CN101865268B - Crank-round slider mechanism, crank shaft thereof and equipment using same - Google Patents
Crank-round slider mechanism, crank shaft thereof and equipment using same Download PDFInfo
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- CN101865268B CN101865268B CN 201010186336 CN201010186336A CN101865268B CN 101865268 B CN101865268 B CN 101865268B CN 201010186336 CN201010186336 CN 201010186336 CN 201010186336 A CN201010186336 A CN 201010186336A CN 101865268 B CN101865268 B CN 101865268B
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Abstract
The invention discloses a crank-round slider mechanism, which comprises round sliders, a reciprocating component, a crank shaft and a machine frame, wherein the crank shaft comprises cranks positioned at two ends and main journals positioned between the two cranks; the cranks and the main journals have a common rotating shaft which is a crank rotating shaft; two coaxial crank pins extend out from two ends of the main journal respectively to the end faces of the two cranks, which face the main journals; the distance between the axes of the two crank pin and the crank rotating shaft is e; the round slider is provided with an eccentric round hole; two round sliders having a phase difference of 180 degrees and fixed together are sleeved on each crank pin and the two round sliders of adjacent main journals have the same phase; the reciprocating component is arranged in a guide rail on the machine frame; each round slider can be rotationally arranged in a round slider accommodating hole of the reciprocating component; the guide rails of the reciprocating component corresponding to the round sliders with the same phase are arranged in parallel; and the guide rails of the reciprocating component corresponding to the round sliders with the phase difference of 180 degrees are vertical to each other. The mechanism of the invention can improve the bending resistance and deformation resistance of the crank shaft so that the stability of the mechanism is effectively improved. The invention also provides the crank shaft of the crank-round slider mechanism and equipment using the mechanism.
Description
Technical field
The mechanism of the mutual conversion that the present invention relates to to-and-fro motion and rotatablely move is specifically related to circular slider-crank mechanism.The equipment that the present invention relates to a kind of bent axle of this circular slider-crank mechanism simultaneously and uses this mechanism.
Background technique
In traditional internal-combustion engine and compressor, realize the conversion between the rotatablely moving of to-and-fro motion and bent axle of piston through connecting rod.Yet shortcomings such as because the existence of connecting rod, that the internal-combustion engine of connecting rod and compressor have is bulky, heavy, balance quality difference.
For addressing the above problem, the authorization day for announcing is that the Chinese patent that January 13, notification number in 1988 are CN85100358B discloses a kind of " crankshaft circular slide block reciprocating piston internal combustion engine ".Authorization is that the Chinese patent that December 14, notification number in 1988 are CN85100359B discloses a kind of " crankshaft circalar slide block reciprocating piston compressor " day for announcing.In disclosed internal-combustion engine of said Chinese patent and the compressor, replaced connecting rod, as the mechanism of to-and-fro motion with the conversion that rotatablely moves with circular slider-crank mechanism.Wherein, in circular slider-crank mechanism, comprise smooth block, piston and bent axle; Smooth block is provided with eccentric circular hole; The piston seat of piston is provided with circular slider accommodation hole.During assembling, be arranged in the described circular slider accommodation hole smooth block is rotatable; The crank pin of bent axle is rotatable to be assemblied in the described eccentric circular hole.
Be example with the internal-combustion engine below, the working method of above-mentioned circular slider-crank mechanism is described.During work; Combustion gas in the firing chamber expand and promote piston motion; Driving the smooth block that is arranged at wherein through piston moves reciprocatingly; And smooth block rotates in said piston simultaneously, and said to-and-fro motion rotates around the central axis of bent axle with the synthetic central axis of the eccentric circular hole on the smooth block that makes that rotatablely moves; And the dead in line of the crank pin of the central axis of said eccentric circular hole and bent axle, thereby can realize the conversion that rotatablely moves that reciprocates to bent axle of piston.During compressor operating, process is just opposite.
In the disclosed technological scheme of above-mentioned Chinese patent, need to adopt an internal gear transmission structure, solve the problem of the point of living.Yet this structure is only applicable to single cylinder engine, and this dynamic balance performance is not ideal enough.
