CN106870143A - The Oscillating Tooth Gear Reducer internal combustion engine of push rod five - Google Patents

Abstract

The invention discloses a kind of Oscillating Tooth Gear Reducer internal combustion engine of push rod five, it is related to a kind of internal combustion engine transmission field.The problems such as present invention solves big current crankshaft-link rod internal combustion engine volume, easy eccentric wear, high energy consumption, low power and the accuracy of manufacture high.Active rotating shaft and driven spindle are fixed with by bearing on the body of the Oscillating Tooth Gear Reducer internal combustion engine of push rod five；Be provided with driven spindle with the driven oscillating tooth disk of active oscillating tooth disk shape and size identical on active rotating shaft, active oscillating tooth and driven oscillating tooth are 1/10th of active oscillating tooth disk and driven oscillating tooth disk girth；The active tooth pushing and driven tooth pushing being meshed with active oscillating tooth disk and driven oscillating tooth disk are provided with the push rod.Using simple structure of the present invention, easily manufactured, small volume, low cost, eccentric abrasion prevention, safeguard easily, energy consumption is low and effective power is greatly improved.

Description

The Oscillating Tooth Gear Reducer internal combustion engine of push rod five

Technical field

The present invention relates to a kind of internal combustion engine drive technology field, more particularly to a kind of Oscillating Tooth Gear Reducer internal combustion engine of push rod five.

Background technology

It is power unit with a cylinder that current conventional piston internal combustion engine is more, and piston passes through piston pin, connecting rod and bent axle phase Connection, with crank connecting link as transmission device, connecting rod is connected with flywheel, and piston is reciprocating in cylinder, is promoted by connecting rod Crank rotation；In order to inspiration live gas and discharge waste gas are provided with inlet valve and exhaust valve, piston is lifted off crankshaft center farthest Stop is deserved to be called, piston is lifted off crankshaft center and most nearby claims lower dead center.The expansive force produced by mixed oil and gas burning in cylinder does Work(realizes air-intake of combustion engine, compression, four strokes of expansion work and exhaust, in four piston strokes of quartastroke engine only One stroke is externally to be done work in expansion work stroke throw crank linkage, and its excess-three stroke has flywheel to drive completion, Therefore four-stroke ic machine crankshaft often revolves to take two turns and can only do work once.Therefore quartastroke engine crankshaft connecting rod system exists as follows Shortcoming：

1st, because internal combustion engine is that the reciprocating motion of piston is changed into circular motion using connecting bar and crankshaft, when cylinder compression punching Journey end when in the top dead centre of expansion work stroke in cylinder mixture combustion so that in-cylinder pressure maximum and produce most strong Thrust, but now in toggle bent axle and connecting rod are that the arm of force is zero in straight line, that is, do not move at all now Power output is not done work externally；The connecting rod variable angle being connected with bent axle caused by bent axle is circled necessarily again, power point Dissipate many, can only partly spread out of power, therefore crankshaft connecting rod system causes that the heat utilization rate of internal combustion engine is very low；

2nd, the angle that connecting rod and piston movement direction are present can cause that the inwall of piston and cylinder block produces certain friction Power, connecting rod is bigger with the more big then frictional force of the angle that piston movement direction is present, to cylinder wall institute when piston runs in cylinder The frictional force of generation is uneven, so piston is easily caused eccentric wear phenomenon after long-term high-speed motion in cylinder occurring, is made Cylinder inner wall or piston be impaired and gas leakage so that the heat utilization rate of internal combustion engine declines, this be crankshaft-link rod internal combustion engine use with Come the problem for never solving；

3rd, it is to combine that crankshaft-link rod IC engine airframe installs the upper part of cylinder and the lower part of installation crankshaft crooked axle box To carry out monoblock cast, because the coordination operation of each part in the crankshaft-link rod internal combustion engine in practical application then needs bent axle to connect The design at each position has a high precision in bar internal combustion engine body, particularly to each cylinder in IC engine airframe and bent axle Position, form and dimension have strict requirements, in this crankshaft-link rod for necessarily causing process high-precision monoblock cast The difficulty of combustion engine body；Because IC engine airframe is that monoblock cast is processed, once cause because certain cylinder is damaged IC engine airframe damages then whole IC engine airframe and just scraps and need to change so that other are not damaged in IC engine airframe The part such as crankcase also abandon using and causing to waste；

