WO2017165994A1 - 涡轮增压天然气发动机 - Google Patents
涡轮增压天然气发动机 Download PDFInfo
- Publication number
- WO2017165994A1 WO2017165994A1 PCT/CN2016/000434 CN2016000434W WO2017165994A1 WO 2017165994 A1 WO2017165994 A1 WO 2017165994A1 CN 2016000434 W CN2016000434 W CN 2016000434W WO 2017165994 A1 WO2017165994 A1 WO 2017165994A1
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- WIPO (PCT)
- Prior art keywords
- disposed
- cylindrical plate
- gear
- bracket
- rack
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C3/00—Gas-turbine plants characterised by the use of combustion products as the working fluid
- F02C3/04—Gas-turbine plants characterised by the use of combustion products as the working fluid having a turbine driving a compressor
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B43/00—Engines characterised by operating on gaseous fuels; Plants including such engines
- F02B43/10—Engines or plants characterised by use of other specific gases, e.g. acetylene, oxyhydrogen
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B37/00—Engines characterised by provision of pumps driven at least for part of the time by exhaust
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C7/00—Features, components parts, details or accessories, not provided for in, or of interest apart form groups F02C1/00 - F02C6/00; Air intakes for jet-propulsion plants
- F02C7/20—Mounting or supporting of plant; Accommodating heat expansion or creep
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C7/00—Features, components parts, details or accessories, not provided for in, or of interest apart form groups F02C1/00 - F02C6/00; Air intakes for jet-propulsion plants
- F02C7/36—Power transmission arrangements between the different shafts of the gas turbine plant, or between the gas-turbine plant and the power user
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M21/00—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
- F02M21/02—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M21/00—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
- F02M21/02—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels
- F02M21/0203—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels characterised by the type of gaseous fuel
- F02M21/0215—Mixtures of gaseous fuels; Natural gas; Biogas; Mine gas; Landfill gas
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M21/00—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
- F02M21/02—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels
- F02M21/0218—Details on the gaseous fuel supply system, e.g. tanks, valves, pipes, pumps, rails, injectors or mixers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M21/00—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
- F02M21/02—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels
- F02M21/0218—Details on the gaseous fuel supply system, e.g. tanks, valves, pipes, pumps, rails, injectors or mixers
- F02M21/0221—Fuel storage reservoirs, e.g. cryogenic tanks
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M21/00—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
- F02M21/02—Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for gaseous fuels
- F02M21/0218—Details on the gaseous fuel supply system, e.g. tanks, valves, pipes, pumps, rails, injectors or mixers
- F02M21/0245—High pressure fuel supply systems; Rails; Pumps; Arrangement of valves
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B43/00—Engines characterised by operating on gaseous fuels; Plants including such engines
- F02B43/10—Engines or plants characterised by use of other specific gases, e.g. acetylene, oxyhydrogen
- F02B2043/103—Natural gas, e.g. methane or LNG used as a fuel
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B33/00—Engines characterised by provision of pumps for charging or scavenging
- F02B33/32—Engines with pumps other than of reciprocating-piston type
- F02B33/34—Engines with pumps other than of reciprocating-piston type with rotary pumps
- F02B33/40—Engines with pumps other than of reciprocating-piston type with rotary pumps of non-positive-displacement type
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/30—Use of alternative fuels, e.g. biofuels
Definitions
- the present invention relates to engine manufacturing techniques.
- An engine is a machine that can convert other forms of energy into mechanical energy, including, for example, internal combustion engines (gasoline engines, etc.), external combustion engines (Stirling engines, steam engines, etc.), electric motors, and the like.
- internal combustion engines usually convert chemical energy into mechanical energy.
- the engine is suitable for both the power generating device and the entire machine including the power unit (eg gasoline engine, aero engine).
- the content of the invention is:
- a turbocharged natural gas engine comprising: a first firing system, a second firing system, a third firing system, and a fourth firing system;
- the first firing system includes a gas cylinder, an eighth motor, an axial compressor, a combustion chamber, a first safety device, a second safety device, and a first lever brake device in the ultrahigh pressure gas production sealing device.
- electric ignition device, third driving device, nozzle, turbine, turbo shaft and ninth bracket said gas cylinder, eighth motor, axial compressor, combustion chamber, first safety device, second insurance
- the device, the first lever brake device, the electric ignition device, the third driving device, and the nozzle are disposed on the ninth bracket;
- the eighth motor is coupled to the axial flow compressor, and the axial flow compressor is An eighth motor drive;
- the turbine and the vortex shaft are disposed in the nozzle, and the vortex shaft and the turbine are fixedly connected;
- the ultra-high pressure gas production sealing device comprises a frame, a compressor disposed at an upper portion of the frame, a gas cylinder disposed at a lower portion of the frame;
- the compressor includes an inner frame and a casing;
- the inner frame includes the upper frame a pressure plate, a double-layer cylindrical plate and a bearing plate;
- the inner portion of the upper pressing plate is hollow, and an upper portion of the upper pressing plate is provided with a water inlet;
- the double-layer cylindrical plate comprises a first cylindrical plate and a second layer
- the first cylindrical plate has a cylindrical shape and a smaller diameter than the upper plate;
- the second cylindrical plate has a cylindrical shape and a smaller diameter than the first layer.
