CN104612826A - Efficient and energy-saving engine - Google Patents

Efficient and energy-saving engine Download PDF

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Publication number
CN104612826A
CN104612826A CN201510051930.4A CN201510051930A CN104612826A CN 104612826 A CN104612826 A CN 104612826A CN 201510051930 A CN201510051930 A CN 201510051930A CN 104612826 A CN104612826 A CN 104612826A
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cam
exhaust
intake
connecting rod
power
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陈阳
张玉辉
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Individual
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Abstract

The invention discloses an efficient and energy-saving engine. The efficient and energy-saving engine comprises an engine frame, a power transmission system, a spark plug and an oil atomizer and a gas inlet and outlet system, wherein the power transmission system, the spark plug, the oil atomizer and the gas inlet and outlet system are arranged on the engine frame. The power transmission system comprises a crank-link mechanism serving as a power main transmission system, and a power accelerated compensation device corresponding to the crank-link mechanism. The power accelerated compensation device comprises an accelerated compensation piston and an accelerated compensation piston rod, wherein the accelerated compensation piston and a main power piston are correspondingly arranged in the same cylinder body, and the accelerated compensation piston rod is connected with the accelerated compensation piston. The accelerated compensation transmission system is connected between the accelerated compensation piston rod and a crank. The efficient and energy-saving engine is characterized in that the accelerated compensation transmission mechanism comprises a chain wheel transmission mechanism, a link mechanism, a cam transmission mechanism and a gear transmission mechanism, the chain wheel transmission mechanism is connected with the crank, the link mechanism is connected with the accelerated compensation piston rod, the cam transmission mechanism is connected with the link mechanism, and the gear transmission mechanism is connected between the cam transmission mechanism and the chain wheel transmission mechanism. The shaking of the engine is greatly reduced, noise of the engine is greatly reduced, and running is stable.

Description

Energy-saving efficient engine
Technical field
The present invention relates to technical field of engines, relate to a kind of energy-saving efficient engine more specifically.
Background technique
Motor be a kind of can the machine that can be converted into mechanical energy of other form, it experienced by steamer, external-combustion engine and internal-combustion engine three developing stage.The kind of internal-combustion engine is very various, and common petrol engine, diesel engine are typical internal-combustion engines.But, due to the different in kind of gasoline and diesel oil, thus all different in the working principle and structure of motor.
One, the working principle of petrol engine is that air and gasoline are mixed into good mixed gas in certain proportion, cylinder is inhaled at intake stroke, the compressed ignition of mixed gas and produce heat energy, the gas of High Temperature High Pressure acts on piston head, promotion piston does reciprocating linear motion, by connecting rod, the external output mechanical energy of crankshaft-flywheel mechanism.For four-stroke gasoline engine, be in intake stroke, compression stroke, working stroke and exhaust stroke, complete a work cycle.
1) intake stroke
Piston moves to lower dead center by top dead center under the drive of bent axle.Now IO Intake Valve Opens, exhaust valve closing, crank rotation 180 °.In piston moving process, cylinder volume increases gradually, and cylinder charge pressure is reduced to pa gradually from pr, forms certain degree of vacuum in cylinder, the mixed gas of air and gasoline is inhaled into cylinder by intake valve, and is mixed to form inflammable mixture further in cylinder.Because gas handling system exists resistance, cylinder charge pressure is less than atmospheric pressure 0p, i.e. pa=(0.80 ~ 0.90) 0p.Enter the temperature of the inflammable mixture in cylinder, due to the heating of the hot parts such as suction tude, cylinder wall, piston top, valve and chamber wall and be elevated to 340 ~ 400K with mixing of residual gas.
2) compression stroke
During compression stroke, inlet and outlet door is closed simultaneously.Piston moves from lower dead center to top dead center, crank rotation 180 °.When piston moves, swept volume reduces gradually, in cylinder mixed gas by compression after pressure and temperature constantly raise, arrive compression terminal time, its pressure p c can reach 800 ~ 2000kPa, and temperature reaches 600 ~ 750K.
3) working stroke
When the piston is near the top dead centre, by spark ignitor inflammable mixture, mixture combustion discharges a large amount of heat energy, and the pressure and temperature of cylinder charge is improved rapidly.Burning maximum pressure pZ reaches 3000 ~ 6000kPa, and temperature TZ reaches 2200 ~ 2800K.The combustion gas of High Temperature High Pressure promotes piston and moves to lower dead center from top dead center, and by the external output mechanical energy of connecting rod.Along with piston moves down, cylinder volume increases, and gas pressure and temperature decline gradually, and when arriving b point, its Pressure Drop to 300 ~ 500kPa, temperature is down to 1200 ~ 1500K.At working stroke, intake valve, exhaust valve are all closed, crank rotation 180 °.
