CN102720582B - Compressor and turbine homo-mechanism regulating mechanism - Google Patents
Compressor and turbine homo-mechanism regulating mechanism Download PDFInfo
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- CN102720582B CN102720582B CN201210189733.5A CN201210189733A CN102720582B CN 102720582 B CN102720582 B CN 102720582B CN 201210189733 A CN201210189733 A CN 201210189733A CN 102720582 B CN102720582 B CN 102720582B
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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
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- Y02T10/12—Improving ICE efficiencies
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Abstract
A compressor and turbine homo-mechanism regulating mechanism in the technical field of internal combustion engines comprises a compressor, a turbine, an engine, connecting pipes, a containing cavity, a moving part, penetrating pipes and an elastic part. Both the first penetrating pipe and the second penetrating pipe penetrate an upper wall and a lower wall of the moving part. A left wall of the moving part is connected with a left wall of the containing cavity through the elastic part. During operation of the engine, the moving part can move left and right in the containing cavity. At low operating speed, left pressure of the moving part is low, the moving part moves to the left, the first connecting pipe and the third connecting pipe are communicated with each other, air intake of the compressor increases relatively, and the compressor barely surges. At high operating speed, left pressure of the moving part is high, the moving part moves to the right, the fifth connecting pipe and the sixth connecting pipe are communicated with each other, air intake of the engine decreases relatively, and detonation pressure of cylinders lowers. The compressor and turbine homo-mechanism regulating mechanism is reasonable in design, simple in structure and applicable to turbocharging systems of engines.
Description
Technical field
What the present invention relates to is a kind of air inlet system and exhaust system of field of internal combustion engine, and particularly supercharged engine gas compressor and turbine are with mechanism's regulating system.
Background technique
Along with the development of modern society, power character and the Economy of people to motor requires more and more higher.In the situation that discharge capacity is certain, want to improve the output power of motor, effective method is just to provide more fuel and burns.Provide more fuel to be easy to accomplish by oil nozzle to cylinder, but the air quantity matching with the fuel quantity increasing will be provided simultaneously, but so easily do not accomplish; Fuel burns under the prerequisite of air quantity deficiency, and firing effect is poor.Certain when fuel injection quantity, when cylinder intake air quantity is larger, better, oil consumption and discharge are lower in burning.The degree of vacuum air amount that traditional naturally aspirated engine forms while relying on piston to move downward completely in cylinder, this traditional mode is difficult to provide the air of q.s to support the perfect combustion of fuel.Therefore, the burning that is intended for motor provides enough air, makes power character and the better economy of motor, and turbocharging technology is being played the part of very important role.But existing turbo charge system all can not be taken into account low speed operating mode and the high-speed working condition of motor preferably.
Through the retrieval of prior art document is found, China Patent No. ZL200410050996.3, patent name: the variable modular pulse converter supercharging device of a kind of turbo-charged diesel, this patented technology provides the device of the shared volume continuous variable of exhaust in a kind of outlet pipe, can take into account preferably high-speed working condition and the low speed operating mode of motor; But in its outlet pipe the variation of exhaust institute volume be by movement rod move up and down realize, this just need to increase a set of special control mechanism controls the movement of movement rod, thereby the more complicated that pressurization system structure is become, and the sealing of its exhaust piping is also poor under high-temperature condition.
Summary of the invention
The present invention is directed to above-mentioned the deficiencies in the prior art, provide a kind of gas compressor and turbine with mechanism's regulating system, can take into account preferably high-speed working condition and the low speed operating mode of motor.
The present invention is achieved through the following technical solutions, the present invention includes: compressor air inlet machine pipe, gas compressor, engine air inlet tube, coupling shaft, engine exhaust pipe, turbine, turbine steam outlet pipe, motor, the first connecting tube, the second connecting tube, the 3rd connecting tube, the 4th connecting tube, the 5th connecting tube, the 6th connecting tube, the 7th connecting tube, cavity volume, cavity volume upper wall surface, cavity volume lower wall surface, the left wall of cavity volume, the right wall of cavity volume, cavity volume front face, cavity volume rear surface, moving body, first runs through pipe, second runs through pipe, elastic member and the 8th connecting tube, gas compressor is coaxially connected by coupling shaft with turbine, the air inlet/outlet of gas compressor respectively with the air outlet of compressor air inlet machine pipe, the suction port of engine air inlet tube is connected, the air inlet/outlet of turbine respectively with the air outlet of engine exhaust pipe, the suction port of turbine steam outlet pipe is connected, the air inlet/outlet of motor respectively with the air outlet of engine air inlet tube, the suction port of engine exhaust pipe is connected, and the cross section of cavity volume is rectangular, cavity volume upper wall surface, cavity volume lower wall surface, the left wall of cavity volume, the right wall of cavity volume, cavity volume front face, cavity volume rear surface is fixed to be integrated, and moving body is installed in cavity volume and with the internal face sealing of cavity volume and contacted, the two ends of the first connecting tube respectively with engine air inlet tube, cavity volume lower wall surface is connected, one end of the second connecting tube is connected with cavity volume lower wall surface, the other end of the second connecting tube is connected with one end of the 8th connecting tube, the other end of the 8th connecting tube is connected with engine exhaust pipe, one end of the 3rd connecting tube is connected with cavity volume upper wall surface, the other end of the 3rd connecting tube is connected with one end of the 4th connecting tube, the other end of the 4th connecting tube is connected with compressor air inlet machine pipe, one end of the 5th connecting tube is connected with cavity volume lower wall surface, the other end of the 5th connecting tube is connected with one end of the 7th connecting tube, the other end of the 7th connecting tube is connected with engine exhaust pipe, one end of the 6th connecting tube is connected with cavity volume upper wall surface, the logical atmosphere of the other end of the 6th connecting tube, first runs through pipe and second runs through two walls up and down that Guan Jun runs through moving body, the left wall of moving body is connected by the left wall of elastic member and cavity volume.