- the diameter of the cylindrical plate, the first cylindrical plate is sleeved on the outer surface of the second cylindrical plate; the top of the first cylindrical plate of the double-layer cylindrical plate is fixedly connected with the bottom of the upper pressing plate, and the second layer is rounded
- the top of the tube plate is also fixedly connected with the bottom of the upper platen; the inside of the first layer of the cylindrical plate is hollow, and the inside of the second layer of the cylindrical plate is also hollow;
- the upper part of the outer casing is opened first a gas port, a portion of the bottom of the outer casing is convex downward to form a double-layer cylindrical plate groove corresponding to the double-layer cylindrical plate;
- the double-layer cylindrical plate groove comprises a first cylindrical plate groove and a second cylindrical plate groove; the first cylindrical plate can move up and down in the first cylindrical plate groove;
- the two-layer cylindrical plate can move up and down in the second layer of the cylindrical plate groove;
- the first layer of the cylindrical plate groove is provided with a bearing plate, and the bearing plate in the first
- the gas cylinder comprises a bottle body; the top of the bottle body has a second air inlet communicating with the first air outlet; the second air inlet is provided with a first thread; the second a screw cap is disposed at the air inlet; the inside of the screw cap is hollowed out to form a gas pipe, the left portion of the screw cap is provided with a second air outlet communicating with the air outlet pipe; and the outer wall of the upper portion of the screw cap is provided with a third a gear, the third gear is fixed on an outer wall of the upper part of the screw cap; the outer wall of the lower part of the screw cap is provided with a thread that cooperates with the first thread in the second air inlet; a second air inlet cover, the longitudinal shape of the second air inlet cover is in a "U" shape, the interior of the second air inlet cover is hollow; the upper part of the bottle body around the second air inlet a first groove is formed, a bottom end of the first air outlet is disposed in the first groove; a portion of the bottle near the first
- a first bracket is disposed on an upper portion of the rack, and a second bracket is disposed on each of the left and right sides of the middle portion of the rack; the first bracket is provided with a first driving device for driving the upper pressing and lowering movement; The second bracket is provided with a second driving device for driving the entire compressor up and down.
- the first lever braking device includes a third motor, a first bevel gear, a first vertical rod, a first lever, a second vertical rod, a second bevel gear, and a third bracket; the first vertical rod a third rack is disposed, the third rack is fixed on the first vertical rod; the second vertical rod is provided with a fourth rack, and the fourth rack is fixed on the second vertical rod.
- the top of the first vertical rod is fixedly connected with the bottom end of the right portion of the first lever, and the top of the second vertical rod is fixedly connected with the bottom end of the left portion of the first lever; a fourth bracket, a fifth bracket, and a sixth bracket are disposed around the three brackets; the fourth bracket, the fifth bracket, and the sixth bracket are fixed on the third bracket; and the third motor is disposed on the third bracket
- the first bevel gear is disposed on the fourth bracket, the first lever is disposed on the fifth bracket, the second bevel gear is disposed on the sixth bracket, and the third motor is disposed on the third motor a fourth
- a seventh bracket is disposed on the upper right portion of the rack;
- the first driving device includes a first motor disposed on the first bracket, a first gear disposed on the first bracket, and is vertically disposed and fixed at the bottom end a first force transmission bar on the upper pressure plate, a first rack and a second lever brake device disposed on the first force transmission rod;
- the second lever brake device includes a third vertical rod and a second lever a fourth vertical rod, a fifth rack and a sixth rack;
- the second lever is disposed on the seventh bracket;
- the fifth rack is fixed on the third vertical rod, the sixth tooth
- the strip is fixed on the fourth vertical rod;
- the top of the third vertical rod is fixedly connected with the bottom end of the left portion of the second lever, and the top of the fourth vertical rod and the bottom end of the right portion of the second lever a fixed connection;
- the first gear meshes with the first rack and the fifth rack;
- the first motor is provided with a fifth gear, the fifth gear and the sixth tooth The bars
- the second driving device includes a second motor disposed on the second bracket, a second gear disposed on the second bracket and driven by the second motor, and an "L" type fixed on the outer wall of the outer casing a second force transmitting rod and a second rack disposed on the second force transmitting rod; the second gear meshes with the second rack; the second motor can drive the second gear to rotate; the second driving device
- the function is to push the whole compressor upward after the compressor compresses the gas, so that the bottom end of the first air outlet of the compressor is separated from the first groove; the second side of the middle and the second side of the rack
- a second driving device is disposed on each of the brackets.
- a second air inlet cover for supporting the second air inlet cover is disposed in the vicinity of the second air inlet cover; the top of the second air inlet cover and the second air inlet
- the bottom of the surrounding part of the bottle body is fixedly connected; the inside of the second air inlet cover is hollow; the second air inlet cover is disposed in the second air inlet cover; the second air inlet
- the lower part of the surrounding part of the bottle body has a cover groove which cooperates with a part of the upper part of the second air inlet cover, and a part of the upper part of the second air inlet cover can move up and down in the cover groove; the second air inlet cover
- a third air inlet communicating with the interior of the bottle body is opened at the right portion; and an air passage communicating with the interior of the bottle body is opened at the bottom of the second air inlet cover.
- the left part of the combustion chamber has an eighth air inlet
- the right part of the combustion chamber has a ninth air inlet
- the ninth air inlet is located at a lower right side of the eighth air inlet
- the air outlet of the axial flow compressor is in communication with the eighth air inlet
- the air outlet pipe in the gas cylinder is in communication with the ninth air inlet
- the upper portion of the combustion chamber is opened with a first micro hole
- the electric ignition device is disposed on the left side of the combustion chamber; the upper end of the nozzle is communicated with the interior of the combustion chamber, the right portion of the nozzle is opened with a small opening, a control box is disposed at the small opening, and the adjusting ingot is disposed in the control box;
- the left part of the control box is connected to the nozzle, and the second part of the control box is opened with a second micro hole;
- the third driving device comprises a heat insulation plate, a third force transmission rod, a seventh motor, a seventh gear and a seventh rack; the seventh gear meshes with the seventh rack; the seventh An eighth gear is disposed on the motor, the eighth gear meshes with the seventh gear; the seventh rack is disposed on the third force rod; and the third force rod passes through the first micro hole Extending into the combustion chamber, the top of the heat insulation board is fixedly connected to the bottom of the third force transmission rod;
- the second safety device includes a tenth motor, an eleventh gear, an eleventh rack and a second bumper; a tenth motor is provided with a twelfth gear, the twelfth gear meshes with the eleventh gear, the eleventh gear meshes with the eleventh rack, and the eleventh rack is disposed On the second bumper; the second bumper protrudes into the control box through the second micro hole, and the left part of the second bumper is fixedly connected to the right part of the adjusting spindle.
