and the nozzle; the second port is fixedly connected with an outlet pipe, the outlet pipe is a T-shaped pipe, the cross arm is a gas outlet pipe, the vertical arm is a liquid outlet pipe, the gas outlet pipe is communicated with the liquid outlet pipe, a flow regulating pump is arranged on the gas outlet pipe, and a recovery pump is arranged on the liquid outlet pipe; the resonance box is nested outside the fission tube, a constant pressure valve, a high-pressure air inlet and a cooling tube are arranged on the box body of the resonance box, high-pressure air is filled in the box body of the resonance box, and the high-pressure air inlet is used for introducing high-pressure air; the cooling pipe penetrates through the box body of the resonance box, normal-temperature air is introduced into the cooling pipe, and low-temperature air is output by the cooling pipe;

the gasification base station comprises a liquid fuel tank and an air compressor, wherein the liquid fuel tank comprises an oil-gas separation device and an oil storage device; the oil-gas separation device is used for separating liquid fuel and gas in an outlet pipe of the gasification terminal; the oil-gas separation device is connected with a liquid outlet pipe of the outlet pipe, a waste gas outlet pipe is arranged on the upper side of the oil-gas separation device, a fuel liquid outlet pipe is arranged on the lower side of the oil-gas separation device, and the oil-gas separation device is communicated with the oil storage device through the fuel liquid outlet pipe; the oil storage device is used for storing liquid fuel; the lower side of the oil storage device is connected with a gasification terminal liquid inlet pipe; the air compressor is used for providing compressed air and is connected with a gasification terminal gas outlet pipe; the high-pressure spray head is hermetically connected with the first port; the outlet pipe is connected with the second port in a sealing way; the resonance box is hermetically connected with the fission tube; the outer walls of the two ends of the cooling pipe in the resonance box are respectively connected with the resonance box in a sealing way;

the wall-mounted boiler comprises a wall-mounted boiler body and a combustion chamber arranged in the wall-mounted boiler body, wherein a heat exchanger is arranged in the combustion chamber, a methanol combustion furnace is arranged below the heat exchanger, water in the heat exchanger is heated through the methanol combustion furnace, a liquid inlet of the methanol combustion furnace is communicated with an outlet of a flow regulating pump, and a flue communicated with the combustion chamber is arranged on the wall-mounted boiler body;

the air exhaust device comprises a hollow air exhaust box, an air exhaust duct is arranged in the hollow air exhaust box, an air inlet and an air outlet are formed in the hollow air exhaust box, and the air inlet is communicated with the cooling pipe.

The liquid fuel tank is an integrated device, the oil-gas separation device is arranged above the oil storage device, and the oil-gas separation device is communicated with the oil storage device through a fuel liquid outlet pipe; a gas-liquid separation pipe is arranged in the oil-gas separation device, the gas-liquid separation pipe is a coiled pipe, the tail end of the gas-liquid separation pipe is a gas outlet, and the lowest end of the gas-liquid separation pipe is provided with a one-way valve; the bottom of the oil-gas separation device is an inclined plane, the lowest part of the inclined plane is provided with a fuel liquid outlet pipe, and the fuel liquid outlet pipe is provided with a one-way valve; a cooling jacket is arranged outside the liquid fuel tank and is connected with an outlet of the cooling pipe; and the oil storage device is provided with a breather valve.

The hanging plate comprises a plate body and a hook component, the hook component comprises a connecting plate and a hook, the hook is fixedly connected with the connecting plate, the connecting plate is in sliding connection with the plate body, a limiting part is arranged between the connecting plate and the plate body, and the sliding of the connecting plate is limited by the limiting part.

The plate body both ends are equipped with the curb plate respectively, the cross sectional shape of connecting plate is the L style of calligraphy, and the connecting plate is connected with plate body and curb plate slip, is equipped with corresponding spout on plate body and the curb plate respectively.

The limiting part is a bolt, the bolt is connected with the connecting plate through a connecting block, a corresponding threaded through hole is formed in the connecting block, a protrusion is formed in the side plate, and the end part of the bolt abuts against the protrusion.

And a wind shield is arranged at the air outlet.