4th, cylinder of internal-combustion engine and the bent axle corresponding with cylinder are arranged in a linear, the alignment certainty of bent axle Cause the volume of internal combustion engine to increase, so as to also cause that the drive disk assembly volume in internal combustion engine is increased, each part in internal combustion engine with Increase after frictional force of result when being internal combustion engine operation when also increase causes internal combustion engine operation therewith energy consumption also add therewith Greatly.

The content of the invention

The invention aims to overcome deficiency of the prior art, there is provided a kind of simple structure, easily manufactured, volume Small, low cost, eccentric abrasion prevention, safeguard easily, the Oscillating Tooth Gear Reducer internal combustion engine of push rod five that energy consumption is low and effective power is greatly improved.

To achieve the above object, the present invention provides a kind of Oscillating Tooth Gear Reducer internal combustion engine of push rod five includes cylinder, power transmission shaft and interior Combustion engine body, is provided with piston in cylinder, the piston outer end is vertically fixedly connected with push rod, and bearing is passed through on IC engine airframe It is fixed with active rotating shaft and driven spindle；Be provided with driving gear disc and active oscillating tooth disk on the active rotating shaft, driving gear disc with Active rotating shaft between active oscillating tooth disk is provided with bearing and is fixed with IC engine airframe；It is provided with the driven spindle and active The driven fluted disc that driving gear disc in rotating shaft is meshed, is provided with and the active oscillating tooth disk shape on active rotating shaft on driven spindle And the driven oscillating tooth disk of size identical, the driven spindle between driven fluted disc and driven oscillating tooth disk is provided with bearing and internal combustion engine machine Body is fixed；The push rod is fixedly connected by spring relative to the outer end of piston end with IC engine airframe；

Equidistant on the active oscillating tooth plate edge to be provided with five groups of active oscillating tooths, every group of active oscillating tooth is in active oscillating tooth disk The length of edge arrangement is 1/10th of active oscillating tooth disk girth；It is equidistant on the driven oscillating tooth plate edge to be provided with five groups Driven oscillating tooth, every group of driven oscillating tooth is in 1/10th that the length that driven oscillating tooth plate edge is arranged is driven oscillating tooth disk girth；Institute State the active tooth pushing and driven tooth pushing for being provided with push rod and being meshed with active oscillating tooth disk and driven oscillating tooth disk, the active on push rod Tooth pushing and driven tooth pushing are equal with the equal number of driven oscillating tooth on active oscillating tooth and driven oscillating tooth disk on active oscillating tooth disk.

Push rod is provided with several anti-deflection whees, IC engine airframe relative to the side of active tooth pushing and driven tooth pushing on push rod It is upper that the anti-bias groove for being rolled with anti-deflection whee and being engaged is provided with positioned at push rod anti-deflection whee side.

The tooth bar height of several active tooth pushings of active tooth pushing front end is arranged from low to high successively on push rod, driven on push rod The tooth bar height of several driven tooth pushings of tooth pushing rear end is arranged from high to low successively；Every group of active oscillating tooth on the active oscillating tooth disk The tooth bar height of several active oscillating tooths of the end for arranging in the direction of the clock is arranged from high to low successively, the driven oscillating tooth disk The tooth bar height of several driven oscillating tooths of front end that upper every group of driven oscillating tooth is arranged in the direction of the clock is arranged from low to high successively.

Driven oscillating tooth disk is provided with driven oscillating tooth disk one and driven oscillating tooth disk two, and active oscillating tooth disk is located at driven oscillating tooth disk one And the driven front end centre position of oscillating tooth disk two；It is provided with the push rod and is meshed with driven oscillating tooth disk one and driven oscillating tooth disk two Driven tooth pushing one and driven tooth pushing two, driven tooth pushing one and driven tooth pushing two and driven oscillating tooth disk one and driven oscillating tooth on push rod The driven equal number of oscillating tooth is equal on disk two.