4) exhaust stroke
During exhaust stroke, exhauxt valve opens, intake valve is still closed, and piston moves from lower dead center to top dead center, crank rotation 180 °.During exhauxt valve opens, the waste gas after burning is discharged on the one hand under the effect of cylinder inside and outside differential pressure outside cylinder, is vented on the other hand by the exclusion effect of piston outside cylinder.Due to the drag effect of vent systems, a little higher than atmospheric pressure of pressure of exhaust terminal r point, i.e. pr=(1.05 ~ 1.20) p0.Exhaust outlet temperature Tr=900 ~ 1100K.When piston movement is to top dead center, the waste gas still leaving a constant volume in firing chamber cannot be discharged, and this part waste gas is residual gas.
Two, the working principle of diesel engine is the same with petrol engine, and each work cycle is also made up of intake stroke, compression stroke, working stroke and exhaust stroke.Because diesel engine makes fuel with diesel oil, compared with gasoline, diesel oil spontaneous ignition temperature is low, viscosity greatly not easily evaporates, and thus diesel engine adopts compression terminal involuntary ignition, its working procedure and system architecture and petrol engine different.
1) intake stroke
The working medium entering cylinder is pure air.Because diesel engine air inlet system resistance is less, air inlet terminal pressure pa=(0.85 ~ 0.95) p0 is higher than petrol engine.Air inlet outlet temperature Ta=300 ~ 340K is lower than petrol engine.
2) compression stroke
Because the working medium of compression is pure air, the therefore compression ratio of diesel engine higher than petrol engine (being generally ε=16 ~ 22).The pressure of compression terminal is 3000 ~ 5000kPa, and the temperature of compression terminal is 750 ~ 1000K, substantially exceeds the spontaneous ignition temperature (about 520K) of diesel oil.
3) working stroke
When compression stroke is close at the end, under high pressure oil pump effect, diesel oil is sprayed in cylinder chamber with the high pressure of about 10MPa by oil sprayer, after mixing with air in a short period of time, get angry burning immediately voluntarily.The pressure of cylinder charge rises rapidly, is up to 5000 ~ 9000kPa, and maximum temperature reaches 1800 ~ 2000K.Because diesel engine is pressured contracting ignition voluntarily, therefore diesel engine is claimed to be compression ignition engine.
4) exhaust stroke
The exhaust of diesel engine is substantially identical with petrol engine, and just delivery temperature is lower than petrol engine.General Tr=700 ~ 900K.For single-cylinder engine, its rotating speed is uneven, engine roughness, and vibration is large.This is because only have a stroke to be acting in four strokes, other three strokes are consumption of power is the stroke of preparing.In order to address this problem, flywheel must have enough large rotary inertia, and whole engine quality and size can be caused so again to increase.Adopt multicylinder engine can make up above-mentioned deficiency, but, also there is complex structure, the problems such as technology difficulty is large, technical requirements is high simultaneously.
Further, internal-combustion engine common at present also also exists the not high problem of energy use efficiency, shows as:
1, the piston arrives top dead center of motor, compression ratio reaches a timing point combustion or compression ignite (diesel engine adopts compression ignite technology), and not only just combustion phase energy is not utilized effectively, and cylinder pressure is increased, and affects the working life of motor;
2, because fuel quality is different, cylinder fuel optimum compression ratio is different, to ask use the vehicle of high-grade gasoline to use low grade oil product because of carelessness time, detonation may be shifted to an earlier date and produce pinking, damage is caused to motor.
For this reason, the license notification number that the present inventor proposed on September 13rd, 2014 is 204041238U, denomination of invention is a kind of energy-saving efficient engine, power acceleration compensation device adjustment bent axle and angle between banks are utilized to refire, increase engine power, reduce engine idle and dynamic load rotating speed, achieve energy-conservation object.But, critical component-power as this motor accelerates compensation device, compensate driving mechanism owing to driving the acceleration accelerating compensating piston running and also there is the irrational place of design, cause the accumulation being present in error in operation process, easy generation vibration, have impact on fluency and the stability of complete machine operation greatly.
For this reason, how by technological improvement, improve the energy use efficiency of internal-combustion engine, reduce energy consumption and environmental pollution, be all the problem that people pay special attention to all the time.
Summary of the invention
Object of the present invention is exactly deficiency in order to solve prior art and the one provided can make engine output power increase, improve service life of aeroengine, improve the versatility of fuel oil, reduce toxic emission, reduce motor shake, reduce noise, make gaseous combustion more abundant, the energy-saving efficient engine of environmental protection more.