Further, in the present invention, elastic member is spring, the first connecting tube, the 3rd connecting tube, first run through pipe, the 5th connecting tube, the 6th connecting tube, second and run through that pipe is straight pipe and internal diameter is identical, the dead in line of the axis of the first connecting tube and the 3rd connecting tube, the dead in line of the axis of the 5th connecting tube and the 6th connecting tube, the axis, second that the axis, first of the first connecting tube runs through pipe run through pipe axis, the 5th connecting tube axis all at grade.
In working procedure of the present invention, moving body can move left and right in cavity volume, the logical atmosphere in one end of the 6th connecting tube.In low speed operating mode, the cavity volume internal pressure in moving body left side is lower, under the effect of elastic member, moving body is moved to the left, the first connecting tube and the 3rd connecting tube are connected, the 5th connecting tube cuts off mutually with the 6th connecting tube, thereby the air inflow of gas compressor is increased relatively, and gas compressor is not breathed heavily shake; At high-speed working condition, the cavity volume internal pressure in moving body left side is higher, moving body moves right and tensile elasticity parts, the first connecting tube is cut off mutually with the 3rd connecting tube, the 5th connecting tube and the 6th connecting tube are connected, and some flows into atmosphere the exhaust after motor, and the acting ability of turbine weakens, thereby the air inflow of motor is reduced relatively, and each cylinder detonation pressure reduces.
Compared with prior art, the present invention has following beneficial effect: the present invention is in the time of low speed operating mode, and the air inflow of gas compressor increases relatively, and gas compressor is not breathed heavily shake; In the time of high-speed working condition, the air inflow of motor reduces relatively, and each cylinder detonation pressure is lower; And volume cavity temperature is lower, the sealing problem between shifting board and cavity volume also easily solves.
Accompanying drawing explanation
Fig. 1 is gas compressor of the present invention and the turbine structural representation with mechanism's regulating system;
Fig. 2 is the structural representation of A-A section in Fig. 1;
Wherein: 1, compressor air inlet machine pipe, 2, gas compressor, 3, engine air inlet tube, 4, coupling shaft, 5, engine exhaust pipe, 6, turbine, 7, turbine steam outlet pipe, 8, motor, 9, the first connecting tube, 10, the second connecting tube, 11, the 3rd connecting tube, 12, the 4th connecting tube, 13, the 5th connecting tube, 14, the 6th connecting tube, 15, the 7th connecting tube, 16, cavity volume, 17, cavity volume upper wall surface, 18, cavity volume lower wall surface, 19, the left wall of cavity volume, 20, the right wall of cavity volume, 21, cavity volume front face, 22, cavity volume rear surface, 23, moving body, 24, first runs through pipe, 25, second runs through pipe, 26, elastic member, 27, the 8th connecting tube.
Embodiment
Below in conjunction with accompanying drawing, embodiments of the invention are elaborated, the present embodiment, take technical solution of the present invention as prerequisite, provided detailed mode of execution and concrete operating process, but protection scope of the present invention is not limited to following embodiment.