The tooth bar top of active oscillating tooth and driven oscillating tooth is in circular arc type on active oscillating tooth disk and driven oscillating tooth disk, actively living Circular arc type between active oscillating tooth and the adjacent rack root of driven oscillating tooth on fluted disc and driven oscillating tooth disk；Actively pushed away on the push rod The tooth bar top of tooth and driven tooth pushing is in circular arc type, on push rod between active tooth pushing and the adjacent rack root of driven tooth pushing In circular arc type.

Present invention has the advantages that：The Oscillating Tooth Gear Reducer Structure of Internal-Combustion Engine of push rod of the invention five is simple, reasonable in design, making side Just, manufacturing cost is greatly reduced；Due to the circular motion of bent axle to be directly changed into the linear reciprocating motion of connecting rod, eliminate interior Bent axle and crankcase in combustion engine body not only greatly reduce IC engine airframe difficulty of processing so that the use of product of the present invention Performance is greatly improved, and also causes that the volume of internal combustion engine is greatly reduced, while also operatively reducing internal combustion engine itself operating Energy consumption；Bent axle and crankcase are eliminated in IC engine airframe so that simple structure, not only reduces maintenance cost, and because of push rod Linear reciprocating motion effectively eliminate piston and produce eccentric wear phenomenon in cylinder internal cause, greatly extend making for cylinder or piston Use the life-span；Especially push rod push rod when linear reciprocating motion is done is consistent all the time with the arm of force of driving gear disc or driven fluted disc is The radius of driving gear disc or driven fluted disc, and push rod in linear reciprocating motion, whether which kind of direction of motion is to do Hard, this necessarily causes that the power of internal combustion engine of the invention is greatly improved.

The Oscillating Tooth Gear Reducer internal combustion engine of push rod of the invention five is described further below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the embodiment of the present invention one；

Fig. 2 is that active tooth pushing of the present invention starts to promote active oscillating tooth motion principle schematic diagram；

Fig. 3 is that active tooth pushing of the present invention terminates to promote active oscillating tooth motion principle schematic diagram；

Fig. 4 is that driven tooth pushing of the invention starts drag driven oscillating tooth motion principle schematic diagram；

Fig. 5 is that driven tooth pushing of the invention terminates to pull driven oscillating tooth motion principle schematic diagram；

Fig. 6 is the dimensional structure diagram of the embodiment of the present invention two.

In figure：1st, cylinder, 2, power transmission shaft, 3, IC engine airframe, 4, piston, 5, push rod, 6, active rotating shaft, 7, driven turn Axle, 8, driving gear disc, 9, active oscillating tooth disk, 10, driven fluted disc, 11, driven oscillating tooth disk, 12, spring, 13, active oscillating tooth, 14, Driven oscillating tooth, 15, active tooth pushing, 16, driven tooth pushing, 17, anti-deflection whee, 18, anti-bias groove, 19, driven oscillating tooth disk one, 20, driven Oscillating tooth disk two, 21, driven tooth pushing one, 22, driven tooth pushing two.

