WO2016004860A1

WO2016004860A1 - Two-stroke gear shaft engine for power device

Info

Publication number: WO2016004860A1
Application number: PCT/CN2015/083501
Authority: WO
Inventors: 孙书伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-07-10
Filing date: 2015-07-07
Publication date: 2016-01-14
Anticipated expiration: 2017-01-10
Also published as: CN105257405A

Abstract

A two-stroke gear shaft engine for a power device, employing integrated pistons oppositely disposed in a horizontal direction; the middle position of the pistons (11) is provided with two rows of upper and lower racks (13) connected to a gear (15) on a power transmission shaft (10) having a half gear ring; one half of the peripheral surface of the gear (15) is provided with teeth thereon, and the other half is smooth; and the upper and lower racks (13) alternately engage with the gear (15) of the power transmission shaft (10), and push the power transmission shaft (10) to continuously conduct circular rotation in a direction, thus avoiding the defect of an unstable torque transmission of a traditional engine employing a combination of a connection rod with a bent axle. Two ends of the pistons (11) are provided with an air outlet (14) connected to an exhaust valve (12); and a waste gas is discharged via a housing air outlet (4) through the piston air outlet (14) bypassing a housing oil seal (7). The present invention solves the problems of engine oil leakage and non-environmentally friendly gas discharge resulting from a traditional two-stroke engine piston oil seal discharging the gas via a housing air outlet, and avoids the existing defects in the prior art of discharge and oil consumption.

Description

Two-stroke gear shaft engine for power plant

Technical field

本发明涉及一种发动机，具体地涉及一种用于如汽车、轮船等的动力装置的二冲程齿轮轴发动机。The present invention relates to an engine, and in particular to a two-stroke gear shaft engine for a power unit such as an automobile, a ship or the like.

Background technique

目前，所使用的发动机，是一直沿续几十年前发明的曲轴发动机，技术虽然成熟，但太过老旧，且无提升技术空间。结构复杂、重量重、体积大、加工难度高、曲轴摩擦损耗大，且由于曲轴动力臂是不断变化的，动力、扭矩、速度输出是脉冲式的，非常不平稳，震动大，做功效率低。作为曾经被淘汰的二冲程发动机，其动力性能好于四冲程发动机。但其至命缺陷就是排放、油耗和润滑都不及四冲程发动机，其原因在于缸壁上开了排气孔，只能采用机油混合然油的方式润滑，再加上扫气过程中的然油损耗，就使得二冲程发动机不能达到环保要求了，而扫气损耗在电控时代早已解决。当汽车进入油电混合动力时代，对发动机的小型化，高功率性能的要求更高时，一些汽车强国也重新对二冲程发动机进行革新性研究。At present, the engine used is a crankshaft engine that has been invented decades ago. Although the technology is mature, it is too old and there is no room for upgrading technology. The structure is complex, heavy, large, difficult to process, crankshaft friction loss, and because the crankshaft power arm is constantly changing, the power, torque, and speed outputs are pulsed, very unstable, with large vibration and low efficiency. As a two-stroke engine that has been eliminated, its power performance is better than that of a four-stroke engine. However, its fatal flaw is that the exhaust, fuel consumption and lubrication are not as good as the four-stroke engine. The reason is that the vent hole is opened in the cylinder wall, and it can only be lubricated by means of oil mixed with oil, plus the oil in the process of scavenging. Loss makes the two-stroke engine unable to meet environmental requirements, and scavenging losses have long been resolved in the era of electronic control. When the car enters the era of hybrid electric power, and the requirements for miniaturization and high power performance of the engine are higher, some automobile powers have re-innovated the two-stroke engine.