embodiment
As depicted in figs. 1 and 2, the present invention includes: comprise compressor air inlet machine pipe 1, gas compressor 2, engine air inlet tube 3, coupling shaft 4, engine exhaust pipe 5, turbine 6, turbine steam outlet pipe 7, motor 8, the first connecting tube 9, the second connecting tube 10, the 3rd connecting tube 11, the 4th connecting tube 12, the 5th connecting tube 13, the 6th connecting tube 14, the 7th connecting tube 15, cavity volume 16, cavity volume upper wall surface 17, cavity volume lower wall surface 18, the left wall 19 of cavity volume, the right wall 20 of cavity volume, cavity volume front face 21, cavity volume rear surface 22, moving body 23, first runs through pipe 24, second runs through pipe 25, elastic member 26 and the 8th connecting tube 27, gas compressor 2 is coaxially connected by coupling shaft 4 with turbine 6, the air inlet/outlet of gas compressor 2 respectively with the air outlet of compressor air inlet machine pipe 1, the suction port of engine air inlet tube 3 is connected, the air inlet/outlet of turbine 6 respectively with the air outlet of engine exhaust pipe 5, the suction port of turbine steam outlet pipe 7 is connected, the air inlet/outlet of motor 8 respectively with the air outlet of engine air inlet tube 3, the suction port of engine exhaust pipe 5 is connected, and the cross section of cavity volume 12 is rectangular, cavity volume upper wall surface 13, cavity volume lower wall surface 14, the left wall 15 of cavity volume, the right wall 16 of cavity volume, cavity volume front face 17, cavity volume rear surface 18 is fixed to be integrated, and moving body 19 is installed in cavity volume 12 and with the internal face sealing of cavity volume 12 and contacted, the two ends of the first connecting tube 9 respectively with engine air inlet tube 3, cavity volume lower wall surface 18 is connected, one end of the second connecting tube 10 is connected with cavity volume lower wall surface 18, the other end of the second connecting tube 10 is connected with one end of the 8th connecting tube 27, the other end of the 8th connecting tube 27 is connected with engine exhaust pipe 5, one end of the 3rd connecting tube 11 is connected with cavity volume upper wall surface 17, the other end of the 3rd connecting tube 11 is connected with one end of the 4th connecting tube 12, the other end of the 4th connecting tube 12 is connected with compressor air inlet machine pipe 1, one end of the 5th connecting tube 13 is connected with cavity volume lower wall surface 18, the other end of the 5th connecting tube 13 is connected with one end of the 7th connecting tube 15, the other end of the 7th connecting tube 15 is connected with engine exhaust pipe 5, one end of the 6th connecting tube 14 is connected with cavity volume upper wall surface 17, the logical atmosphere of the other end of the 6th connecting tube 14, first runs through pipe 24 and second runs through two walls up and down that pipe 25 all runs through moving body 23, the left wall of moving body 23 is connected by the left wall 19 of elastic member 24 and cavity volume, elastic member 26 is spring, described the first connecting tube 9, the 3rd connecting tube 11, first runs through pipe 24, the 5th connecting tube 13, the 6th connecting tube 14, second run through pipe 25 be straight pipe and internal diameter identical, the dead in line of the axis of the first connecting tube 9 and the 3rd connecting tube 11, the dead in line of the axis of the 5th connecting tube 13 and the 6th connecting tube 14, the axis of the first connecting tube 9, first runs through the axis of pipe 24, second runs through the axis of pipe 25, the axis of the 5th connecting tube 13 all at grade.
In working procedure of the present invention, moving body 23 can move left and right in cavity volume 16, the logical atmosphere in one end of the 6th connecting tube 14.In low speed operating mode, the cavity volume internal pressure in moving body 23 left sides is lower, under the effect of elastic member 26, moving body 23 is moved to the left, the first connecting tube 9 and the 3rd connecting tube 11 are connected, the 5th connecting tube 13 cuts off mutually with the 6th connecting tube 14, thereby the air inflow of gas compressor 2 is increased relatively, and gas compressor 2 is not breathed heavily shake; At high-speed working condition, the cavity volume internal pressure in moving body 23 left sides is higher, moving body 23 moves right and tensile elasticity parts 26, the first connecting tube 9 is cut off mutually with the 3rd connecting tube 11, the 5th connecting tube 13 and the 6th connecting tube 14 are connected, and some flows into atmosphere the exhaust after motor, and the acting ability of turbine 6 weakens, thereby the air inflow of motor 8 is reduced relatively, and each cylinder detonation pressure reduces.Therefore, the present invention can take into account low speed operating mode and the high-speed working condition of motor preferably.