Specific embodiment

Embodiment one is as shown in figure 1, the Oscillating Tooth Gear Reducer internal combustion engine of push rod five of the present embodiment includes cylinder 1, power transmission shaft 2 and interior Piston 4 is provided with combustion engine body 3, cylinder 1, the outer end of piston 4 is vertically fixedly connected with push rod 5, axle is passed through on IC engine airframe 3 Hold and be fixed with active rotating shaft 6 and driven spindle 7, the outer end of the active rotating shaft 6 being fixed on IC engine airframe is power transmission shaft 2.It is main Driving gear disc 8 and active oscillating tooth disk 9 are provided with dynamic rotating shaft 6, the active rotating shaft 6 between driving gear disc 8 and active oscillating tooth disk 9 sets Bearing is equipped with to be fixed with IC engine airframe 3.Be provided with driven spindle 7 be meshed with the driving gear disc 8 on active rotating shaft 6 from Active toothed disk 10, is provided with and the driven oscillating tooth of form and dimension identical of active oscillating tooth disk 9 on active rotating shaft 6 on driven spindle 7 Disk 11, the driven spindle 7 between driven fluted disc 10 and driven oscillating tooth disk 11 is provided with bearing and is fixed with IC engine airframe 3.Push rod 5 Outer end relative to the end of piston 4 is fixedly connected by spring 12 with IC engine airframe 3.It is equidistant on the edge of active oscillating tooth disk 9 to set Five groups of active oscillating tooths 13 are equipped with, every group of active oscillating tooth 13 is the girth of active oscillating tooth disk 9 in the length that the edge of active oscillating tooth disk 9 is arranged 1/10th.Equidistant on the driven edge of oscillating tooth disk 11 to be provided with five groups of driven oscillating tooths 14, every group of driven oscillating tooth 14 is driven The length of the edge of oscillating tooth disk 11 arrangement is 1/10th of the driven girth of oscillating tooth disk 11.It is provided with push rod 5 and active oscillating tooth disk 9 And the active tooth pushing 15 and driven tooth pushing 16 that driven oscillating tooth disk 11 is meshed, active tooth pushing 15 and driven tooth pushing 16 on push rod 5 It is equal with the equal number of driven oscillating tooth 14 on the active oscillating tooth 13 on active oscillating tooth disk 9 and driven oscillating tooth disk 11.Push rod 5 relative to The side of active tooth pushing 15 and driven tooth pushing 16 is provided with two anti-deflection whees 17 on push rod 5, and push rod 5 is located on IC engine airframe 3 The side of anti-deflection whee 17 is provided with the anti-bias groove 18 for being rolled with anti-deflection whee 17 and being engaged.The setting of anti-deflection whee 17 and anti-bias groove 18 can make Stability of the push rod 5 when moving reciprocatingly is obtained preferably to be ensured.

As shown in Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the tooth bar of several active tooth pushings 15 of the front end of active tooth pushing 15 is high on push rod 5 Degree arrange from low to high successively, on push rod 5 several driven tooth pushings 16 of the rear end of driven tooth pushing 16 tooth bar height successively by height to Low arrangement.The tooth of several active oscillating tooths 13 of end that every group of active oscillating tooth 13 is arranged in the direction of the clock on active oscillating tooth disk 9 Bar height is arranged from high to low successively, and the front end that every group of driven oscillating tooth 14 is arranged in the direction of the clock on driven oscillating tooth disk 11 is some The tooth bar height of individual driven oscillating tooth 14 is arranged from low to high successively.The active arranged from low to high on push rod 5 as shown in Figure 2 is pushed away Tooth 15 is engaged with the front end active oscillating tooth 13 on active oscillating tooth disk 9；Active tooth pushing 15 and active on push rod 5 as shown in Figure 3 The end active oscillating tooth 13 arranged from high to low on oscillating tooth disk 9 is engaged；On push rod 5 as shown in Figure 4 driven tooth pushing 16 with it is driven The driven oscillating tooth 14 in front end arranged from low to high on oscillating tooth disk 11 is engaged；The end arranged from high to low on push rod 5 as shown in Figure 5 Driven tooth pushing 16 is held to be engaged with the driven oscillating tooth 14 on driven oscillating tooth disk 11.