Compared with the prior art, the utility model, the beneficial effect who has is:

spraying liquid fuel into the fission tube in a high-speed atomized flow mode through high-pressure gas, continuously colliding with the inner wall of the fission tube and colliding with each high-speed atomized flow to form gas fuel, and outputting the gas fuel through an outlet pipe for use; the resonance of the high-pressure gas in the resonance box and the liquid fuel in the fission tube in the process of impacting the fission tube through the gasification of the liquid fuel is realized through the resonance box, and the gasification of the liquid fuel is enhanced; the outlet pipe adopts a T-shaped pipe, and the large fog drops carried in the gas fuel flow fall into a liquid outlet for recovery under the action of gravity; the fuel liquid absorbs a large amount of heat in the gasification process, and the cooling gas is introduced into a cooling jacket of the liquid fuel tank through a cooling pipe, so that the separation efficiency of liquid fuel and gas in the oil-gas separation device is improved, the gasification of the liquid fuel in the oil storage device is reduced, and the stability of the system is ensured; the liquid fuel tank realizes the recovery of the fuel at the outlet of the gasification terminal and simultaneously realizes the stable storage of the liquid fuel; the oil storage device is provided with the breather valve, so that the internal stability of the oil storage device is ensured. The fission gas-liquid conversion system provided by the utility model has the advantages of simple structure, stable operation and less energy consumption.

A methanol combustion furnace is arranged below the heat exchanger, and water in the heat exchanger is heated by the methanol combustion furnace. Methanol is used as fuel for heating, so that wall-hanging furnaces can be used for heating in special areas (without natural gas).

Drawings

FIG. 1 is a schematic diagram of the present invention;

fig. 2 is a schematic view of the whole structure of the wall-hanging stove of the present invention;

FIG. 3 is a schematic structural view of the hanging plate of the present invention;

FIG. 4 is a schematic view of a portion of FIG. 3 in the direction A;

FIG. 5 is a schematic view of a portion of FIG. 3 taken in the direction B;

FIG. 6 is a schematic view of the split structure of the hanging plate of the present invention;

FIG. 7 is an enlarged view of a portion of C of FIG. 6;

FIG. 8 is an enlarged view of a portion of FIG. 6D;

FIG. 9 is a schematic view of the hook of the present invention;

fig. 10 is a schematic structural view of the air exhaust device of the present invention;

fig. 11 is a schematic view of the split structure of the exhaust device of the present invention;

fig. 12 is a schematic structural view of the wind deflector of the present invention.

Detailed Description

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

As shown in fig. 1, a liquid fuel puffing fission device system for heating in winter and refrigerating in summer comprises a fission gasification terminal, a gasification base station, a wall-mounted furnace and an air exhaust device;

the fission gasification terminal comprises a fission tube 1 and a resonance box 7; a first port 2 and a second port 3 are respectively arranged at two ends of a tube body of the fission tube 1; 2 fixedly connected with high pressure nozzle 4 of first port, the nozzle setting of high pressure nozzle 4 is in 1 body of fission pipe, and high pressure nozzle 4 other end intercommunication inlet tube 5, and high pressure nozzle 4 sprays many high-speed efflux, and high-speed efflux penetrates directly 1 body inner wall of fission pipe and continues to collide with 1 body inner wall of fission pipe and rather than the high-speed efflux of alternately high-speed behind the reflection, forms tiny particle, discharges fission pipe 1 under the effect of high-pressure gas. The inlet pipe 5 comprises a gas inlet pipe 501 and a liquid inlet pipe 502, the gas inlet pipe 501 is used for introducing high-pressure air, the liquid inlet pipe 502 is used for introducing liquid fuel, a pressurizing pump 503 is arranged on the liquid inlet pipe 502, and a mixing cavity is arranged between the inlet pipe 5 and the nozzle; the second port 3 is fixedly connected with an outlet pipe 6, the outlet pipe 6 is a T-shaped pipe, the cross arm is a gas outlet pipe 601, the vertical arm is a liquid outlet pipe 602, the gas outlet pipe 601 is communicated with the liquid outlet pipe 602, a flow regulating pump 603 is arranged on the gas outlet pipe 601, and a recovery pump 604 is arranged on the liquid outlet pipe 602; the resonance box 7 is nested outside the fission tube 1, a constant pressure valve 8, a high-pressure air inlet 9 and a cooling tube 10 are arranged on the box body of the resonance box 7, high-pressure air is filled in the resonance box body, and the high-pressure air inlet 9 is used for introducing high-pressure air; the cooling pipe 10 penetrates through the box body of the resonance box 7, normal-temperature air is introduced into the cooling pipe 10, and low-temperature air is output from the cooling pipe 10; specifically, the method comprises the following steps: high-pressure air is introduced into the gas inlet pipe, and liquid fuel is introduced into the liquid inlet pipe; adjusting the inlet pressure of liquid fuel to 0.1MPa, the flow rate to 500 ml/h, the inlet pressure of high-pressure air to 2-6MPa and the flow rate to 4-10 m/s, introducing liquid fuel and gas fuel, filling high-pressure air into the resonance box through the high-pressure air inlet until the fuel gas is discharged from the outlet pipe of the fission pipe, stopping filling the high-pressure air into the resonance box, and setting a constant pressure valve for constant pressure;