发明内容Summary of the invention

为了解决老旧产品曲轴发动机结构复杂、重量重、体积大、损耗大、效率低，动力输不平稳，以及传统二冲程发动机机油混合然油不环保的缺点。进一步改进二冲程发动机，采用水平对置整体式活塞，以齿条和具有半圈齿的齿轮组合的方式，达到将活塞的往返运动转换成动力输出轴连续朝一个方向的圆周运动，解决了传统发动机采用连杆与曲轴组合方式的扭矩输出不平稳的缺陷，达到平稳动力输出。创造性的采用活塞上开排气门的方式，将排气孔改在活塞油封之后，这样活塞在运动过程中就不需要经过排气孔，也不需要采用机油混合然油的方式，可以采用四冲程同样的润滑方式，从根本上解决了现有技术中排放和油耗的缺陷。并且同时取消了曲轴、凸轮轴，正时链条等，极大地简化了结构，将体积微型化。集转子发动机、二冲程发动机、四冲程发动的优点于一身，并克服了三种发动机各自的缺陷。In order to solve the old product crankshaft engine structure is complex, heavy weight, large volume, large loss, low efficiency, power transmission is not stable, and the traditional two-stroke engine oil is not environmentally friendly. Further improvement of the two-stroke engine, using horizontally opposed integral pistons, with racks and The combination of the gears of the half-ring teeth converts the reciprocating motion of the piston into a circular motion of the power output shaft continuously in one direction, which solves the defect that the torque output of the conventional engine adopts the combination of the connecting rod and the crankshaft is unstable, and achieves the smooth power. Output. The creative method of opening the exhaust valve on the piston is to change the vent hole to the piston oil seal, so that the piston does not need to pass through the vent hole during the movement, and the oil is not required to be mixed with oil. The same lubrication method of stroke fundamentally solves the defects of emissions and fuel consumption in the prior art. At the same time, the crankshaft, camshaft, timing chain, etc. are eliminated, which greatly simplifies the structure and miniaturizes the volume. It combines the advantages of a rotary engine, a two-stroke engine and a four-stroke engine, and overcomes the defects of each of the three engines.

本发明提供了一种用于动力装置的二冲程齿轮轴发动机，其包括外壳、活塞和排气门，所述外壳上安装有空气进气喷嘴和外壳油封，所述活塞两端安装有排气门，所述活塞内安装有排气门挡块，所述活塞中间开设有连接动力输出轴的齿轮的上下两排齿条，所述排气门连接所述排气门挡块。The present invention provides a two-stroke gear shaft engine for a power unit including a casing, a piston and an exhaust valve, the casing being provided with an air intake nozzle and an outer casing oil seal, and exhaust gas is installed at both ends of the piston In the door, an exhaust valve stop is installed in the piston, and the upper and lower rows of racks of the gear connected to the power output shaft are opened in the middle of the piston, and the exhaust valve is connected to the exhaust door stop.

进一步地，所述齿条与齿轮交替咬合脱离完成一个做功循环，推动所述动力输出轴转动360度，将所述活塞的往返运动转换成所述动力输出轴连续朝一个方向的圆周运动。Further, the rack and the gear alternately engage and disengage to complete a power cycle, and the power output shaft is rotated 360 degrees to convert the reciprocating motion of the piston into a circular motion of the power output shaft continuously in one direction.

进一步地，所述活塞即将运行到左右止点时，所述排气门自动被所述排气门挡块撞开，离开时在弹簧作用下自动关闭。Further, when the piston is about to run to the left and right dead ends, the exhaust valve is automatically smashed by the exhaust door stopper, and automatically closes under the action of a spring when leaving.

优选地，所述空气进气喷嘴采用缸内连续直喷空气的方式。Preferably, the air intake nozzle adopts a method of continuously injecting air in a cylinder.

进一步地，所述活塞的两端开设有排气孔。Further, exhaust holes are formed at both ends of the piston.

进一步地，所述外壳油封将机油与所述排气孔隔离。 Further, the outer casing oil seal isolates the oil from the venting opening.