Based on this; Notice of authorization day is June 27 calendar year 2001, notice of authorization number to disclose a kind of " crank and double-round slide reciprocating piston internal combustion engine " for the Chinese patent of CN1067741C; In this internal-combustion engine; Be the smooth block composition circular slider set that 180 degree are provided with through two phase differences, two smooth blocks place the orthogonal reciprocating part of vibration-direction respectively.During work, orthogonal reciprocating part can overcome the some problem of living each other, and can reciprocal inertia force separately be transformed into centrifugal inertia force, thereby is convenient to it is carried out balance.Has better counterbalance effect.
Notice of authorization day is June 27 calendar year 2001, notice of authorization number to disclose a kind of " crank and multi-round slide reciprocating piston internal combustion engine " for the Chinese patent of CN1067742C; In this internal-combustion engine; Have three smooth blocks; Adjacent smooth block phase difference also is 180 degree, thus form be positioned at the middle circle slide block respectively be positioned at the two terminal circle slide block and be 180 degree phase differences, and be positioned at the identical circular slider set of two ends two smooth block phase places.The smooth block that phase place is identical places the parallel reciprocating part of vibration-direction, and phase difference be 180 the degree smooth block place the vertical reciprocating part of vibration-direction respectively.
For the mechanism of the circular slider set of three smooth blocks, also can orthogonal reciprocal inertia force be converted into centrifugal inertia force and can overcome the some problem of living of single smooth block mechanism.And the mechanism of three circular slider set is with respect to the mechanism of double-round slide group, and all right balance reciprocal inertia force square has better counterbalance effect.
Yet, because in the mechanism of three circular slider set, three smooth blocks being set on one-throw crankshaft, this makes that the span of crank pin of one-throw crankshaft is bigger.When this mechanism is applied to internal-combustion engine or compressor, can cause crank pin bending deflection.Particularly the reinforcing degree along with internal-combustion engine improves constantly; The gas pressure that acts on the piston is increasing; And adopt supercharging, in the diesel engine maximum outbreak pressure of technology such as cold, high-pressure common rail bigger, rotating speed is also higher, the pressure that piston bears and the reciprocal inertia force of this piston all can act on the crank pin of bent axle, particularly the quality of dynamic balance slide block is two piston mass sums; The reciprocal inertia force of its generation is bigger, and this has more aggravated the bending deflection of crank pin.And improve the intensity of crank pin through the method that strengthens crank pin diameter, be difficult to carry out owing to the restriction of the matching relationship that receives crank pin and smooth block, piston and the restriction of entire mechanism total quality again.Thereby the application of the circular slider-crank mechanism that has limited three smooth blocks on equipment such as the internal-combustion engine of high tenacity demand and compressor.
Summary of the invention
The present invention provides a kind of circular slider-crank mechanism, to solve the diastrophic problem of crank pin of the circular slider-crank mechanism that has three smooth blocks now.The equipment that the present invention provides a kind of bent axle of this circular slider-crank mechanism in addition and uses this mechanism.
Of the present invention a kind of circular slider-crank mechanism is provided, comprises smooth block, reciprocating part, bent axle and the frame that supports this mechanism;
Said bent axle comprises that said crank and main journal have common axis of rotation at the crank at two ends and the main journal between two cranks, and this running shaft is the crankshaft rotating axle, and said crank and main journal rotary supporting are on frame; Two crank pins are extended by two opposing end surfaces of this main journal respectively, and extend to said two cranks towards the main journal end face, are fixedly connected with said crank; Described two crank pins have jointly and are parallel to the axis of said crankshaft rotating axle, and the distance of the said crankshaft rotating axle of this axis runout is e;
Said smooth block has the eccentric circular hole that throw of eccentric is e, is used for the eccentric circular hole that crank pin passes said smooth block, makes that smooth block is rotatable to be socketed on the crank pin; On each crank pin, all be socketed with two phase differences and be the smooth block that 180 degree are provided with and are solidified as a whole, two smooth blocks of adjacent main journal have identical phase place;
Reciprocating part is arranged in the to-and-fro motion guide rail on the frame; Reciprocating part is provided with circular slider accommodation hole, is used for ccontaining described smooth block; Each smooth block is all rotatable to be arranged in the circular slider accommodation hole of a reciprocating part; The to-and-fro motion guide rail of the reciprocating part that the smooth block that phase place is identical is corresponding is parallel; The to-and-fro motion guide rail that phase difference is the corresponding reciprocating part of the smooth block of 180 degree is vertical each other.