The present invention adopts following technical solution to realize above-mentioned purpose: a kind of energy-saving efficient engine, comprise the power-transmission system of entablature and upper setting thereof, spark plug, oil sprayer and air inlet system and exhaust system, power-transmission system comprises and accelerates compensation device as the connecting rod of power main transmission and the power corresponding with connecting rod;
Connecting rod comprises body group, piston connecting rod unit and crankshaft-flywheel group, body group comprises crankcase, cylinder block, is connected the cylinder head coordinated with cylinder block, piston connecting rod unit comprises the active force piston be arranged in cylinder block and the active force piston rod be flexibly connected with active force piston, the flywheel that crankshaft-flywheel group comprises bent axle and is connected with bent axle, bent axle is arranged in crankcase;
Power accelerates the acceleration compensating piston bar that compensation device comprises the acceleration compensating piston that be arranged on same cylinder block in corresponding to active force piston, is connected with acceleration compensating piston;
Be connected with between described acceleration compensating piston bar and bent axle and accelerate to compensate driving mechanism, bent axle drives acceleration compensating piston to do the motion of regular compensation space in cylinder block inside by accelerating to compensate driving mechanism, increase breathing space and compression distance thus increasing compression ratio, and increase the crankshaft angles of outputting power, thus motor low-energy-consumption high-efficiency is operated;
It is characterized in that, describedly accelerate to compensate driving mechanism and comprise the chain wheel driving mechanism is connected with bent axle, the linkage mechanism be connected with acceleration compensating piston bar, the cam drive that is connected with linkage mechanism, between cam drive and chain wheel driving mechanism, be connected with gear drive;
Described cam drive comprises primarily of cam one, the cam set of cam two composition, the top-pressure part with the outer rim top press fit of cam one, cam two, connection carrier bar is connected with between cam one and cam two, cam set is flexibly connected with linkage mechanism, top-pressure part is connected to and connects on the rotating disk of drive by gear drive, rotated in a circumferential direction by driven by rotary disc top-pressure part, make top-pressure part top press driving cam one and wheel two; Cam one and cam two.
Further illustrating as such scheme, described gear drive is made up of some groups of driving gears, rotating disk is coaxially connected with the most final-stage gear of gear drive, guide gear is provided with between rotating disk and cam set, top-pressure part is the kink that the edge of rotating disk extends out to guide gear outer rim, planetary pinion is provided with between this kink and guide gear, this planetary pinion is fixed on kink by rotating shaft, and planetary pinion is provided with and the teeth portion of guide gear engagement driving and the top splenium with cam set movable contact.
Described linkage mechanism is made up of some groups of parallelogram lindages, it is one group with every two acceleration compensating pistons, two acceleration compensating pistons are corresponding to be respectively articulated with on the both sides hinge of the top links of parallelogram lindage, be interconnected between parallelogram lindage, wherein at least to be connected with cam set by dirivig member by the connecting rod of one group of parallelogram lindage and to coordinate, connecting rod is driven by cam set push-and-pull, thus drive the fork of parallelogram lindage to swing, and then drive reciprocating of acceleration compensating piston.
The quantity of described parallelogram lindage preferably two groups, corresponding connection driving four acceleration compensating pistons, two groups of parallelogram lindages are arranged in mode superimposed up and down, the length of the connecting rod one of the parallelogram lindage on top is 1/2 of the connecting rod two of the parallelogram lindage of bottom, and the connecting rod two being positioned at bottom connects the superposed connecting rod one of drive.
Described hinge is that the power being based upon peripheral hardware accelerates to compensate on support, and power accelerates to compensate support and arranges the chamber of installing connecting rods mechanism and install the bearing of cam drive and gear drive.
Described dirivig member comprises and is arranged on slide block between connecting rod two and cam set and chute, slide block is fixed in cam set by rotating shaft, chute is arranged on connecting rod two, moved by cam set band movable slider, and realize the push-and-pull action power of cam being converted to parallelogram lindage to the push-and-pull action power accelerating compensating piston by coordinating between slide block with chute.
In the cylinder that described spark plug is arranged, ignition position is active force piston rod when walking toward its lower dead center, and the bent axle be connected with active force piston rod becomes 25 °-35 ° with cylinder body angle.