- the first safety device includes a ninth motor, a ninth gear, an eighth rack and a first bumper; the ninth motor is provided with a tenth gear, and the tenth gear and the ninth gear phase Engage, the ninth gear meshes with the eighth rack, and the eighth rack is disposed on the first bumper.
- the structure of the second expulsion system is exactly the same as that of the first expulsion system; the structure of the third expulsion system is exactly the same as that of the first expulsion system; the fourth expulsion system The structure is identical to that of the first firing system.
- the vortex shaft in the first firing system is fixedly coupled to the rotor on the axial flow compressor in the second firing system; the vortex shaft in the second firing system and the third firing system a rotor fixed connection on the axial flow compressor; the vortex shaft in the third drive system is fixedly connected with the rotor on the axial flow compressor in the fourth drive system; in the fourth drive system The vortex shaft is fixedly coupled to the rotor on the axial flow compressor in the first drive system.
- Figure 1 is a schematic view showing the structure of a partial ultrahigh pressure gas production sealing device.
- FIG. 2 is a schematic structural view of a gas cylinder.
- FIG 3 is a schematic structural view of a portion of the first lever brake device.
- FIG. 4 is a schematic structural view of a second lever brake device.
- Fig. 5 is a schematic structural view of a combustion chamber.
- a turbocharged natural gas engine comprising: a first firing system 201, a second firing system 202, a third firing system 203, and a fourth firing system 204;
- the first firing system 201 includes a gas cylinder 72, an eighth motor 65, an axial compressor 68, a combustion chamber 71, a first safety device 69, and a second safety device in the ultrahigh pressure gas production sealing device 77. 79.
- the axial flow compressor 68, the combustion chamber 71, the first safety device 69, the second safety device 79, the first lever brake device 73, the electric ignition device 54, the third driving device 96, and the nozzle 102 are disposed on the ninth bracket 70;
- the eighth motor 65 is connected to the axial compressor 68, the axial compressor 68 is driven by the eighth motor 65;
- the turbine 205 and the scroll 206 are disposed in the nozzle 102.
- the vortex shaft 206 and the turbine 205 are fixedly connected;
- the ultra-high pressure gas production sealing device 77 includes a frame 76 (not shown) disposed at an upper portion of the frame 76. a compressor 74, a gas cylinder 72 disposed at a lower portion of the frame 76 (shown in FIG. 1); the compressor 74 includes an inner frame 78 and a casing 1; the inner frame 78 includes an upper platen 2, and a double layer a cylindrical plate 81 and a bearing plate 58; the inside of the upper pressing plate 2 is hollow, and an upper portion of the upper pressing plate 2 is provided with a water inlet 57; the double-layer cylindrical plate 81 includes a first cylindrical plate 3 and a a two-layer cylindrical plate 29; the first cylindrical plate 3 has a cylindrical shape and a smaller diameter than the upper platen 2; and the second cylindrical plate 29 has a cylindrical shape.
- the caliber is smaller than the caliber of the first cylindrical plate 3, the first cylindrical plate 3 is sleeved on the outer surface of the second cylindrical plate 29; the top of the first cylindrical plate 3 of the double-layer cylindrical plate 81 is The bottom of the upper platen 2 is fixedly connected, and the top of the second layer of the cylindrical plate 29 is also fixedly connected to the bottom of the upper platen 2; the inside of the first layer of the cylindrical plate 3 is hollow, and the second layer of the cylinder The inside of the plate 29 is also hollow; the upper portion of the outer casing 1 is provided with a first air inlet port 7, and a portion of the bottom portion of the outer casing 1 is downwardly convex to form a double-layer cylindrical plate groove 80 corresponding to the double-layer cylindrical plate; Double-layered circle
- the plate groove 80 includes a first layer of cylindrical plate grooves 4 and a second layer of cylindrical plate grooves 30; the first layer of cylindrical plates 3 can move up and down in the first layer of cylindrical plate grooves 4;
- the two-layer cylindrical plate 29
- the top of the bearing plate 58 in the cylinder groove 30 is fixedly connected to the bottom of the second cylindrical plate 29; the inside of the bearing plate 58 in the second cylindrical plate groove 30 is hollow, and the second layer is round.
- the side of the bearing plate 58 in the barrel groove 30 can be combined with the second cylindrical plate
- the inner wall of the outer casing 1 is fitted with a first air outlet 5; the inner frame 78 is disposed in the outer casing 1, and the side surface of the upper pressure plate 2 is fitted to the inner wall of the upper portion of the outer casing 1;
- the first layer of the cylindrical plate 3 is partially overlapped with the partial upper platen 2, the partial pressure receiving plate 58 in the first cylindrical plate groove 4, and the partial outer casing 1 to form the first sub air chamber 10; the bottom portion of the outer casing 1 And a first cylindrical plate 3, a second cylindrical plate 29, a partial pressure receiving plate 58 in the first cylindrical plate groove 4, a partial pressure receiving plate 58 in the second cylindrical plate groove 30, and a portion
- the upper pressing plate 2 is enclosed
- the gas cylinder 72 includes a bottle body 9 (shown in FIG. 2); the top of the bottle body 9 has a second air inlet port 11 communicating with the first air outlet port 5; A first thread 23 is disposed in the gas port 11; a screw cap 12 is disposed at the second air inlet 11; the inside of the screw cap 12 is hollowed out to form a gas pipe 19, and the left portion of the screw cap 12 is opened.