Optional, said two cranks and said crank pin are split-type structural, are provided with eccentric mounting hole at said crank towards an end of crank pin, crank pin inserts in the said eccentric mounting hole away from the end of said main journal, is fixed as one with this crank pin.
Optional, said two crank pins are an integral body, are called the integrated type crank pin; Main journal is provided with the eccentric opening that runs through its both ends of the surface, and the distance of said this main journal running shaft of eccentric opening axis runout is e; Said integrated type crank pin passes said eccentric opening, and is fixed as one with this main journal.
Optional, the reciprocating part that the smooth block of adjacent two cranks is corresponding is a piston, this smooth block is called the work smooth block; The reciprocating part that two smooth blocks of adjacent main journal are corresponding is a dynamic balance slide block, and this smooth block is called the balance smooth block.
Preferably, the quality sum of said two dynamic balance slide blocks equals the quality sum of two-piston.
Preferably, be positioned at the balance smooth block and the identical in quality of smooth block of working of said main journal homonymy, center of gravity is with respect to the center symmetry of two smooth block eccentric circular holes.
Optional, also comprise being used to make the two cranks lazy-tongs of rotation synchronously.
Optional, said lazy-tongs comprise axis parallel with said crankshaft rotating axle, two ends are provided with the synchronizing shaft of first synchromesh gear and fix with two cranks respectively and two second coaxial synchromesh gears; Said first synchromesh gear is meshed with corresponding second synchromesh gear, perhaps is meshed with corresponding first synchromesh gear and second synchromesh gear respectively through middle drive wheel.
The present invention also provides a kind of bent axle that is applied to above-mentioned arbitrary described circular slider-crank mechanism; Said bent axle comprises at the crank at two ends and the main journal between two cranks; Said crank and main journal have common axis of rotation, and this running shaft is the crankshaft rotating axle; Two crank pins are extended by two opposing end surfaces of this main journal respectively and extend to said two cranks towards the main journal end face, are fixedly connected with said crank; Described two crank pins have jointly and are parallel to the axis of said crankshaft rotating axle, and the distance of the said crankshaft rotating axle of this axis runout is e.
Optional, said bent axle two crank pins are an integral body, are called the integrated type crank pin; Main journal is provided with the eccentric opening that runs through its both ends of the surface, and the distance of said this main journal running shaft of eccentric opening axis runout is e; Said integrated type crank pin passes said eccentric opening, and is fixed as one with this main journal.
The present invention also provides a kind of equipment, and this equipment is the internal combustion air pump, comprises above-mentioned arbitrary described circular slider-crank mechanism; Wherein, at least one reciprocating part on the crank pin of said bent axle is an internal combustion engine, and the reciprocating part guide rail corresponding with this internal combustion engine is cylinder of internal-combustion engine; At least one reciprocating part on another crank pin of said bent axle is an air-compressor piston, and the reciprocating part guide rail corresponding with this air-compressor piston is the air compressor cylinder.
The present invention also provides a kind of equipment, and this equipment is internal-combustion engine, comprises above-mentioned arbitrary described circular slider-crank mechanism.
The present invention also provides a kind of equipment, and this equipment is compressor, comprises above-mentioned arbitrary described circular slider-crank mechanism.
Compared with prior art, the bent axle of circular slider-crank mechanism of the present invention has two cranks that are positioned at two ends, also has the main journal in the middle of being positioned at; Said main journal is divided into two sections with the crank pin of this bent axle, can be respectively first crank pin and second crank pin; The crank that is positioned at two ends can directly be supported on the frame, and main journal also rotary supporting on frame; Thereby make the bent axle of this mechanism that supported at three point can be arranged; And each crank pin only has two overhung cranks to support in 2 supporting structures with respect to existing; The length of crank pin shortens to some extent; The span that is crank pin reduces, thereby improves the counter-bending deformation ability of bent axle effectively, and then can effectively improve this mechanism stability.And, dynamic balance slide block is divided into two, the quality of each dynamic balance slide block and the quality of single piston differ less or the two is identical in quality, makes the reciprocal inertia force of dynamic balance slide block significantly reduce, and has greatly improved the force-bearing situation of single crank pin.