Described air inlet system and exhaust system comprise the intake and exhaust storehouse be connected with cylinder block, the intake and exhaust wheels be arranged in intake and exhaust storehouse, the intake and exhaust that intake and exhaust wheels are corresponding with the piston cylinder of cylinder block by several are taken turns, the wheel shaft connected as one is taken turns in several intake and exhaust is formed, intake and exhaust wheel is provided with the inlet and outlet mouth and sealed department mutually separated, wheel shaft, by bent axle driven rotary, completes the intake and exhaust functions of motor; At the intake stroke of motor, the suction port of intake and exhaust wheel is communicated with the suction port of cylinder block and enters air, and continuation rotation; Arrive compression stroke, the suction port of the sealed department shutoff cylinder block of intake and exhaust wheel, and continue to rotate; Arrive working stroke, the sealed department of intake and exhaust wheel keeps the suction port of shutoff cylinder block, and continues to rotate; Arrive exhaust stroke, the relief opening of intake and exhaust wheel is communicated with cylinder block, by the exhaust gas evacuation in cylinder block, and continues to rotate, arrives next intake stroke.
Described air inlet system and exhaust system adopt the intake and exhaust design of position, side, comprise the inlet and outlet passage be connected with cylinder block, be respectively arranged with valve in inlet and outlet passage, valve is equipped with Returnning spring, the end of valve is connected with cam mechanism, for driving opening or closing of valve; Cam mechanism comprises cam and lever, one end of lever and the end movable top press fit of valve, and wheel shaft and the bent axle of cam are linked by driving mechanism, is driven the keying of valve, complete the intake and exhaust functions of motor by bent axle.
The beneficial effect that the present invention adopts above-mentioned technical solution to reach is:
1, the present invention adopt unique design by cam one, cam two, connection carrier bar between them and with cam one, the cam link driving mechanism of the top-pressure part composition of the outer rim top press fit of cam two, and introduce the gear transmission mode running stable drive, whole operation process smoothness very, making power accelerate compensation device using this excellent design can with the connecting rod synchronous operation as power main transmission, thus increase the outputting power of system, operate steadily, compared with prior art, significantly reduce motor shake and reduce noise, tool has an unexpected effect.
2, the present invention is by accelerating coordinating of compensating piston and active force piston, increase breathing space and compression distance, thus increasing compression ratio, the power making cylinder interior light instantaneous burst generation performs to maximum, greatly can improve the combustion powered utilization ratio of oil gas, after tested, save fuel oil 30%-40%, motor low-energy-consumption high-efficiency is operated.
3, service life of aeroengine is improved, conventional piston is lighted at nearly top dead center, not only primary power can not play a role, cylinder pressure is increased, affect the working life of motor, the present invention is then that main transmission piston crosses top dead center toward lower dead center traveling process, bent axle is lighted at about 30 degree relative to the parallel angle of cylinder, the maximum impetus of detonation can not only be played, and the working life of motor can not be affected, solve the insoluble problem of motor all the time with a kind of design of anti-convention.
4, improve cylinder fuel compression ratio, improve the versatility of fuel oil, make burning more abundant, improve fuel utilization efficiency, reduce toxic emission, even if use the vehicle of high-grade gasoline when using low grade oil product, also can not shift to an earlier date detonation and produce pinking, the damage of motor is dropped to minimum.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention;
Fig. 2 is cut-away view of the present invention;
Fig. 3 is cut-away view of the present invention;
Fig. 4 is cut-away view of the present invention;
Fig. 5 is cylinder block internal structure schematic diagram of the present invention;
Fig. 6 is that power of the present invention accelerates to compensate stand structure schematic diagram;
Fig. 7 is body group structural representation of the present invention;
Fig. 8 is cam set structural representation of the present invention;
Fig. 9 is cam set structural representation of the present invention;
Figure 10 is cam drive structural representation of the present invention;
Figure 11 is dirivig member structural representation of the present invention;
Figure 12 is dirivig member structural representation of the present invention;
Figure 13 is acceleration compensating piston structural representation of the present invention;
Figure 14 is the cam drive structural representation of embodiment 2;
Figure 15 is the cam drive structural representation of embodiment 2.
Accompanying drawing mark illustrates: 1, entablature 2, power-transmission system 2-1, connecting rod 2-11, body group 2-111, crankcase 2-112, cylinder block 2-113, cylinder head 2-12, piston connecting rod unit 2-121, active force piston 2-122, active force piston rod 2-13, crankshaft-flywheel group 2-131, bent axle 2-2, power accelerates compensation device 2-21, accelerate compensating piston 2-22, accelerate compensating piston bar 2-3, accelerate to compensate driving mechanism 2-31, chain wheel driving mechanism 2-311, driving gear one 2-312, driven gear one 2-313, drive chain one 2-32, linkage mechanism 2-321, connecting rod one 2-322, connecting rod two 2-33, cam drive 2-331, cam one 2-332, cam two 2-333, top-pressure part 2-334, connect carrier bar 2-34, gear drive 2-341, active oblique gear 2-342, secondary helical gear 2-35, rotating disk 2-36, guide gear 2-37, planetary pinion 2-371, teeth portion 2-372, top splenium 2-38, dirivig member 2-381, slide block 2-382, chute 3, spark plug 4, air inlet system and exhaust system 4-1, intake and exhaust storehouse 4-2, intake and exhaust wheels 4-21, intake and exhaust wheel 4-211, suction port 4-212, relief opening 4-213, sealed department 4-22, wheel shaft 4-3, intake and exhaust pipeline 5, sleeve 6, power accelerates to compensate support 6-1, chamber 6-2, bearing.