优选地，所述动力输出轴上安装有齿轮，所述齿轮外周面的一半上设有齿，另一半是光滑的。Preferably, a gear is mounted on the power output shaft, and the outer circumference of the gear is provided with teeth on one half and the other half is smooth.

本发明的技术方案是：采用整体式活塞，以水平对置的方式运行，动力输出轴上安装有具有半圈齿的齿轮，将活塞中间开设有上下两排活塞齿条，活塞两端开设有活塞排气孔，活塞齿条连接具有半圈齿的齿轮。具有半圈齿的齿轮的外周面上的一半设有齿，另一半为光滑的。当活塞运行到左(右)止点时，上(下)活塞齿条与齿轮有齿的半圈开始咬合，下(上)活塞齿条与齿轮的接触点正好在无齿的半圈处开始脱离，活塞做功一次，推动动力输出轴顺(逆)时针转动180度。当活塞运行到右(左)止点时，下(上)活塞齿条与齿轮有齿的半圈开始咬合，上(下)活塞齿条与齿轮的接触点正好在无齿的半圈处开始脱离，活塞齿条与齿轮交替咬合脱离完成一个做功循环，推动动力输出轴转动360度，达到将活塞的往返运动转换成动力输出轴连续朝一个方向的圆周运动。解决了传统发动机采用连杆与曲轴组合方式的扭矩输出不平稳的缺陷，达到平稳动力输出。The technical solution of the invention is that the integral piston is operated in a horizontally opposite manner, and a gear having a half ring tooth is mounted on the power output shaft, and two piston rows and a rack are arranged in the middle of the piston, and the two ends of the piston are opened. Piston venting port, piston rack connecting gear with half ring teeth. One half of the outer peripheral surface of the gear having the half ring teeth is provided with teeth, and the other half is smooth. When the piston runs to the left (right) stop point, the upper (lower) piston rack begins to engage with the toothed half turn of the gear, and the contact point of the lower (upper) piston rack with the gear begins exactly at the half-turn without the tooth. When the piston is disengaged, the piston works once, pushing the power output shaft to rotate the counterclockwise (reverse) hour hand by 180 degrees. When the piston runs to the right (left) stop point, the lower (upper) piston rack begins to engage with the toothed half turn of the gear, and the contact point of the upper (lower) piston rack and the gear begins exactly at the half-turn without the tooth. Disengaged, the piston rack and the gear alternately engage and disengage to complete a power cycle, and the power output shaft is rotated 360 degrees to convert the reciprocating motion of the piston into a circular motion of the power output shaft continuously in one direction. The utility model solves the defect that the torque output of the conventional engine adopts the combination of the connecting rod and the crankshaft is unstable, and achieves a smooth power output.

在活塞两端开设有活塞排气孔，活塞两端安装有排气门，当活塞即将运行到左(右)止点时，右(左)排气门自动被排气门挡块撞开，离开时在弹簧作用下自动关闭，右(左)排气门打时，活塞排气孔与外壳排气孔连通，废气经活塞排气孔绕过外壳油封由外壳排气孔排出。区别于传统发动机将油封连接在活塞上，而是将外壳油封连接在外壳上。起到将机油与排气孔隔离的作用。解决了传统二冲程发动机活塞油封必须经过外壳排气孔会泄漏机油，只能采取机油混合然油的燃烧方式排放不环保的缺陷，可以采用四冲程同样的润滑方式，从根本上解决了现有技术中已有的排放和油耗的缺陷。Piston exhaust holes are opened at both ends of the piston, and exhaust valves are installed at both ends of the piston. When the piston is about to run to the left (right) stop point, the right (left) exhaust valve is automatically knocked open by the exhaust door stopper. When leaving, it automatically closes under the action of the spring. When the right (left) exhaust valve is hit, the piston exhaust hole communicates with the outer casing exhaust hole, and the exhaust gas is exhausted through the outer casing oil seal through the outer casing oil seal through the piston exhaust hole. Instead of a conventional engine connecting the oil seal to the piston, the outer casing oil seal is attached to the outer casing. It acts to isolate the oil from the venting holes. The utility model solves the problem that the piston seal of the traditional two-stroke engine must leak the oil through the vent hole of the outer casing, and can only take the defect that the combustion method of the oil mixed with the oil is not environmentally friendly, With the same four-stroke lubrication method, the defects of the existing emissions and fuel consumption in the prior art are fundamentally solved.