- a second air outlet 24 communicating with the air outlet tube 19;
- a third gear 25 is disposed on the outer wall of the upper portion of the screw cap 12, the third gear 25 being fixed to the outer wall of the upper portion of the screw cap 12;
- the lower portion of the screw cap 12 a thread matching the first thread 23 in the second air inlet 11 is disposed on the outer wall;
- a second air inlet cover 38 is disposed below the threaded cover 12, and the second air inlet cover 38 is disposed
- the shape of the longitudinal section is "U" shaped, the interior of the second intake port cover 38 is hollow; the circumference of the second intake port 11
- the upper portion of the surrounding portion of the bottle body 9 is provided with a first recess 20, and the bottom end of the first air outlet 5 is disposed in the first recess 20;
- the upper portion of the portion of the bottle 9 near the first recess 20 a second groove 36 is defined, and a second thread 37 is disposed in the second groove 36;
- the inside of the bottle body 9 is
- the first bracket 82 is disposed on the upper portion of the frame 76 (which is not shown in the prior art, the same applies hereinafter), and a second bracket 83 is disposed on each of the left and right sides of the middle portion of the rack 76;
- a first driving device 84 for driving the upper pressing plate 2 to move up and down is disposed on the second bracket 83.
- the second bracket 83 is provided with a second driving device 85 for driving the entire compressor to move up and down.
- the first lever brake device 73 includes a third motor 26, a first bevel gear 27, a first vertical rod 100, a first lever 34, a second vertical rod 31, a second bevel gear 41, and a third bracket 86 ( As shown in FIG. 3), the first vertical rod 100 is provided with a third rack 35, and the third rack 35 is fixed on the first vertical rod 100; the second vertical rod 31 is a fourth rack 32 is disposed, and the fourth rack 32 is fixed on the second vertical rod 31; the top of the first vertical rod 100 is fixedly connected with the bottom end of the right portion of the first lever 34.
- the top of the second vertical rod 31 is fixedly connected to the bottom end of the left portion of the first lever 34; the third bracket 87 is disposed around the third bracket 86, the fifth bracket 33, and the sixth bracket 90; The fourth bracket 87, the fifth bracket 33, and the sixth bracket 90 are fixed on the third bracket 86; the third motor 26 is disposed on the third bracket 86, and the first bevel gear 27 is disposed at the fourth On the bracket 87, the first lever 34 is disposed on the fifth bracket 33, the second bevel gear 41 is disposed on the sixth bracket 90; the third motor 26 is provided with a fourth gear 42; The first bevel gear 27 meshes with the fourth gear 42 on the third motor 26 and also with the third rack 35 on the first vertical rod 100; the second bevel gear 41 is both The fourth rack 32 on the two uprights 31 engages and also engages the third gear 25 on the threaded cover 12.
- a seventh bracket 45 is disposed on the upper right portion of the frame 76.
- the first driving device 84 includes a first motor 2101 disposed on the first bracket 82, and a first gear 2102 disposed on the first bracket 82.
- a first dowel bar 2103 disposed vertically and fixed to the upper platen 2
- a first rack 2104 disposed on the first dowel bar 2103
- a second lever brake device 91 shown in FIG.
- the second lever brake device 91 includes a third vertical rod 44, a second lever 46, a fourth vertical rod 48, a fifth rack 43 and a sixth rack 47; the second lever 46 is disposed at The seventh bracket 45 is fixed on the third vertical rod 44, and the sixth rack 47 is fixed on the fourth vertical rod 48; the top of the third vertical rod 44 Fixedly connected to the bottom end of the left portion of the second lever 46, the top of the fourth vertical rod 48 is fixedly connected with the bottom end of the right portion of the second lever 46; the first gear 2102 is both with the first tooth The strip 2104 is engaged with the fifth rack 43; the first motor 2101 is provided with a fifth gear 49, and the fifth gear 49 meshes with the sixth rack 47.
- the second driving device 85 includes a second motor 2201 disposed on the second bracket 83, and a second gear 2202 disposed on the second bracket 83 and driven by the second motor 2201, and fixed on the outer wall of the outer casing 1.
- the second pass of the "L" type a force bar 2203 and a second rack 2204 disposed on the second force bar 2203; the second gear 2202 meshes with the second rack 2204; the second motor 2201 can drive the second gear 2202 to rotate
- the second driving device 85 functions to push the entire compressor upward after the compressor compresses the gas, so that the bottom end of the first air outlet 5 of the compressor is detached from the first recess 20;
- a second driving device 85 is disposed on each of the second brackets 83 on the left and right sides of the central portion 76.
- a second air inlet cover 39 for supporting the second air inlet cover 38 is disposed in the vicinity of the second air inlet cover 38; the top and the second of the second air inlet cover 39 The bottom of the portion of the bottle body 9 around the air inlet 11 is fixedly connected; the interior of the second air inlet cover 39 is hollow; the second air inlet cover 38 is disposed in the second air inlet cover 39; A portion of the bottle body 9 around the second air inlet 11 is provided with a cover groove 13 that cooperates with a portion of the upper portion of the second air inlet cover 38.
- a portion of the upper portion of the second air inlet cover 38 can be The cover slot 13 is moved up and down; the right portion of the second air inlet cover 39 has a third air inlet 40 communicating with the inside of the bottle body 9; the bottom of the second air inlet cover 39 is opened with the bottle body 9 Internally connected air passages 8.