In addition, for obtaining better to improve counterbalance effect, one said two dynamic balance slide blocks can be set the quality sum equal the quality sum of two-piston; , and the quality of four reciprocating parts equates that center of gravity drops on its central axis; Two that two smooth blocks that are positioned at the main journal homonymy can be set is identical in quality, and center of gravity is with respect to the center symmetry of two smooth block eccentric circular holes; When satisfying above-mentioned two conditions, can reach the optimum balance effect, not only can transform reciprocal inertia force is centrifugal inertia force, and can be so that the reciprocal inertia force square of this mechanism is able to balance.
The bent axle of internal-combustion engine is coaxial with the bent axle of air compressor in the internal combustion air pump of the present invention, can directly give air compressor with power transmission, and needn't look like traditional air pump; Need belt or chain transferring power between the two, this can be avoided power loss, raises the efficiency; And make entire mechanism stable; Compact structure, volume-diminished, weight saving.
Description of drawings
Fig. 1 is the embodiment's of a circular slider-crank mechanism provided by the invention generalized section;
The section simplified schematic diagram that Fig. 2 is Fig. 1 behind the AA ' subdivision;
Fig. 3 is the schematic representation of the bent axle among Fig. 1.
Embodiment
A lot of details have been set forth in the following description so that make much of the present invention.But the present invention can implement much to be different from alternate manner described here, and those skilled in the art can do similar popularization under the situation of intension of the present invention, so the present invention does not receive the restriction of following disclosed practical implementation.
Below in conjunction with accompanying drawing circular slider-crank mechanism of the present invention is elaborated.
Fig. 1 is the embodiment's of a circular slider-crank mechanism provided by the invention generalized section; The section simplified schematic diagram that Fig. 2 is Fig. 1 behind the AA ' subdivision; Fig. 3 is the schematic representation of the bent axle among Fig. 1.
Please refer to Fig. 1, in the embodiments of the invention, circular slider-crank mechanism comprises bent axle 1, smooth block, reciprocating part and the frame that supports this mechanism.
Said bent axle 1 has two crank pins, and said smooth block is four, is respectively: the first smooth block 2-1a, the second smooth block 2-1b, the 3rd smooth block 2-2b and the 4th smooth block 2-2a.Said reciprocating part is four also accordingly, is respectively the first reciprocating part 3a, the second reciprocating part 4a, the 3rd reciprocating part 4b and the 4th reciprocating part 3b.
Fig. 3 is the structural representation of the bent axle 1 shown in Fig. 1.
Please refer to Fig. 3, the bent axle 1 in the embodiments of the invention comprises the first crank 1-1a and the second crank 1-1b that is positioned at two ends, and the main journal 1-2 between the first crank 1-1a and the second crank 1-1b.Wherein, the said first crank 1-1a, the second crank 1-1b and main journal 1-2 are oblate cylinder body shape.Three's radial cross section diameter can be identical, also can be different.Being all example mutually with three's radial cross section diameter in the present embodiment describes.
The said first crank 1-1a, the second crank 1-1b and main journal 1-2 can match with being arranged at the frame upper bearing (metal) through its outer circumferential face, to bent axle 1 supported at three point are provided.And the first crank 1-1a, the second crank 1-1b and main journal 1-2 all can in its corresponding bearing, rotate and its running shaft is located along the same line, and promptly have identical running shaft, and this running shaft is the crankshaft rotating axle.
The first crank pin 1-3a and the second crank pin 1-3b are stretched out by two opposing end surfaces of said main journal 1-2 respectively; And extend to the interior edge face (being the end face of crank) of the said first crank 1-1a and the second crank 1-1b, and be solidified as a whole with the said first crank 1-1a and the second crank 1-1b towards this main journal 1-2.
Wherein, the said first crank pin 1-3a is two identical cylindrical shaft parts with the second crank pin 1-3b.The axis of said two crank pins promptly has common axis on same straight line, this parallel axes is in said crankshaft rotating axle, and depart from said crankshaft rotating axle certain apart from e, this generally equals the throw of eccentric of the eccentric circular hole of smooth block apart from e.
In addition, the radial cross section diameter of the said first crank pin 1-3a and the second crank pin 1-3b is less than the radial cross section diameter of above-mentioned arbitrary said crank, also less than the radial cross section diameter of said main journal 1-2.So the outer circumferential face of said two crank pins is fully enclosed within the outer circumferential face of said crank and main journal or is tangent with it.Certainly, the end face part of said crank pin and crank or main journal is overlapped, repeat no more here.