在外壳上连接空气进气喷嘴，采用缸内直喷连续进空气的方式，使混合燃油充分分层燃烧。取消传统发动机的进气门。既保证了充分的进气量，又可以以空气扫除缸内废气节省燃油的同时又降低了缸内温度，达到一举多得的效果。The air intake nozzle is connected to the outer casing, and the mixed fuel is continuously immersed in the air to make the mixed fuel fully stratified and burned. Cancel the intake valve of the traditional engine. It not only ensures a sufficient amount of intake air, but also sweeps out the exhaust gas in the cylinder to save fuel while reducing the temperature inside the cylinder, achieving a multi-faceted effect.

本发明的有益效果是：取消传统发动机的曲轴、凸轮轴、正时链条等，大大降低了重量和体积，让结构更紧凑。增强了可靠性、易加工性，降低了生产和维护成本。结构简单可靠，震动小、噪音小，又由于齿轮动力臂是相等的，动力、扭矩、速度输出是直线式的，与转子发动机相当，故非常平稳、做功效率高。The invention has the beneficial effects of eliminating the crankshaft, the camshaft, the timing chain and the like of the conventional engine, greatly reducing the weight and the volume, and making the structure more compact. Increased reliability, ease of processing, and reduced production and maintenance costs. The structure is simple and reliable, the vibration is small, the noise is small, and since the gear power arms are equal, the power, torque and speed output are linear, which is equivalent to the rotor engine, so it is very stable and has high work efficiency.

DRAWINGS

下面结合附图和实例对本发明进一步说明。The invention will now be further described with reference to the drawings and examples.

图1是发动机结构示意图正视图；Figure 1 is a front elevational view showing the structure of the engine;

图2是发动机外壳示意图；Figure 2 is a schematic view of the engine casing;

图3是活赛和气门结构示意图；Figure 3 is a schematic view of a live race and a valve structure;

图4是动力输出轴轴测图；Figure 4 is a power output shaft isometric view;

图5是发动机活塞轴测图。Figure 5 is an isometric view of the engine piston.

图中标号分别为：火花塞1，空气进气喷嘴2，燃油进气喷嘴3，外壳排气孔4，外壳油封7，外壳8，排气门挡块9，动力输出轴10，活塞11，排气门12，齿条13，排气孔14，齿轮15。 The figures are: spark plug 1, air intake nozzle 2, fuel intake nozzle 3, housing vent 4, housing oil seal 7, housing 8, exhaust valve stop 9, power take-off shaft 10, piston 11, row Valve 12, rack 13, exhaust hole 14, gear 15.

detailed description

下面参照附图详细介绍本发明的示例性实施例。提供这些示例性实施例的目的是为了使得本领域普通技术人员能够清楚地理解本发明，并且根据这里的描述能够实现本发明。附图和具体实施例不旨在对本发明进行限定，本发明的范围由所附权利要求限定。Exemplary embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The present invention is provided to enable a person skilled in the art to understand the present invention clearly, and the invention can be implemented according to the description herein. The drawings and the specific examples are not intended to limit the invention, and the scope of the invention is defined by the appended claims.