Embodiment
The present invention is a kind of energy-saving efficient engine, and the principle of its operation is:
Employing is set up the power corresponding with the connecting rod as power main transmission within the engine and is accelerated compensation device, accelerate compensation device by power in the compression and expansion stroke of motor, do the motion of regular compensation space, increase breathing space and compression distance thus increasing compression ratio, and increase the rotation angle of outputting power bent axle, thus increase the angle of effectively acting, motor low-energy-consumption high-efficiency is operated.It is provide power by connecting rod that described power accelerates compensation device, drive the acceleration compensating piston in power acceleration compensation device, accelerate when the piston of the connecting rod 1 of motor crosses top dead center to catch up with, make compression ratio in engine cylinder-body reach the optimum state to carry out lighting a fire or oil spout, be applicable to petrol engine and diesel engine.
Below in conjunction with specific embodiment, specific embodiment of the invention scheme is described in further detail.
Embodiment 1
As shown in Fig. 1-Figure 13, motor of the present invention have employed four cylinder structures, comprise the power-transmission system 2 of entablature 1 and upper setting thereof, spark plug 3, oil sprayer and air inlet system and exhaust system 4, power-transmission system 2 comprises and accelerates compensation device 2-2 as the connecting rod 2-1 of power main transmission and the power corresponding with connecting rod 2-1;
Connecting rod 2-1 comprises body group 2-11, piston connecting rod unit 2-12 and crankshaft-flywheel group 2-13, body group 2-11 comprises crankcase 2-111, cylinder block 2-112, is connected the cylinder head 2-113 coordinated with cylinder block 2-112, piston connecting rod unit 2-12 comprises the active force piston 2-121 be arranged in cylinder block and the active force piston rod 2-122 be flexibly connected with active force piston 2-121, the flywheel that crankshaft-flywheel group 2-13 comprises bent axle 2-131 and is connected with bent axle 2-131, bent axle is arranged in crankcase 2-111;
Power accelerates the acceleration compensating piston bar 2-22 that compensation device 2-2 comprises the acceleration compensating piston 2-21 that be arranged on same cylinder block in corresponding to active force piston, is connected with acceleration compensating piston 2-21;
Be connected with between described acceleration compensating piston bar 2-22 and bent axle 2-131 and accelerate to compensate driving mechanism 2-3, bent axle drives acceleration compensating piston to do the motion of regular compensation space in cylinder block inside by accelerating to compensate driving mechanism 2-3, increase breathing space and compression distance thus increasing compression ratio, and increase the crankshaft angles of outputting power, thus motor low-energy-consumption high-efficiency is operated;
The described cam drive 2-33 accelerating compensation driving mechanism 2-3 and comprise the chain wheel driving mechanism 2-31 be connected with bent axle, the linkage mechanism 2-32 be connected with acceleration compensating piston bar, be connected with linkage mechanism, is connected with gear drive 2-34 between cam drive and chain wheel driving mechanism;
Described chain wheel driving mechanism 2-31 comprises driving gear one 2-311, driven gear one 2-312 that are connected with bent axle and drive chain one 2-313 be connected between driving gear one and driven gear one;
Described cam drive 2-33 comprises primarily of the cam set of cam one 2-331, cam two 2-332 composition, the top-pressure part 2-333 with the outer rim top press fit of cam one, cam two, be connected with between cam one and cam two and connect carrier bar 2-334, cam set is flexibly connected with linkage mechanism 2-32, top-pressure part is connected to and connects on the rotating disk 2-35 of drive by gear drive 2-34, rotated in a circumferential direction by driven by rotary disc top-pressure part, make top-pressure part top press driving cam one and wheel two; Cam one and cam two.Gear drive 2-34 is made up of some groups of driving gears, in the present embodiment, the formation of this gear drive comprises: the active oblique gear 2-341 coaxial with driven gear one, with the secondary helical gear 2-342 of active oblique gear engagement driving, secondary helical gear 2-342 and rotating disk 2-35 is coaxially arranged.
Guide gear 2-36 is provided with between rotating disk 2-35 and cam set, top-pressure part 2-333 is the kink that the edge of rotating disk extends out to guide gear outer rim, planetary pinion 2-37 is provided with between this kink and guide gear, this planetary pinion is fixed on kink by rotating shaft, and planetary pinion is provided with and the teeth portion 2-371 of guide gear engagement driving and the top splenium 2-372 with cam set movable contact.