The said first crank pin 1-3a and the second crank pin 1-3b and said main journal 1-2 are integrally formed.And the said first crank pin 1-3a and the first crank 1-1a, the second crank pin 1-3b and the second crank 1-1b are split-type structural; Promptly be provided with eccentric mounting hole towards an end of crank pin at the said first crank 1-1a and the second crank 1-1b; The first crank pin 1-3a and the second crank pin 1-3b insert in the corresponding eccentric mounting hole away from the end of said main journal 1-2, and are fixed through clamping bolt and are assembled into one.Through split type crank and crank pin are set, be convenient to the integral type smooth block and be sleeved on the crank pin, promptly be convenient to the assembling of this mechanism.And when smooth block is split-type structural, also can be integral structure between crank and the crank pin.
In addition, for split type crank and crank pin, also need position structure during the two assembling, the two is positioned at circumferential and axial, circumferentially locating stud can be used in the location, and axially locating can be used seam, gives unnecessary details no longer one by one here.In addition, the end of said first crank 1-1a and second crank 1-1b assembling crank also can be the awl end, and the eccentric mounting hole on the corresponding crank also has the conical surface that matches, and the cone match between the two is convenient to transmitting torque.
In addition, when crank was split-type structural with corresponding crank pin, said first crank pin 1-3a and the little 1-3b of second crank can also be monolithic constructions, are called the integrated type crank pin.Said main journal 1-2 is provided with the eccentric opening that runs through its both ends of the surface, and the distance of the running shaft of this main journal of the axis runout of this eccentric opening 1-2 is e.Said integrated type crank pin passes described eccentric opening, and is fixed as one with this main journal 1-2.Preferable situation, this integrated type crank pin stretches out identical length at main journal 1-2 two ends.For this structure, also need position structure between integrated type crank pin and the main journal 1-2.Here repeat no more.
Please continue with reference to figure 1 and with reference to figure 2; Described four smooth blocks: the structure of the first smooth block 2-1a, the second smooth block 2-1b, the 3rd smooth block 2-2b and the 4th smooth block 2-2a can be identical; And each smooth block all has an eccentric circular hole, and its throw of eccentric can be e.The crank pin of said bent axle 1 can pass the eccentric circular hole of smooth block, is socketed on the crank pin smooth block is rotatable.
In the present embodiment, the said first smooth block 2-1a and the second smooth block 2-1b phase difference are 180 degree and are provided with, and fixedly are assembled together, and two smooth block eccentric circular holes are aligned, and crank pin 1-3a is passed its eccentric circular hole.Said the 3rd smooth block 2-2b and the 4th smooth block 2-2a are to be fixed on the said crank pin 1-3b with the identical mode of the second smooth block 2-1b with the said first smooth block 2-1a.And make the smooth block second smooth block 2-1b adjacent identical with the 3rd smooth block 2-2b phase place with said main journal 1-2.Wherein, In described four smooth blocks; Two smooth blocks that are arranged on the same crank pin can fixedly be assembled into one through two pins (as shown in Figure 2 pin 2-1-1a and 2-1-2a); In notice of authorization day is to disclose two smooth blocks in a kind of " crank and double-round slide reciprocating piston internal combustion engine " on June 27 calendar year 2001, notice of authorization number for the Chinese patent of CN1067741C discloses with the fixing assembled construction of phase difference 180, repeats no more here.And for single smooth block, it can have various structures, for example, lightening hole, loss of weight groove etc. can also be set above that change the structure that barycenter distribute, be provided with to the smooth block outer circumferential face with and eccentric circular hole lubricating oil or lubricating road etc.All structures of smooth block structure in the Chinese patent of mentioning in the above-mentioned background technology all can be applied in the circular slider-crank mechanism of the present invention; Certainly; Be applied to smooth block structure of the present invention and be not limited to this, as long as have eccentric circular hole and the structure of the outer circumferential face that matches with the piston circular slider accommodation hole all can be applicable in the circular slider-crank mechanism of the present invention.