- the left portion of the combustion chamber 71 has an eighth air inlet 98 (shown in FIG. 5), and the right portion of the combustion chamber 71 has a ninth air inlet 99, and the ninth air inlet 99 is located.
- the lower air inlet 98 is located at the lower right side; the air outlet of the axial flow compressor 68 communicates with the eighth air inlet 98, and the air outlet pipe 19 and the ninth air inlet port 99 in the gas cylinder 72 are
- the first portion of the combustion chamber 71 is open with a first micro-hole 66; the electric ignition device 54 is disposed on the left side of the combustion chamber 71; the upper end of the nozzle 102 is communicated with the interior of the combustion chamber 71, and is sprayed
- the right part of the tube 102 has a small opening, and a control box 800 is arranged at the small opening.
- the control box 800 is provided with an adjusting ingot 56.
- the left part of the control box 800 is connected to the nozzle 102, and the right part of the
- the third driving device 96 includes a heat insulating plate 63, a third force transmitting rod 5503, a seventh motor 5501, a seventh gear 5502, and a seventh rack 5504; the seventh gear 5502 and the seventh rack 5504 Engaging: the seventh motor 5501 is provided with an eighth gear 103, the eighth gear 103 meshes with the seventh gear 5502; and the seventh rack 5504 is disposed on the third force rod 5503
- the third force transmission rod 5503 extends into the combustion chamber 71 through the first micro hole 66, and the top of the heat insulation plate 63 is fixedly connected with the bottom of the third force transmission rod 5503;
- the second safety device 79 includes a tenth motor 600, an eleventh gear 50, an eleventh rack 51 and a second bumper 52.
- the tenth motor 600 is provided with a twelfth gear 105.
- the twelfth gear 105 meshes with the eleventh gear 50
- the eleventh gear 50 meshes with the eleventh rack 51
- the eleventh rack 51 is disposed on the second bumper 52.
- the second bumper 52 extends into the control box 800 through the second micro hole 53, and the left portion of the second bumper 52 is fixedly connected to the right portion of the adjusting spindle 56.
- the first safety device 69 includes a ninth motor 6701, a ninth gear 6702, an eighth rack 6703, and a first bumper 6704; the ninth motor 6701 is provided with a tenth gear 104, the The ten gear 104 meshes with the ninth gear 6702, the ninth gear 6702 meshes with the eighth rack 6703, and the eighth rack 6703 is disposed at The first bumper 6704 is on.
- the structure of the second expulsion system 202 is exactly the same as that of the first expulsion system 201; the structure of the third expulsion system 203 is exactly the same as that of the first expulsion system 201; The structure of the four-drive system 204 is also identical to the structure of the first drive system 201.
- the vortex shaft 206 in the first firing system 201 is fixedly coupled to the rotor on the axial flow compressor 68 in the second firing system 202; the vortex shaft 206 in the second firing system 202 is The rotor on the axial flow compressor 68 in the third drive system 203 is fixedly coupled; the vortex shaft 206 in the third drive system 203 and the axial flow compressor 68 in the fourth drive system 204 The rotor is fixedly coupled; the vortex shaft 206 in the fourth firing system 204 is fixedly coupled to the rotor on the axial compressor 68 in the first firing system 201.
- the specific operation process of the present invention is:
- the natural gas enters the first sub air chamber 10, the first cylindrical plate groove 4, the second sub air chamber 28, the second cylindrical plate groove 30, and the main air chamber 6 from the first air inlet 7 in order. .
- the first force transmitting rod 2103 is driven to move downward, and the upper pressing plate 2 also moves downward and compresses the gas in the main air chamber 6.
- the pressure of the gas in the first sub air chamber 10 the pressure of the gas in the first cylindrical plate groove 4, the pressure of the gas in the second sub air chamber 28, and the second cylindrical plate groove 30 during the compression process.
- the pressure of the gas inside and the pressure of the gas in the main gas chamber 6 are gradually increased, which can reduce the leakage of gas in the main gas chamber 6.
- the compressed gas is ejected from the first air outlet 5 and sequentially enters the second intake port 11, the third intake port 40, and the bottle body 9.
- the second force transmitting rod 2203 is driven to move upward, and the second force transmitting rod 2203 pushes the entire compressor 74 to move upward, so that the bottom end of the first air outlet 5 is disengaged from the groove 20.
- the second air inlet cover 38 moves upward due to the pushing action of the gas in the air passage 8 to the second air inlet cover 38, and the second air inlet cover 38 enters the cover groove 13.
- the air outlet pipe 19 in the gas cylinder 72 is communicated with the ninth air inlet 99.
- the tenth motor 600 in the first firing system 201 is activated to move the second bumper 52 to the left to close the nozzle 102 in the first firing system 201.
- the eighth motor 65 in the first firing system 201 is activated to cause the axial compressor 68 to operate, and air enters the combustion chamber 71 from the axial compressor 68.
- the seventh motor 5501 in the first firing system 201 is activated to cause the heat shield 63 to move downward.
- the third electric machine 26 in the first firing system 201 is activated to cause the air outlet pipe 19 to move downward, and the natural gas in the gas cylinder 72 overflows from the inside of the bottle body 9 and enters the combustion chamber 71.
- the seventh motor 5501 in the first firing system 201 is activated such that the heat shield 63 continues to move downward.
- the electric ignition device 54 in the first firing system 201 ignites the mixed gas in the combustion chamber 71.
- the tenth motor 600 in the first firing system 201 is reversely activated such that the second bumper 52 moves to the right to open the nozzle 102 in the first firing system 201, and the gas in the combustion chamber 71 is from the first
- the nozzle 102 in the firing system 201 ejects and acts on the turbine 205 and the vortex shaft 206 within the nozzle 102 in the first firing system 201.