the gasification base station comprises a liquid fuel tank and an air compressor 11, wherein the liquid fuel tank comprises an oil-gas separation device 12 and an oil storage device 13; the oil-gas separation device 12 is used for separating liquid fuel and gas in the outlet pipe 6 of the gasification terminal; the oil-gas separation device is connected with a liquid outlet pipe 602 of the outlet pipe 6, an exhaust gas outlet pipe 121 is arranged on the upper side of the oil-gas separation device 12, a fuel liquid outlet pipe 122 is arranged on the lower side of the oil-gas separation device 12, and the oil-gas separation device 12 is communicated with the oil storage device 13 through the fuel liquid outlet pipe 122; the oil storage device 13 is used for storing liquid fuel; the lower side of the oil storage device 13 is connected with a gasification terminal liquid inlet pipe 502; the air compressor 11 is used for providing compressed air and is connected with a gasification terminal gas outlet pipe 501;

the wall-mounted furnace comprises a wall-mounted furnace body 31 and a combustion chamber 311 arranged in the wall-mounted furnace body 31, wherein a heat exchanger 312 is arranged in the combustion chamber 311, a methanol combustion furnace 313 is arranged below the heat exchanger 312, water in the heat exchanger 312 is heated through the methanol combustion furnace 313, and a flue 314 communicated with the combustion chamber 311 is arranged on the wall-mounted furnace body 31. The liquid inlet of the methanol combustion furnace 313 is communicated with the outlet of the flow regulating pump 603, and fuel is provided for the methanol combustion furnace 313. The methanol combustion furnace in the prior art is used for replacing a natural gas burner, so that the problems in the prior art can be solved, and the methanol combustion furnace is convenient for heating in special areas.

As shown in fig. 10 to 12, the exhaust device 701 includes a hollow exhaust box 7011, an exhaust duct 7012 is disposed in the hollow exhaust box 7011, an air inlet 7013 and an air outlet 7014 are disposed on the hollow exhaust box 7011, and the air inlet 7013 is communicated with an outlet end of the cooling pipe 10. The low-temperature air output by the cooling pipe 10 enters the hollow exhaust box through the air inlet 7013, is divided by the exhaust duct, and is finally discharged through the exhaust port 7014. Further, a wind screen 7015 is provided at the air outlet 7014.

In the embodiment, the high-pressure nozzle 4 is hermetically connected with the first port 2; the outlet pipe 6 is connected with the second port 3 in a sealing way; the resonance box 7 is hermetically connected with the fission tube 1; the cooling pipe 10 is hermetically connected with the resonance box 7 at the outer walls of the two ends of the resonance box 7.

In the embodiment, the liquid fuel tank is an integrated device, the oil-gas separation device 12 is disposed above the oil storage device 13, and the oil-gas separation device 12 is communicated with the oil storage device 13 through the fuel liquid outlet pipe 122. A gas-liquid separation pipe 14 is arranged in the oil-gas separation device 12, the gas-liquid separation pipe 14 is a coiled pipe, the tail end of the gas-liquid separation pipe 14 is a waste gas outlet pipe 121, and the lowest end of the gas-liquid separation pipe 14 is provided with a one-way valve; the bottom of the oil-gas separation device 12 is an inclined plane, the lowest part of the inclined plane is provided with a fuel liquid outlet pipe 122, and the fuel liquid outlet pipe 122 is provided with a one-way valve. The liquid fuel tank is externally provided with a cooling jacket 15, and the cooling jacket 15 is connected with the outlet of the cooling pipe 10. The oil storage device 13 is provided with a breather valve 16.

As shown in fig. 2 to 9, the hanging plate 32 connected to the wall-hanging furnace body 31 is further included, the hanging plate 32 includes a plate body 33 and a hook assembly 34, the hook assembly 34 includes a connecting plate 341 and a hook 342, the hook 342 is fixedly connected to the connecting plate 341, the connecting plate 341 is slidably connected to the plate body 33, a limiting member 35 is disposed between the connecting plate 341 and the plate body 33, and the limiting member 35 limits the sliding of the connecting plate 341.