图1是发动机结构示意图正视图；图2是发动机外壳示意图；图3是活赛和气门结构示意图；图4是动力输出轴轴测图；图5是发动机活塞轴测图。参照图1至图3，本发明提供了一种用于动力装置的二冲程齿轮轴发动机，其包括外壳8、活塞11和排气门12，上述外壳8上安装有空气进气喷嘴2和外壳油封7，上述活塞11两端安装有排气门12，且该活塞11的两端开设有排气孔14，该活塞11内安装有排气门挡块9，该活塞11中间开设有连接动力输出轴10的齿轮15的上下两排齿条13，上述排气门12连接上述排气门挡块9。1 is a schematic view of the structure of the engine; FIG. 2 is a schematic view of the engine casing; FIG. 3 is a schematic view of the structure of the live race and the valve; FIG. 4 is a schematic view of the power output shaft; 1 to 3, the present invention provides a two-stroke gear shaft engine for a power unit including a casing 8, a piston 11 and an exhaust valve 12 on which an air intake nozzle 2 and an outer casing are mounted The oil seal 7 is provided with an exhaust valve 12 at both ends of the piston 11 , and both ends of the piston 11 are provided with an exhaust hole 14 . The piston 11 is provided with an exhaust valve stop 9 , and the piston 11 is connected with a connection power. The upper and lower rows of racks 13 of the gear 15 of the output shaft 10 are connected to the exhaust valve stopper 9.

参照图1、图3、图4和图5，上述齿条13与齿轮15交替咬合脱离完成一个做功循环，推动上述动力输出轴10转动360度，将上述活塞11的往返运动转换成上述动力输出轴10连续朝一个方向的圆周运动。Referring to FIG. 1, FIG. 3, FIG. 4 and FIG. 5, the rack 13 and the gear 15 are alternately engaged and disengaged to complete a power cycle, and the power output shaft 10 is rotated 360 degrees to convert the reciprocating motion of the piston 11 into the power output. The shaft 10 continuously moves in a circular direction in one direction.

参照图1至图3，上述活塞11即将运行到左右止点时，上述排气门12自动被上述排气门挡块9撞开，离开时在弹簧作用下自动关闭。Referring to Figs. 1 to 3, when the piston 11 is about to be operated to the right and left dead ends, the exhaust valve 12 is automatically smashed by the exhaust valve stopper 9, and is automatically closed by the spring when it is separated.

上述空气进气喷嘴2采用缸内连续直喷空气的方式。The air intake nozzle 2 described above employs a method of continuously injecting air in a cylinder.

参照图1、图2和图5，上述外壳油封7将机油与上述排气孔14隔离。 Referring to Figures 1, 2 and 5, the outer casing oil seal 7 isolates the oil from the venting opening 14.

参照图1和图4，上述动力输出轴10上安装有齿轮15，该齿轮15外周面的一半上设有齿，另一半是光滑的。Referring to Figures 1 and 4, a gear 15 is mounted on the power output shaft 10, and the gear 15 is provided with teeth on one half of the outer peripheral surface and the other half is smooth.

发动机分左右2个燃烧室，一端做功时另一端压缩依次做功。将活塞11的运动经齿条13传递到动力输出轴10的具有半圈齿的齿轮15，该齿轮15与齿条13交替咬合，将齿条13的往返动动转变为圆周运动，输出动力，活塞11到达左右止点时，排气门12自动被排气门挡块9撞开，离开时在弹簧作用下自动关闭。The engine is divided into two combustion chambers, and the other end is compressed and the other end is compressed to perform work. The movement of the piston 11 is transmitted via the rack 13 to the gear 15 having the half ring teeth of the power output shaft 10, and the gear 15 alternates with the rack 13 to convert the reciprocating motion of the rack 13 into a circular motion to output power. When the piston 11 reaches the left and right dead center, the exhaust valve 12 is automatically smashed by the exhaust door stopper 9, and automatically closes under the action of the spring when leaving.