- the vortex shaft 206 within the nozzle 102 in the first firing system 201 drives the rotor on the axial flow compressor 68 in the second firing system 202 to rotate therewith. External air enters the combustion chamber 71 in the second firing system 202 from the air outlet of the axial compressor 68 in the second firing system 202.
- the seventh motor 5501 in the second firing system 202 is activated to cause the heat shield 63 to move downward.
- the third electric machine 26 in the second firing system 202 is activated to cause the outlet pipe 19 to move downward, and the natural gas in the gas cylinder 72 overflows from the inside of the bottle body 9 and enters the combustion chamber 71.
- the seventh motor 5501 in the second firing system 202 is activated to cause the heat shield 63 to continue to move downward.
- the electric ignition device 54 in the second firing system 202 ignites the mixed gas within the combustion chamber 71.
- the tenth motor 600 in the second firing system 202 is reversely activated such that the second bumper 52 moves to the right to open the nozzle 102 in the second firing system 202, and the gas in the combustion chamber 71 is from the second
- the nozzle 102 in the firing system 202 ejects and acts on the turbine 205 and the vortex shaft 206 within the nozzle 102 in the second firing system 202.
- the vortex shaft 206 within the nozzle 102 in the second firing system 202 drives the rotor on the axial compressor 63 in the third firing system 203 to rotate therewith.
- the outside air enters the combustion chamber 71 in the third firing system 203 from the air outlet of the axial flow compressor 68 in the third firing system 203.
- the seventh motor 5501 in the third firing system 203 is activated to cause the heat shield 63 to move downward.
- the third electric machine 26 in the third firing system 203 is activated to cause the air outlet pipe 19 to move downward, and the natural gas in the gas cylinder 72 overflows from the inside of the bottle body 9 and enters the combustion chamber 71.
- the seventh motor 5501 in the third firing system 203 is activated to cause the heat shield 63 to continue to move downward.
- the electric ignition device 54 in the third firing system 203 ignites the mixed gas within the combustion chamber 71.
- the tenth motor 600 in the third firing system 203 is reversely activated such that the second bumper 52 moves to the right to open the nozzle 102 in the third firing system 203, and the gas in the combustion chamber 71 is from the third
- the nozzle 102 in the firing system 203 ejects and acts on the turbine 205 and the vortex shaft 206 within the nozzle 102 in the third firing system 203.
- the vortex shaft 206 within the nozzle 102 in the third firing system 203 causes the rotor on the axial compressor 64 in the fourth firing system 204 to rotate therewith. External air enters the combustion chamber 71 in the fourth firing system 204 from the air outlet of the axial compressor 68 in the fourth firing system 204.
- the seventh motor 5501 in the fourth firing system 204 is activated to cause the heat shield 63 to move downward.
- the third electric machine 26 in the fourth firing system 204 is activated to cause the outlet pipe 19 to move downward, and the natural gas in the gas cylinder 72 overflows from the inside of the bottle body 9 and enters the combustion chamber 71.