Described linkage mechanism 2-32 is made up of two groups of parallelogram lindages, corresponding connection driving four acceleration compensating piston 2-21, it is one group with every two acceleration compensating pistons, two acceleration compensating pistons are corresponding to be respectively articulated with on the both sides hinge of the top links of parallelogram lindage, hinge is that the power being based upon peripheral hardware accelerates to compensate on support 6, and power accelerates to compensate support 6 and arranges the chamber 6-1 of installing connecting rods mechanism and install the bearing 6-2 of cam drive 2-33 and gear drive 2-34.Two groups of parallelogram lindages are arranged in mode superimposed up and down, and the length of the connecting rod one of the parallelogram lindage on top is 1/2 of connecting rod two 2-322 of the parallelogram lindage of bottom, and the connecting rod two being positioned at bottom connects the superposed connecting rod one of drive.Be interconnected between parallelogram lindage, wherein at least to be connected with cam set by dirivig member 2-38 by the connecting rod of one group of parallelogram lindage and to coordinate, drive connecting rod by cam set push-and-pull, thus drive the fork of parallelogram lindage to swing, and then drive reciprocating of acceleration compensating piston.Dirivig member 2-38 comprises and is arranged on slide block 2-381 between connecting rod two and cam set and chute 2-382, slide block is fixed in cam set by rotating shaft, chute 2-382 is arranged on connecting rod two 2-322, moved by cam set band movable slider, and realize the push-and-pull action power of cam being converted to parallelogram lindage to the push-and-pull action power accelerating compensating piston by coordinating between slide block with chute.
The quantity of the spark plug that the present embodiment adopts is one, but if adopt plural spark plug, can realize multiple spot and light a fire simultaneously, and the detonation velocity in cylinder block is accelerated, and piston is stressed more even, better effects if.In the cylinder that spark plug is arranged, ignition position is for cross its top dead center toward in lower dead center traveling process at active force piston, bent axle is relative to the position of the parallel angle α of cylinder block at 25-35 °, generally that deflection is accelerated to supplement piston side, now, main transmission moment of torsion increases gradually, accelerate compensating piston bar to promote to accelerate compensating piston quickening gait of march, make cylinder block internal pressure reach design compression ratio to light, the power that instantaneous burst produces plays maximum impetus, greatly can improve the combustion powered utilization ratio of oil gas, fuel oil 30-40% is saved in expection.
In intake and exhaust structure, air inlet system and exhaust system 4 adopt the rolling flow deviding type of position, side intake and exhaust to design, comprise the intake and exhaust storehouse 4-1 be connected with cylinder block 2-112, be arranged on the intake and exhaust wheels 4-2 in intake and exhaust storehouse, enter, the both sides in exhaust storehouse are circumscribed with intake and exhaust pipeline 4-3 respectively, intake and exhaust wheels 4-2 takes turns 4-21 by several intake and exhaust corresponding with the piston cylinder of cylinder block, the wheel shaft 4-22 connected as one is taken turns in several intake and exhaust form, intake and exhaust wheel is provided with entering of mutually separating, relief opening 4-211, 4-212 and sealed department 4-213, wheel shaft is by bent axle driven rotary, complete the intake and exhaust functions of motor, at the intake stroke of motor, the suction port of intake and exhaust wheel is communicated with the suction port of cylinder block and enters air, and continuation rotation, arrive compression stroke, the suction port of the sealed department shutoff cylinder block of intake and exhaust wheel, and continue to rotate, arrive working stroke, the sealed department of intake and exhaust wheel keeps the suction port of shutoff cylinder block, and continues to rotate, arrive exhaust stroke, the relief opening of intake and exhaust wheel is communicated with cylinder block, by the exhaust gas evacuation in cylinder block, and continues to rotate, arrives next intake stroke.The intake and exhaust structure that the technical program adopts is compared with conventional air valve structure of the prior art, it to eliminate from cylinder block suction port to valve that section of gas channel, because this section of gas channel is communicated with cylinder block inner space, be actually the inner space adding cylinder, therefore, the compression ratio having influence on motor is directly returned in its existence; And the technical program adopts the form of intake and exhaust wheel, just in time eliminate pathway structure, well solve in prior art that gas channel is on the impact of engine compression ratio, it is also the preferred schemes of air inlet system and exhaust system of the present invention.