So that push rod 5 is similarly moving reciprocatingly when piston 4 moves reciprocatingly in cylinder 1, the setting of spring 12 makes Obtain the waste that push rod 5 was preferably buffered and avoided kinetic energy when moving reciprocatingly.Push rod 5 is to the end motion of spring 12 When, the active tooth pushing 15 on push rod 5 is engaged with the active oscillating tooth 13 on active oscillating tooth disk 9 and drives active oscillating tooth disk 9 by up time Pin rotates i.e. drive driving gear disc 8 and rotates；The now driven oscillating tooth 14 on the driven tooth pushing 16 on push rod 5 and driven oscillating tooth disk 11 It is not in contact with, and is engaged with driven fluted disc 10 due to driving gear disc 8 and cause that driven oscillating tooth disk 11 rotates in counter-clockwise direction.When When to 4 end motion of piston, the driven tooth pushing 16 on push rod 5 is engaged then push rod 5 with the driven oscillating tooth 14 on driven oscillating tooth disk 11 Drive driven fluted disc 10 to make counter-clockwise direction to rotate, and the now active tooth pushing 15 on push rod 5 and the active on active oscillating tooth disk 9 Oscillating tooth 13 is not in contact with, and is engaged with driving gear disc 8 due to driven fluted disc 10 and cause active oscillating tooth disk 9 in rotation clockwise Turn.Therefore, no matter push rod 5 is moved to the extreme direction of spring 12 or moved to the extreme direction of piston 4, the active that push rod 5 is driven turns Axle 6 is that the power transmission shaft 2 that i.e. active rotating shaft 6 is driven rotationally clockwise also rotates in the direction of the clock always.

Piston 4 drives the arm of force of the push rod 5 in acting to be always the radius R of the oscillating tooth disk 11 of active oscillating tooth disk 9 or driven, living Plug 4 drives the stroke of push rod 5 to be set to s then 2 π R=10s i.e. R=5s/ π；The connecting rod stroke maximum arm of force of crankshaft-link rod internal combustion engine is R and the minimum arm of force is zero, the stroke s of crankshaft-link rod is equal to 2r, i.e. R=5s/ π=10r/ π.Power when being done work due to crankshaft-link rod Arm by after zero to r again by r to zero, so it is bent axle that can calculate the mechanical efficiency of push rod 5 according to calculus or elementary mathematics algorithm About 4.1 times of connecting rod mechanical efficiency.

Fig. 2, Fig. 3, Fig. 4 to Fig. 5 are that push rod 5 is moved back and forth successively and active oscillating tooth disk 9, the motion of driven oscillating tooth disk 11 are closed System, stage teeth entry is distributed on push rod 5 and active oscillating tooth disk 9, driven oscillating tooth disk 11 is for contact between increase tooth bar Quantity increase effective contact area between tooth bar to reach, preferably extend push rod 5, active oscillating tooth disk 9 and driven oscillating tooth The service life of disk 11.The tooth bar top of active oscillating tooth 13 and driven oscillating tooth 14 is equal on active oscillating tooth disk 9 and driven oscillating tooth disk 11 In circular arc type, on active oscillating tooth disk 9 and driven oscillating tooth disk 11 between active oscillating tooth 13 and the adjacent rack root of driven oscillating tooth 14 Circular arc type；On push rod 5 active tooth pushing 15 and driven tooth pushing 16 tooth bar top be in circular arc type, on push rod 5 active tooth pushing 15 and It is in circular arc type between the adjacent rack root of driven tooth pushing 16.The setting of circular arc type causes active tooth pushing 15 and active oscillating tooth 13 And driven tooth pushing 16 is increased with effective contact area of driven oscillating tooth 14, is also preferably to extend push rod 5, active oscillating tooth disk 9 And the service life of driven oscillating tooth disk 11.

Embodiment two is main as shown in fig. 6, driven oscillating tooth disk 11 is provided with driven oscillating tooth disk 1 and driven oscillating tooth disk 2 20 Dynamic oscillating tooth disk 9 is located at driven oscillating tooth disk 1 and the front end centre position of driven oscillating tooth disk 2 20；It is provided with push rod 5 and driven work Driven tooth pushing 1 and driven tooth pushing 2 22 that fluted disc 1 and driven oscillating tooth disk 2 20 are meshed, the driven tooth pushing on push rod 5 1 and driven tooth pushing 2 22 it is equal with the equal number of driven oscillating tooth 14 on driven oscillating tooth disk 1 and driven oscillating tooth disk 2 20, from The setting of dynamic oscillating tooth disk 1 and driven oscillating tooth disk 2 20 may be such that stability of the push rod 5 when moving reciprocatingly is obtained preferably Ensure.Other of the present embodiment are set and principle is identical with the setting of embodiment one and principle.