The purpose of the hook assemblies 34 is to realize the position adjustment between the hooks 342 and the plate body 33, so the number of the hook assemblies 34 can be set according to the actual situation, preferably two hook assemblies are provided, that is, the positions of the two hooks 342 are both adjustable; one and the other of which are conventional fixed hook structures.

When the wall-mounted type building block is used, a hole is formed in a wall body, the plate body 33 is fixed on the wall body, and the plate body 33 is provided with the corresponding connecting through hole 331. After the fixing, the level ruler is placed on the two hooks 342, and the two hooks 342 are positioned on the same horizontal plane by sliding the connecting plate 341 of one hook 342; after adjustment, the positioning is performed through the positioning part 35.

Because the hanging furnace body 31 is hung on the hooks 342, when the hooks 342 are positioned on the same horizontal plane, the levelness of the hanging furnace body 31 is ensured.

Further, in order to ensure the stability of the whole, two ends of the plate body 33 are respectively provided with a side plate 36, the cross section of the connecting plate 341 is L-shaped, the connecting plate 341 is slidably connected with the plate body 33 and the side plate 36, that is, the back surface of the connecting plate 341 is slidably connected with the plate body 33, the side surface thereof is slidably connected with the side plate 36, and the plate body 33 and the side plate 36 are respectively provided with a corresponding sliding groove 37.

Further, the limiting member 35 is a bolt, the bolt is connected with the connecting plate 341 through the connecting block 38, a corresponding threaded through hole is formed in the connecting block 38, the end portion of the bolt can penetrate through the threaded through hole to abut against the protrusion 39 on the side plate 36, and the protrusion 39 is located below the connecting block 38. When the adjusting device is adjusted, the extending length of the bolt is changed by rotating the bolt.

Further, the protrusions 39 and the connection pieces 38 may be located on the inner surfaces of the side plates 36 and the connection plates 341; preferably: the protrusions 39 are located on the outer surface of the side plate 36, the connecting blocks 38 are located on the outer surface of the connecting plate 341, and the side plate 36 is provided with corresponding openings 310 through which the connecting blocks can protrude.

Further, the inner surface of the hook 342 is preferably rounded.

The above description has been made in detail only for the preferred embodiment of the present invention, but the present invention is not limited to the above embodiment, and various changes can be made without departing from the spirit of the present invention within the knowledge scope of those skilled in the art, and all such changes are intended to be encompassed by the present invention.

Claims

1. A liquid fuel puffing splitter system for heating in winter and refrigerating in summer is characterized in that: the system comprises a fission gasification terminal, a gasification base station, a wall-mounted furnace and an exhaust device;

2. The liquid fuel expander cracker system for winter heating and summer cooling of claim 1, wherein: the liquid fuel tank is an integrated device, the oil-gas separation device is arranged above the oil storage device, and the oil-gas separation device is communicated with the oil storage device through a fuel liquid outlet pipe; a gas-liquid separation pipe is arranged in the oil-gas separation device, the gas-liquid separation pipe is a coiled pipe, the tail end of the gas-liquid separation pipe is a gas outlet, and the lowest end of the gas-liquid separation pipe is provided with a one-way valve; the bottom of the oil-gas separation device is an inclined plane, the lowest part of the inclined plane is provided with a fuel liquid outlet pipe, and the fuel liquid outlet pipe is provided with a one-way valve; a cooling jacket is arranged outside the liquid fuel tank and is connected with an outlet of the cooling pipe; and the oil storage device is provided with a breather valve.

3. The liquid fuel expander cracker system for winter heating and summer cooling of claim 1, wherein: the hanging plate comprises a plate body and a hook component, the hook component comprises a connecting plate and a hook, the hook is fixedly connected with the connecting plate, the connecting plate is in sliding connection with the plate body, a limiting part is arranged between the connecting plate and the plate body, and the sliding of the connecting plate is limited by the limiting part.

4. A liquid fuel expander cracker system for winter heating and summer cooling as claimed in claim 3, wherein: the plate body both ends are equipped with the curb plate respectively, the cross sectional shape of connecting plate is the L style of calligraphy, and the connecting plate is connected with plate body and curb plate slip, is equipped with corresponding spout on plate body and the curb plate respectively.

5. The liquid fuel expander cracker system for winter heating and summer cooling of claim 4, wherein: the limiting part is a bolt, the bolt is connected with the connecting plate through a connecting block, a corresponding threaded through hole is formed in the connecting block, a protrusion is formed in the side plate, and the end part of the bolt abuts against the protrusion.

6. The liquid fuel expander cracker system for winter heating and summer cooling of claim 1, wherein: and a wind shield is arranged at the air outlet.