Said four reciprocating parts: be respectively the first reciprocating part 3a, the second reciprocating part 4a, the 3rd reciprocating part 4b and the 4th reciprocating part 3b; Each reciprocating part all is arranged in the reciprocating part guide rail on the frame; Be provided with circular slider accommodation hole on each reciprocating part, be used for ccontaining above-mentioned smooth block.Each smooth block all can rotatablely be arranged in the reciprocating part.In the present embodiment; The said first smooth block 2-1a is arranged among the said first reciprocating part 3a; The second smooth block 2-1b is arranged among the second reciprocating part 4a; Said the 3rd smooth block 2-2b is arranged among the 3rd reciprocating part 4b, and said the 4th smooth block 2-2a is arranged among the 4th reciprocating part 3b.The to-and-fro motion guide rail of said first reciprocating part 3a and the 4th reciprocating part 3b parallels, and promptly the two vibration-direction is parallel; The to-and-fro motion guide rail of said second reciprocating part 4a and the 3rd reciprocating part 4b parallels; And the said first reciprocating part 3a is vertical each other with the reciprocating part guide rail of the second reciprocating part 4a.
Described four reciprocating parts can be piston, dynamic balance slide block or other shuttle component.
In the present embodiment, said first reciprocating part 3a and the 4th reciprocating part 3b are piston, and are two-way ram, and certainly, this piston also can be single action piston; Its corresponding smooth block (i.e. ccontaining smooth block in this piston) is also referred to as the work smooth block.
And said second reciprocating part 4a and the 3rd reciprocating part 4b are dynamic balance slide block, and be as shown in Figure 2, and its corresponding smooth block can be described as the balance smooth block.When this mechanism works; The vibration-direction of dynamic balance slide block is vertical with the vibration-direction of piston; It mainly acts on is to be used for the reciprocal inertia force of the reciprocating part of mutual vertical motion is converted into centrifugal inertia force; Thereby be convenient to it is carried out balance, and this structure can also overcome the problem of the point of living.
In addition, for obtaining better to improve counterbalance effect, one said two dynamic balance slide blocks can be set the quality sum equal the quality sum of two-piston; And the quality of four reciprocating parts equates that center of gravity drops on its central axis; Two that two smooth blocks that are arranged in the main journal homonymy (present embodiment is balance smooth block and work smooth block) can be set is identical in quality, and center of gravity is with respect to the center symmetry of two smooth block eccentric circular holes.When satisfying above-mentioned two conditions, can reach the optimum balance effect, not only can transform reciprocal inertia force is centrifugal inertia force, and can be so that the reciprocal inertia force square of this mechanism is able to balance.
In the foregoing description, the bent axle 1 of circular slider-crank mechanism has two cranks: be positioned at the first crank 1-1a and the second crank 1-1b at two ends, also have the main journal 1-2 in the middle of being positioned at.Main journal 1-2 is divided into two sections with the crank pin of bent axle 1, is respectively the first crank pin 1-3a and the second crank pin 1-3b.The first crank 1-1a and the second crank 1-1b can directly be supported on the frame, corresponding to the front and back bearings on the frame, and main journal 1-2 also rotary supporting on frame.Thereby make this bent axle that supported at three point can be arranged; And each crank pin only has two overhung cranks to support in 2 supporting structures with respect to existing; The length of crank pin shortens to some extent; The span that is crank pin reduces, thereby improves the counter-bending deformation ability of bent axle effectively, and then can effectively improve this mechanism stability.And, dynamic balance slide block is divided into two, the quality of each dynamic balance slide block and the quality of single piston differ less or the two is identical in quality, makes the reciprocal inertia force of dynamic balance slide block significantly reduce, and has greatly improved the force-bearing situation of single crank pin.
In addition, this mechanism can also comprise lazy-tongs, and is concrete, said lazy-tongs comprise axis parallel with said crankshaft rotating axle, two ends are provided with the synchronizing shaft of first synchromesh gear and fix with two cranks respectively and two second coaxial synchromesh gears; Said first synchromesh gear is meshed with corresponding second synchromesh gear, perhaps is meshed with corresponding first synchromesh gear and second synchromesh gear respectively through middle drive wheel.Harmony and synchronism when the work of this mechanism can improve in this mechanism.
In addition, the present invention also provides a kind of equipment, and it also can be compressor that this equipment specifically can make internal-combustion engine.This equipment is used the circular slider-crank mechanism of the above embodiments.