- the seventh motor 5501 in the fourth firing system 204 is activated to cause the heat shield 63 to continue to move downward.
- the electric ignition device 54 in the fourth firing system 204 ignites the mixed gas within the combustion chamber 71.
- the tenth motor 600 in the fourth firing system 204 is reversely activated such that the second bumper 52 moves to the right to open the nozzle 102 in the fourth firing system 204, and the gas in the combustion chamber 71 is from the fourth
- the nozzle 102 in the firing system 204 ejects and acts on the turbine 205 and the vortex shaft 206 within the nozzle 102 in the fourth firing system 204.
- the vortex shaft 206 in the nozzle 102 in the fourth firing system 204 drives the rotor on the axial flow compressor 68 in the first firing system 201 to rotate therewith.
- the outside air enters the combustion chamber 71 in the first firing system 201 from the air outlet of the axial flow compressor 68 in the first firing system 201.
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Abstract
Description
Claims (1)
- 涡轮增压天然气发动机,其特征在于:包括第一驱发系统(201)、第二驱发系统(202)、第三驱发系统(203)、第四驱发系统(204);所述的第一驱发系统(201)包括超高压气体生产密封装置(77)中的储气瓶(72)、第八电机(65)、轴流式压气机(68)、燃烧室(71)、第一保险装置(69)、第二保险装置(79)、第一杠杆制动装置(73)、电点火装置(54)、第三驱动装置(96)、喷管(102)、涡轮(205)、涡轴(206)和第九支架(70);所述的储气瓶(72)、第八电机(65)、轴流式压气机(68)、燃烧室(71)、第一保险装置(69)、第二保险装置(79)、第一杠杆制动装置(73)、电点火装置(54)、第三驱动装置(96)、喷管(102)设置在第九支架(70)上;所述的第八电机(65)与轴流式压气机(68)相连,所述的轴流式压气机(68)由第八电机(65)驱动;所述的涡轮(205)和涡轴(206)设置在喷管(102)内,所述的涡轴(206)和涡轮(205)固定连接;所述的超高压气体生产密封装置(77)包括机架(76)、设置在机架(76)上部的压气机(74)、设置在机架(76)下部的储气瓶(72);所述的压气机(74)包括内架(78)和外壳(1);所述的内架(78)包括上压板(2)、双层圆筒板(81)和承压板(58);所述的上压板(2)的内部中空,上压板(2)的上部开有进水口(57);所述的双层圆筒板(81)包括第一层圆筒板(3)和第二层圆筒板(29);所述的第一层圆筒板(3)的形状为圆筒形,其口径小于上压板(2)的宽度;所述的第二层圆筒板(29)的形状也为圆筒形,其口径小于第一层圆筒板(3)的口径,第一层圆筒板(3)套在第二层圆筒板(29)的外面;双层圆筒板(81)的第一层圆筒板(3)的顶部与上压板(2)的底部固定连接,其第二层圆筒板(29)的顶部也与上压板(2)的底部固定连接;所述的第一层圆筒板(3)的内部中空,所述的第二层圆筒板(29)内部也中空;所述的外壳(1)的上部开有第一进气口(7),外壳(1)的部分底部向下凸起形成与双层圆筒板相对应的双层圆筒板槽(80);所述的双层圆筒板槽(80)包括第一层圆筒板槽(4)和第二层圆筒板槽(30);所述的第一层圆筒板(3)可在第一层圆筒板槽(4)内上下活动;所述的第二层圆筒板(29)可在第二层圆筒板槽(30)内上下活动;所述的第一层圆筒板槽(4)内设置一块承压板(58),所述的第一层圆筒板槽(4)内的承压板(58)的形状为圆环状;所述的第一层圆筒板槽(4)内的承压板(58)的顶部与第一层圆筒板(3)的底部固定连接;所述的第一层圆筒板槽(4)内的承压板(58)的内部中空,第一层圆筒板槽(4)内的承压板(58)的侧面可与第一层圆筒板槽(4)的内壁相贴合;所述的第二层圆筒板槽(30)内也设置一块承压板(58),所述的第二层圆筒板槽(30)内的承压板(58)的形状也为圆环状;所述的第二层圆筒板槽(30)内的承压板(58)的顶部与第二层圆筒板(29)的底部固定连接;所述的第二层圆筒板槽(30)内的承压板(58)的内部中空,第二层圆筒板槽(30)内的承压板(58)的侧面可与第二层圆筒板槽(30)的内壁相贴合; 外壳(1)的底部还开有第一出气口(5);所述的内架(78)设置在外壳(1)内,上压板(2)的侧面与外壳(1)的上部的内壁相贴合;所述的第一层圆筒板(3)与部分上压板(2)、第一层圆筒板槽(4)内的部分承压板(58)、部分外壳(1)合围形成第一副气室(10);所述的外壳(1)的部分底部与第一层圆筒板(3)、第二层圆筒板(29)、第一层圆筒板槽(4)内的部分承压板(58)、第二层圆筒板槽(30)内的部分承压板(58)、部分上压板(2)合围形成第二副气室(28);所述的第二层圆筒板(29)与外壳(1)的部分底部、第二层圆筒板槽(30)内的部分承压板(58)、部分上压板(2)合围形成主气室(6);所述的储气瓶(72)包括瓶体(9);所述的瓶体(9)的顶部开有与第一出气口(5)相通的第二进气口(11);所述的第二进气口(11)内设置第一螺纹(23);所述的第二进气口(11)处设置有螺纹盖(12);所述的螺纹盖(12)的内部被凿空形成出气管(19),螺纹盖(12)的左部开有与出气管(19)相通的第二出气口(24);螺纹盖(12)的上部的外壁上设置第三齿轮(25),所述的第三齿轮(25)固定在螺纹盖(12)的上部的外壁上;螺纹盖(12)的下部的外壁上设置有与第二进气口(11)内的第一螺纹(23)相配合的螺纹;所述的螺纹盖(12)的下方设置第二进气口盖(38),所述的第二进气口盖(38)的纵向截面的形状呈“U”形,第二进气口盖(38)的内部中空;第二进气口(11)的周围的部分瓶体(9)的上部开有第一凹槽(20),所述的第一出气口(5)的底端设置在第一凹槽(20)内;第一凹槽(20)的附近的部分瓶体(9)的上部开有第二凹槽(36),所述的第二凹槽(36)内设置第二螺纹(37);所述的瓶体(9)的内部中空;所述的机架(76)上部设置第一支架(82),机架(76)中部的左右两侧各设置一第二支架(83);所述的第一支架(82)上设