Claims (5)

1. a kind of Oscillating Tooth Gear Reducer internal combustion engine of push rod five, the internal combustion engine includes cylinder, power transmission shaft and IC engine airframe, is set in cylinder It is equipped with piston, it is characterised in that the piston outer end is vertically fixedly connected with push rod, is fixed with by bearing on IC engine airframe Active rotating shaft and driven spindle；Driving gear disc and active oscillating tooth disk are provided with the active rotating shaft, driving gear disc is lived with actively Active rotating shaft between fluted disc is provided with bearing and is fixed with IC engine airframe；Be provided with the driven spindle with active rotating shaft The driven fluted disc that is meshed of driving gear disc, be provided with driven spindle and the active oscillating tooth disk shape and size on active rotating shaft The driven oscillating tooth disk of identical, the driven spindle between driven fluted disc and driven oscillating tooth disk is provided with bearing and consolidates with IC engine airframe It is fixed；The push rod is fixedly connected by spring relative to the outer end of piston end with IC engine airframe；

Equidistant on the active oscillating tooth plate edge to be provided with five groups of active oscillating tooths, every group of active oscillating tooth is in active oscillating tooth plate edge The length of arrangement is 1/10th of active oscillating tooth disk girth；On the driven oscillating tooth plate edge it is equidistant be provided with five groups it is driven Oscillating tooth, every group of driven oscillating tooth is in 1/10th that the length that driven oscillating tooth plate edge is arranged is driven oscillating tooth disk girth；It is described to push away The active tooth pushing and driven tooth pushing being meshed with active oscillating tooth disk and driven oscillating tooth disk, the active tooth pushing on push rod are provided with bar And driven tooth pushing is equal with the equal number of driven oscillating tooth on active oscillating tooth and driven oscillating tooth disk on active oscillating tooth disk.

2. the Oscillating Tooth Gear Reducer internal combustion engine of push rod according to claim 1 five, it is characterised in that the push rod is relative on push rod The side of active tooth pushing and driven tooth pushing is provided with several anti-deflection whees, is set positioned at push rod anti-deflection whee side on IC engine airframe There is the anti-bias groove for being rolled with anti-deflection whee and being engaged.

3. the Oscillating Tooth Gear Reducer internal combustion engine of push rod according to claim 1 five, it is characterised in that on the push rod before active tooth pushing The tooth bar height of several active tooth pushings is held to arrange from low to high successively, driven several driven tooth pushings of tooth pushing rear end on push rod Tooth bar height is arranged from high to low successively；If the end that every group of active oscillating tooth is arranged in the direction of the clock on the active oscillating tooth disk The tooth bar height of dry active oscillating tooth is arranged from high to low successively, and every group of driven oscillating tooth is by side clockwise on the driven oscillating tooth disk Arranged from low to high successively to the tooth bar height of several driven oscillating tooths of front end of arrangement.

4. the Oscillating Tooth Gear Reducer internal combustion engine of push rod according to claim 1 five, it is characterised in that the driven oscillating tooth disk is provided with Driven oscillating tooth disk one and driven oscillating tooth disk two, active oscillating tooth disk are located at driven oscillating tooth disk one and the front end interposition of driven oscillating tooth disk two Put；The driven tooth pushing one and driven tooth pushing being meshed with driven oscillating tooth disk one and driven oscillating tooth disk two are provided with the push rod Two, driven tooth pushing one and driven tooth pushing two on push rod are individual with driven oscillating tooth on driven oscillating tooth disk one and driven oscillating tooth disk two Number is equal.

5. the Oscillating Tooth Gear Reducer internal combustion engine of push rod according to claim 1 five, it is characterised in that the active oscillating tooth disk and driven The tooth bar top of active oscillating tooth and driven oscillating tooth is in circular arc type on oscillating tooth disk, is actively lived on active oscillating tooth disk and driven oscillating tooth disk Circular arc type between tooth and the adjacent rack root of driven oscillating tooth；The tooth bar top of active tooth pushing and driven tooth pushing is equal on the push rod In circular arc type, in circular arc type between active tooth pushing and the adjacent rack root of driven tooth pushing on push rod.