当活塞11运行到左(右)止点时左(右)燃烧室内混合燃油被压缩，右(左)排气门12自动被排气门挡块9撞开排气，右(左)空气进气喷嘴2连续喷气扫除剩余废气，这时左(右)火花塞1点火，左(右)空气进气喷嘴2继续喷入空气，使混合燃油充分分层燃烧。活塞11开始做功，上(下)活塞的齿条13与齿轮15有齿的半圈开始咬合，下(上)活塞的齿条13与齿轮15的接触点正好在无齿的半圈处开始脱离，推动动力输出轴10顺(逆)时针转动。活塞11继续向右(左)运行到右(左)活塞排气孔14与右(左)外壳排气孔4分离时，右(左)排气门12关闭，右(左)燃油进气喷嘴3喷入燃油，右(左)空气进气喷嘴2连续喷入空气。当活塞11运行快到右(左)止点时，左(右)排气门12自动被排气门挡块9撞开排气，左(右)空气进气喷嘴2连续喷气扫除剩余废气。当活塞11运行到右(左)止点时，右(左)火花塞1点火，下(上)齿条13与齿轮15有齿的半圈开始咬合，上(下)齿条13与齿轮15的接触点正好在无齿的半圈处开始脱离，推动动力输出轴10继续顺(逆)时针转动。齿条13与齿轮15交替咬合脱离完成一个做功循环，推动动力输出轴10转动360度。左(右)燃烧室依次循环点火，活塞11往复做功，推动动力输出轴10连续朝一个方向做圆周动转，平稳输出动力。When the piston 11 runs to the left (right) stop point, the mixed fuel in the left (right) combustion chamber is compressed, and the right (left) exhaust valve 12 is automatically slammed into the exhaust by the exhaust door stopper 9, and the right (left) air enters The gas nozzle 2 continuously sweeps the remaining exhaust gas, at which time the left (right) spark plug 1 is ignited, and the left (right) air intake nozzle 2 continues to inject air to fully stratify the mixed fuel. The piston 11 starts to work, the rack 13 of the upper (lower) piston and the toothed half of the gear 15 start to engage, and the contact point of the rack 13 of the lower (upper) piston with the gear 15 starts to detach at the half-turn without the tooth. The power output shaft 10 is driven to rotate clockwise (reverse). When the piston 11 continues to the right (left) until the right (left) piston exhaust hole 14 is separated from the right (left) outer casing exhaust hole 4, the right (left) exhaust valve 12 is closed, and the right (left) fuel intake nozzle 3 Injecting fuel, the right (left) air intake nozzle 2 continuously injects air. When the piston 11 is running fast to the right (left) stop point, the left (right) exhaust valve 12 is automatically slammed into the exhaust by the exhaust door stop 9, and the left (right) air intake nozzle 2 continuously purges the remaining exhaust gas. When the piston 11 is operated to the right (left) stop point, the right (left) spark plug 1 is ignited, and the lower (upper) rack 13 and the toothed half of the gear 15 start to engage, and the upper (lower) rack 13 and the gear 15 are The contact point begins to detach just at the half-turn without teeth, pushing the power take-off shaft 10 to continue the (reverse) hour hand rotation. The rack 13 and the gear 15 are alternately engaged and disengaged to complete a power cycle, and the power output shaft 10 is rotated 360 degrees. Left (right) combustion chamber in turn When the ignition is performed, the piston 11 reciprocates to perform work, and the power output shaft 10 is continuously rotated in one direction to smoothly output the power.