置用于驱动上压板(2)上下运动的第一驱动装置(84);所述的第二支架(83)上设置用于驱动整个压气机上下运动的第二驱动装置(85);所述的第一杠杆制动装置(73)包括第三电机(26)、第一锥齿轮(27)、第一竖杆(100)、第一杠杆(34)、第二竖杆(31)、第二锥齿轮(41)和第三支架(86);所述的第一竖杆(100)上设置有第三齿条(35),所述的第三齿条(35)固定在第一竖杆(100)上;所述的第二竖杆(31)上设置有第四齿条(32),所述的第四齿条(32)固定在第二竖杆(31)上;所述的第一竖杆(100)的顶部与第一杠杆(34)的右部的底端固定连接,所述的第二竖杆(31)的顶部与第一杠杆(34)的左部的底端固定连接;所述的第三支架(86)的周围设置第四支架(87)、第五支架(89)、第六支架(90);所述的第四支架(87)、第五支架(89)、第六支架(90)固定在第三支架(86)上;所述的第三电机(26)设置在第三支架(86)上,所述的第一锥齿轮(27)设置在第四支架(87)上,所述的第一杠杆(34)设置在第五支架(89)上,所述的第二锥齿轮(41)设置在第六支架(90)上;所述的第三电机(26)上设置有第 四齿轮(42);所述的第一锥齿轮(27)既与第三电机(26)上的第四齿轮(42)相啮合,也与第一竖杆(100)上的第三齿条(35)相啮合;所述的第二锥齿轮(41)既与第二竖杆(31)上的第四齿条(32)相啮合,也与螺纹盖(12)上的第三齿轮(25)相啮合;所述的机架(76)的右上部设置第七支架(45);所述的第一驱动装置(84)包括设置在第一支架(82)上的第一电机(2101)、设置在第一支架(82)上的第一齿轮(2102)、竖直设置并且底端固定在上压板(2)上的第一传力杆(2103)、设置在第一传力杆(2103)上的第一齿条(2104)和第二杠杆制动装置(91);所述的第二杠杆制动装置(91)包括第三竖杆(44)、第二杠杆(46)、第四竖杆(48)、第五齿条(43)和第六齿条(47);所述的第二杠杆(46)设置在第七支架(45)上;所述的第五齿条(43)固定在第三竖杆(44)上,所述的第六齿条(47)固定在第四竖杆(48)上;所述的第三竖杆(44)的顶部与第二杠杆(46)的左部的底端固定连接,所述的第四竖杆(48)的顶部与第二杠杆(46)的右部的底端固定连接;所述的第一齿轮(2102)既与第一齿条(2104)相啮合,也与第五齿条(43)相啮合;所述的第一电机(2101)上设置有第五齿轮(49),所述的第五齿轮(49)与第六齿条(47)相啮合;所述的第二驱动装置(85)包括设置在第二支架(83)上的第二电机(2201)、设置在第二支架(83)上并且由第二电机(2201)驱动的第二齿轮(2202)、固定在外壳(1)的外壁上的呈“L”型的第二传力杆(2203)和设置在第二传力杆(2203)上的第二齿条(2204);所述的第二齿轮(2202)与第二齿条(2204)相啮合;所述的第二电机(2201)可以驱动第二齿轮(2202)旋转;第二驱动装置(85)的作用是当压气机压缩完气体之后,将整个压气机向上推动,使得压气机的第一出气口(5)的底端从第一凹槽(20)脱离出来;所述的机架(76)中部的左右两侧的第二支架(83)上各设置一第二驱动装置(85);所述的第二进气口盖(38)的附近设置用来托住第二进气口盖(38)的第二进气口盖托(39);所述的第二进气口盖托(39)的顶部与第二进气口(11)的周围的部分瓶体(9)的底部固定连接;第二进气口盖托(39)的内部中空;所述的第二进气口盖(38)设置在第二进气口盖托(39)内;所述的第二进气口(11)的周围的部分瓶体(9)的下部开有与第二进气口盖(38)的部分上部相配合的盖槽(13),第二进气口盖(38)的部分上部可在盖槽(13)内上下活动;第二进气口盖托(39)的右部开有与瓶体(9)内部相通的第三进气口(40);第二进气口盖托(39)的底部开有与瓶体(9)内部相通的气道(8);所述的燃烧室(71)的左部开有第八进气口(98),燃烧室(71)的右部开有第九进气口(99),所述的第九进气口(99)位于第八进气口(98)的右下方;所述的轴流式压气机(68)的出气口与第八进气口(98)相通,所述的储气瓶(72)中的出气管(19)与第九进气口(99) 相通;所述的燃烧室(71)的上部开有第一微孔(66);所述的电点火装置(54)设置在燃烧室(71)的左侧;所述的喷管(102)的上端与燃烧室(71)内部相通,喷管(102)的右部开有一小口,在小口处设置控制箱(800),控制箱(800)内设置调节锭(56);所述的控制箱(800)的左部与喷管(102)相通,控制箱(800)的右部开有第二微孔(53);所述的第三驱动装置(96)包括隔热板(63)、第三传力杆(5503)、第七电机(5501)、第七齿轮(5502)和第七齿条(5504);所述的第七齿轮(5502)与第七齿条(5504)相啮合;所述的第七电机(5501)上设置有第八齿轮(103),所述的第八齿轮(103)与第七齿轮(5502)相啮合;所述的第七齿条(5504)设置在第三传力杆(5503)上;所述的第三传力杆(5503)通过第一微孔(66)伸入到燃烧室(71)内,所述的隔热板(63)顶部与第三传力杆(5503)的底部固定连接;所述的第二保险装置(79)包括第十电机(600)、第十一齿轮(50)、第十一齿条(51)和第二保险杠(52);所述的第十电机(600)上设置有第十二齿轮(105),所述的第十二齿轮(105)与第十一齿轮(50)相啮合,所述的第十一齿轮(50)与第十一齿条(51)相啮合,所述的第十一齿条(51)设置在第二保险杠(52)上;所述的第二保险杠(52)通过第二微孔(53)伸入到控制箱(800)内,第二保险杠(52)的左部与调节锭(56)的右部固定连接;所述的第一保险装置(69)包括第九电机(6701)、第九齿轮(6702)、第八齿条(6703)和第一保险杠(6704);所述的第九电机(6701)上设置有第十齿轮(104),所述的第十齿轮(104)与第九齿轮(6702)相啮合,所述的第九齿轮(6702)与第八齿条(6703)相啮合,所述的第八齿条(6703)设置在第一保险杠(6704)上;所述的第二驱发系统(202)的结构与第一驱发系统(201)的结构完全相同;所述的第三驱发系统(203)的结构与第一驱发系统(201)的结构完全相同;所述的第四驱发系统(204)的结构与第一驱发系统(201)的结构也完全相同;所述的第一驱发系统(201)中的涡轴(206)与第二驱发系统(202)中的轴流式压气机(68)上的转子固定连接;所述的第二驱发系统(202)中的涡轴(206)与第三驱发系统(203)中的轴流式压气机(68)上的转子固定连接;所述的第三驱发系统(203)中的涡轴(206)与第四驱发系统(204)中的轴流式压气机(68)上的转子固定连接;所述的第四驱发系统(204)中的涡轴(206)与第一驱发系统(201)中的轴流式压气机(68)上的转子固定连接。
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CN118517704B (zh) * | 2024-07-25 | 2024-09-27 | 绛县万源能源有限责任公司 | 一种固废处理用焚烧废气处理装置 |
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CN107288746A (zh) | 2017-10-24 |
US10247094B2 (en) | 2019-04-02 |
US20180320589A1 (en) | 2018-11-08 |
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