The motor of the technical program is in running, and the compression stroke of experience, expansion stroke and aspirating stroke all exist larger difference with conventional engines, and by so improving, solving the deficiency of conventional engines, being embodied in:
(1), compression stroke, atdc is gone to from lower dead center at bent axle, by accelerating the effect compensating driving mechanism, acceleration compensating piston catches up with to be lighted after top dead center turns over the active force piston of certain 25-35 °, thus the effective acting increased bent axle, increase compression ratio, improve engine power performance and energy-conservation requirement.
(2) expansion stroke, by accelerating to compensate the slide bar of driving mechanism and coordinating of cam with oscillating follower after detonation, acceleration compensating piston is made to remain on top dead center, until active force piston turns over lower dead center, accelerate compensating piston to start to be back to original position, thus continue lower one-stroke preparation.
(3) aspirating stroke, when active force piston is by lower dead center, accelerates the quick fall velocity of compensating piston and be greater than former velocity of piston, thus increase gettering quantity makes fuel be fully burned, and can reach energy-saving effect again.
It should be noted that, the present invention adopt unique design by cam one, cam two, connection carrier bar between them and with cam one, the cam link driving mechanism of the top-pressure part composition of the outer rim top press fit of cam two, and introduce the gear transmission mode running stable drive, whole operation process smoothness very, making power accelerate compensation device using this excellent driven Design can with the connecting rod synchronous operation as power main transmission, thus increase the outputting power of system, operate steadily, compared with prior art, significantly reduce motor shake and reduce noise, tool has an unexpected effect.
Embodiment 2
As shown in Figure 14 and Figure 15, in the present embodiment, on the basis of embodiment 1, sleeve 5 is arranged with on the top splenium of the top-pressure part 2-333 of cam set movable contact, this sleeve 5 adopts flexible material to make, as plastics etc., mainly in order to the frictional force reduced between cam with this top-pressure part causes noise large with reducing because both firmly contact, the problems such as easy wearing and tearing.
The present invention has carried out significantly improveing to available engine technology, low cost of manufacture, available engine materials consumption can be optimized, not only increase power and accelerate bucking-out system, but also significantly improve the system have been, under condition equal to conventional engines discharge capacity, outputting power improves, can energy efficient greatly, estimates by present engine knock initial stage in-fighting about 20%, and increase Power output two factors impacts of moment increase, power more than 50% should be increased.Although technological scheme of the present invention adds parts, consume part kinetic energy (driving power to accelerate the energy of compensation device consumption by connecting rod), but still energy efficient more than 30%, play obvious energy saving effect, reduce atmospheric pollution and reduce operating cost, the working life of motor is extended.
Further, the technical program is applicable to internal-combustion engine technologys all at present, highly versatile.
Above-described is only the preferred embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (9)

1. an energy-saving efficient engine, comprise the power-transmission system of entablature and upper setting thereof, spark plug, oil sprayer and air inlet system and exhaust system, power-transmission system comprises and accelerates compensation device as the connecting rod of power main transmission and the power corresponding with connecting rod;
Connecting rod comprises body group, piston connecting rod unit and crankshaft-flywheel group, body group comprises crankcase, cylinder block, is connected the cylinder head coordinated with cylinder block, piston connecting rod unit comprises the active force piston be arranged in cylinder block and the active force piston rod be flexibly connected with active force piston, the flywheel that crankshaft-flywheel group comprises bent axle and is connected with bent axle, bent axle is arranged in crankcase;
Power accelerates the acceleration compensating piston bar that compensation device comprises the acceleration compensating piston that be arranged on same cylinder block in corresponding to active force piston, is connected with acceleration compensating piston;
Be connected with between described acceleration compensating piston bar and bent axle and accelerate to compensate driving mechanism, bent axle drives acceleration compensating piston to do the motion of regular compensation space in cylinder block inside by accelerating to compensate driving mechanism, increase breathing space and compression distance thus increasing compression ratio, and increase the crankshaft angles of outputting power, thus motor low-energy-consumption high-efficiency is operated;
It is characterized in that, describedly accelerate to compensate driving mechanism and comprise the chain wheel driving mechanism is connected with bent axle, the linkage mechanism be connected with acceleration compensating piston bar, the cam drive that is connected with linkage mechanism, between cam drive and chain wheel driving mechanism, be connected with gear drive;
Described cam drive comprises primarily of cam one, the cam set of cam two composition, the top-pressure part with the outer rim top press fit of cam one, cam two, connection carrier bar is connected with between cam one and cam two, cam set is flexibly connected with linkage mechanism, top-pressure part is connected to and connects on the rotating disk of drive by gear drive, rotated in a circumferential direction by driven by rotary disc top-pressure part, make top-pressure part top press driving cam one and wheel two; Cam one and cam two.