参照图1、图2和图5，在活塞11两端开设有活塞排气孔14，活塞11两端安装有排气门12，当活塞11即将运行到左(右)止点时，右(左)排气门12自动被排气门挡块9撞开，离开时在弹簧作用下自动关闭，右(左)排气门12打时，活塞排气孔14与外壳排气孔4连通，废气经活塞排气孔14绕过外壳油封7由外壳排气孔4排出。区别于传统发动机将油封连接在活塞上，而是将外壳油封7连接在外壳8上。起到将机油与排气孔隔离的作用。解决了传统二冲程发动机活塞油封必须经过外壳排气孔会泄漏机油，只能采取机油混合然油的燃烧方式排放不环保的缺陷，可以采用四冲程同样的润滑方式，从根本上解决了现有技术中已有的排放和油耗的缺陷。Referring to Figures 1, 2 and 5, piston exhaust holes 14 are provided at both ends of the piston 11, and exhaust valves 12 are mounted at both ends of the piston 11, and when the piston 11 is about to run to the left (right) stop point, right ( The left exhaust valve 12 is automatically smashed by the exhaust door stopper 9, and automatically closes under the action of a spring when leaving, and the piston vent 14 communicates with the outer casing vent 4 when the right (left) exhaust valve 12 is hit. The exhaust gas is discharged from the outer casing oil seal 7 through the outer casing oil seal 7 through the piston vent hole 14. Instead of a conventional engine connecting the oil seal to the piston, the outer casing oil seal 7 is attached to the outer casing 8. It acts to isolate the oil from the venting holes. The utility model solves the problem that the piston seal of the traditional two-stroke engine must leak the oil through the vent hole of the outer casing, and can only adopt the combustion method of the oil mixed with the oil to discharge the environmentally unfriendly defects, and the same lubrication method of four strokes can be used, which fundamentally solves the existing Defects in emissions and fuel consumption that are already in the technology.

在外壳8上连接空气进气喷嘴2，采用缸内直喷连续进空气的方式，使混合燃油充分分层燃烧。取消传统发动机的进气门。既保证了充分的进气量，又可以以空气扫除缸内废气节省燃油的同时又降低了缸内温度，达到一举多得的效果。The air intake nozzle 2 is connected to the outer casing 8, and the mixed fuel is continuously stratified by means of direct air injection into the cylinder. Cancel the intake valve of the traditional engine. It not only ensures a sufficient amount of intake air, but also sweeps out the exhaust gas in the cylinder to save fuel while reducing the temperature inside the cylinder, achieving a multi-faceted effect.

以上所述仅为本发明的优选实施例而已，并不用于限制本发明，对于本领域的技术人员来说，本发明可以有各种更改和变化。凡在本发明的精神和原则之内，所作的任何修改、等同替换、改进等，均应包含在本发明的保护范围之内。 The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

A two-stroke gear shaft engine for a power unit, comprising: a casing (8), a piston (11) and an exhaust valve (12), wherein the casing (8) is provided with an air intake nozzle (2) And an outer casing oil seal (7), an exhaust valve (12) is mounted at both ends of the piston (11), and an exhaust valve stop (9) is installed in the piston (11), and the piston (11) is intermediate The upper and lower rows of racks (13) of the gears (15) connected to the power output shaft (10) are opened, and the exhaust valves (12) are connected to the exhaust valve stops (9).

A two-stroke gear shaft engine for a power unit according to claim 1, wherein said rack (13) and said gear (15) are alternately engaged to complete a power cycle, and said power output shaft is driven. Turning 360 degrees, the reciprocating motion of the piston (11) is converted into a circular motion of the power output shaft (10) continuously in one direction.

A two-stroke gear shaft engine for a power unit according to claim 1, wherein said exhaust valve (12) is automatically exhausted by said exhaust valve (11) when it is operated to a left and right dead center The door stop (9) collides and automatically closes under the action of a spring when leaving.

A two-stroke gear shaft engine for a power unit according to claim 1, wherein said air intake nozzle (2) adopts a method of continuously injecting air in a cylinder.

A two-stroke gear shaft engine for a power unit according to claim 1, characterized in that both ends of the piston (11) are provided with exhaust holes (14).

A two-stroke gear shaft engine for a power unit according to claim 1, wherein said outer casing oil seal (7) isolates oil from said venting opening (14).

A two-stroke gear shaft engine for a power unit according to claim 1, wherein a gear (15) is mounted on the power output shaft (10), and a half of an outer peripheral surface of the gear (15) is provided. There are teeth and the other half is smooth.