Claims (1)
1. gas compressor and turbine, with mechanism's regulating system, comprise compressor air inlet machine pipe (1), gas compressor (2), engine air inlet tube (3), coupling shaft (4), engine exhaust pipe (5), turbine (6), turbine steam outlet pipe (7) and motor (8), gas compressor (2) is coaxially connected by coupling shaft (4) with turbine (6), the air inlet/outlet of gas compressor (2) respectively with the air outlet of compressor air inlet machine pipe (1), the suction port of engine air inlet tube (3) is connected, the air inlet/outlet of turbine (6) respectively with the air outlet of engine exhaust pipe (5), the suction port of turbine steam outlet pipe (7) is connected, the air inlet/outlet of motor (8) respectively with the air outlet of engine air inlet tube (3), the suction port of engine exhaust pipe (5) is connected, and characterized by further comprising the first connecting tube (9), the second connecting tube (10), the 3rd connecting tube (11), the 4th connecting tube (12), the 5th connecting tube (13), the 6th connecting tube (14), the 7th connecting tube (15), cavity volume (16), cavity volume upper wall surface (17), cavity volume lower wall surface (18), the left wall of cavity volume (19), the right wall of cavity volume (20), cavity volume front face (21), cavity volume rear surface (22), moving body (23), first runs through pipe (24), second runs through pipe (25), elastic member (26) and the 8th connecting tube (27), the cross section of cavity volume (16) is rectangular, cavity volume upper wall surface (17), cavity volume lower wall surface (18), the left wall of cavity volume (19), the right wall of cavity volume (20), cavity volume front face (21), fixed being integrated of cavity volume rear surface (22), moving body (23) is installed in cavity volume (16) and with the internal face sealing of cavity volume (16) and is contacted, the two ends of the first connecting tube (9) respectively with engine air inlet tube (3), cavity volume lower wall surface (18) is connected, one end of the second connecting tube (10) is connected with cavity volume lower wall surface (18), the other end of the second connecting tube (10) is connected with one end of the 8th connecting tube (27), the other end of the 8th connecting tube (27) is connected with engine exhaust pipe (5), one end of the 3rd connecting tube (11) is connected with cavity volume upper wall surface (17), the other end of the 3rd connecting tube (11) is connected with one end of the 4th connecting tube (12), the other end of the 4th connecting tube (12) is connected with compressor air inlet machine pipe (1), one end of the 5th connecting tube (13) is connected with cavity volume lower wall surface (18), the other end of the 5th connecting tube (13) is connected with one end of the 7th connecting tube (15), the other end of the 7th connecting tube (15) is connected with engine exhaust pipe (5), one end of the 6th connecting tube (14) is connected with cavity volume upper wall surface (17), the logical atmosphere of the other end of the 6th connecting tube (14), first runs through pipe (24) and second runs through two walls up and down that pipe (25) all runs through moving body (23), the left wall of moving body (23) is connected with the left wall of cavity volume (19) by elastic member (24), elastic member (26) is spring, the first connecting tube (9), the 3rd connecting tube (11), first runs through pipe (24), the 5th connecting tube (13), the 6th connecting tube (14), second runs through that pipe (25) is straight pipe and internal diameter is identical, the dead in line of the axis of the first connecting tube (9) and the 3rd connecting tube (11), the dead in line of the axis of the 5th connecting tube (13) and the 6th connecting tube (14), the axis of the first connecting tube (9), first runs through the axis of pipe (24), second runs through the axis of pipe (25), the axis of the 5th connecting tube (13) all at grade.
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CN201210189733.5A CN102720582B (en) | 2012-06-11 | 2012-06-11 | Compressor and turbine homo-mechanism regulating mechanism |
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CN201210189733.5A CN102720582B (en) | 2012-06-11 | 2012-06-11 | Compressor and turbine homo-mechanism regulating mechanism |
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CN102720582B true CN102720582B (en) | 2014-06-18 |
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CN102966396B (en) * | 2012-11-06 | 2015-05-20 | 上海交通大学 | Dual valve height pneumatic control system |
CN102966399B (en) * | 2012-11-29 | 2014-12-24 | 上海交通大学 | Tappet rod device with transverse moving type moving body |
CN108087110B (en) * | 2017-11-22 | 2020-08-14 | 中国北方发动机研究所(天津) | Turbine bypass self-adaptive adjusting device of two-stage supercharging system |
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DE19717094C1 (en) * | 1997-04-23 | 1998-06-18 | Daimler Benz Ag | Internal combustion engine with suction conduit, exhaust gas conduit and exhaust turbocharger |
US6012289A (en) * | 1997-11-19 | 2000-01-11 | Caterpillar Inc. | Apparatus and method for utilizing a learned wastegate control signal for controlling turbocharger operation |
CN2924201Y (en) * | 2006-05-30 | 2007-07-18 | 宝山钢铁股份有限公司 | Automatic cutoff and pressure release plunger valve for pressure meter |
US7735320B2 (en) * | 2006-08-29 | 2010-06-15 | Gm Global Technology Operations, Inc. | Dual stage turbocharger control system |
CN101403442B (en) * | 2007-12-27 | 2011-02-16 | 奇瑞汽车股份有限公司 | Valve and system used for turbosupercharger recirculation |
US8733320B2 (en) * | 2010-04-02 | 2014-05-27 | Ford Global Technologies, Llc | Combustion stability enhancement via internal EGR control |
KR101209727B1 (en) * | 2010-09-29 | 2012-12-07 | 현대자동차주식회사 | Turbo chrager having anti-surge valve |
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