2. energy-saving efficient engine according to claim 1, it is characterized in that, described gear drive is made up of some groups of driving gears, rotating disk is coaxially connected with the most final-stage gear of gear drive, guide gear is provided with between rotating disk and cam set, top-pressure part is the kink that the edge of rotating disk extends out to guide gear outer rim, planetary pinion is provided with between this kink and guide gear, this planetary pinion is fixed on kink by rotating shaft, planetary pinion is provided with and the teeth portion of guide gear engagement driving and the top splenium with cam set movable contact.
3. energy-saving efficient engine according to claim 1, it is characterized in that, described linkage mechanism is made up of some groups of parallelogram lindages, it is one group with every two acceleration compensating pistons, two acceleration compensating pistons are corresponding to be respectively articulated with on the both sides hinge of the top links of parallelogram lindage, be interconnected between parallelogram lindage, wherein at least to be connected with cam set by dirivig member by the connecting rod of one group of parallelogram lindage and to coordinate, connecting rod is driven by cam set push-and-pull, thus drive the fork of parallelogram lindage to swing, and then drive reciprocating of acceleration compensating piston.
4. energy-saving efficient engine according to claim 3, it is characterized in that, the quantity of described parallelogram lindage is two groups, corresponding connection driving four acceleration compensating pistons, two groups of parallelogram lindages are arranged in mode superimposed up and down, the length of the connecting rod one of the parallelogram lindage on top is 1/2 of the connecting rod two of the parallelogram lindage of bottom, and the connecting rod two being positioned at bottom connects the superposed connecting rod one of drive.
5. the energy-saving efficient engine according to claim 3 or 4, it is characterized in that, described hinge is that the power being based upon peripheral hardware accelerates to compensate on support, and power accelerates to compensate support and arranges the chamber of installing connecting rods mechanism and install the bearing of cam drive and gear drive.
6. energy-saving efficient engine according to claim 1, it is characterized in that, described dirivig member comprises and is arranged on slide block between connecting rod two and cam set and chute, slide block is fixed in cam set by rotating shaft, chute is arranged on connecting rod two, moved by cam set band movable slider, and realize the push-and-pull action power of cam being converted to parallelogram lindage to the push-and-pull action power accelerating compensating piston by coordinating between slide block with chute.
7. energy-saving efficient engine according to claim 1, is characterized in that, in the cylinder that described spark plug is arranged, ignition position is active force piston rod when walking toward its lower dead center, and the bent axle be connected with active force piston rod becomes 25 °-35 ° with cylinder body angle.
8. energy-saving efficient engine according to claim 1, it is characterized in that, described air inlet system and exhaust system comprise the intake and exhaust storehouse be connected with cylinder block, the intake and exhaust wheels be arranged in intake and exhaust storehouse, the intake and exhaust that intake and exhaust wheels are corresponding with the piston cylinder of cylinder block by several are taken turns, the wheel shaft connected as one is taken turns in several intake and exhaust is formed, intake and exhaust wheel is provided with the inlet and outlet mouth and sealed department mutually separated, wheel shaft, by bent axle driven rotary, completes the intake and exhaust functions of motor; At the intake stroke of motor, the suction port of intake and exhaust wheel is communicated with the suction port of cylinder block and enters air, and continuation rotation; Arrive compression stroke, the suction port of the sealed department shutoff cylinder block of intake and exhaust wheel, and continue to rotate; Arrive working stroke, the sealed department of intake and exhaust wheel keeps the suction port of shutoff cylinder block, and continues to rotate; Arrive exhaust stroke, the relief opening of intake and exhaust wheel is communicated with cylinder block, by the exhaust gas evacuation in cylinder block, and continues to rotate, arrives next intake stroke.
9. energy-saving efficient engine according to claim 1, it is characterized in that, described air inlet system and exhaust system adopt the intake and exhaust design of position, side, comprise the inlet and outlet passage be connected with cylinder block, valve is respectively arranged with in inlet and outlet passage, valve is equipped with Returnning spring, and the end of valve is connected with cam mechanism, for driving opening or closing of valve; Cam mechanism comprises cam and lever, one end of lever and the end movable top press fit of valve, and wheel shaft and the bent axle of cam are linked by driving mechanism, is driven the keying of valve, complete the intake and exhaust functions of motor by bent axle.
CN201510051930.4A 2015-01-30 2015-01-30 Efficient and energy-saving engine Pending CN104612826A (en)

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Publication number Priority date Publication date Assignee Title
CN114992303A (en) * 2022-05-30 2022-09-02 武汉理工大学 Unidirectional displacement compensation device for actuating cylinder

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CN114992303B (en) * 2022-05-30 2024-04-12 武汉理工大学 Unidirectional displacement compensation device for actuating cylinder

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