In addition, the present invention also provides a kind of equipment, and this equipment is specially the internal combustion air pump, and this equipment comprises above-mentioned described embodiment's circular slider-crank mechanism; Wherein, at least one reciprocating part on the crank pin of said bent axle is an internal combustion engine, and the reciprocating part guide rail corresponding with this internal combustion engine is cylinder of internal-combustion engine; At least one reciprocating part on another crank pin of said bent axle is an air-compressor piston, and the reciprocating part guide rail corresponding with this air-compressor piston is the air compressor cylinder.
For example; The first reciprocating part 3a among Fig. 1 can be that internal combustion engine, the second reciprocating part 4a and the 3rd reciprocating part 4b are dynamic balance slide block; The 4th reciprocating part 3b is an air-compressor piston, and this mechanism is assemblied in the body, can constitute direct connection internal combustion air pump.
Wherein, described air-compressor piston and internal combustion engine can also can be two-way ram for single action piston.
The bent axle of internal-combustion engine is coaxial with the bent axle of air compressor in this internal combustion air pump, makes internal-combustion engine and air compressor direct connection, can directly give air compressor with power transmission; And needn't look like traditional air pump, and needing belt or chain transferring power between the two, this can be avoided power loss; Raise the efficiency, and make entire mechanism stable, compact structure; Volume-diminished, weight saving.
Though the present invention with preferred embodiment openly as above; But it is not to be used for limiting the present invention; Any those skilled in the art are not breaking away from the spirit and scope of the present invention; Can make possible change and modification, so protection scope of the present invention should be as the criterion with the scope that claim of the present invention was defined.
Claims (13)
1. a circular slider-crank mechanism is characterized in that: comprise smooth block, reciprocating part, bent axle and the frame that supports this mechanism;
Said bent axle comprises that said crank and main journal have common axis of rotation at the crank at two ends and the main journal between two cranks, and this running shaft is the crankshaft rotating axle, and said crank and main journal rotary supporting are on frame; Two crank pins are extended by two opposing end surfaces of this main journal respectively, and extend to said two cranks towards the main journal end face, are fixedly connected with said crank; Described two crank pins have jointly and are parallel to the axis of said crankshaft rotating axle, and the distance of the said crankshaft rotating axle of this axis runout is e;
Said smooth block has the eccentric circular hole that throw of eccentric is e, is used for the eccentric circular hole that crank pin passes said smooth block, makes that smooth block is rotatable to be socketed on the crank pin; On each crank pin, all be socketed with two phase differences and be the smooth block that 180 degree are provided with and are solidified as a whole, two smooth blocks of adjacent main journal have identical phase place;
Reciprocating part is arranged in the to-and-fro motion guide rail on the frame; Reciprocating part is provided with circular slider accommodation hole, is used for ccontaining described smooth block; Each smooth block is all rotatable to be arranged in the circular slider accommodation hole of a reciprocating part; The to-and-fro motion guide rail of the reciprocating part that the smooth block that phase place is identical is corresponding is parallel; The to-and-fro motion guide rail that phase difference is the corresponding reciprocating part of the smooth block of 180 degree is vertical each other.
2. circular slider-crank mechanism according to claim 1; It is characterized in that: said two cranks and said crank pin are split-type structural; Be provided with eccentric mounting hole at said crank towards an end of crank pin; Crank pin inserts in the said eccentric mounting hole away from the end of said main journal, is fixed as one with this crank pin.
3. circular slider-crank mechanism according to claim 2 is characterized in that: said two crank pins are an integral body, are called the integrated type crank pin; Main journal is provided with the eccentric opening that runs through its both ends of the surface, and the distance of said this main journal running shaft of eccentric opening axis runout is e; Said integrated type crank pin passes said eccentric opening, and is fixed as one with this main journal.
4. circular slider-crank mechanism according to claim 1 is characterized in that: the reciprocating part that the smooth block of adjacent two cranks is corresponding is a piston, and this smooth block is called the work smooth block; The reciprocating part that two smooth blocks of adjacent main journal are corresponding is a dynamic balance slide block, and this smooth block is called the balance smooth block.
5. circular slider-crank mechanism according to claim 4 is characterized in that: the quality sum of said two dynamic balance slide blocks equals the quality sum of two-piston.
6. according to claim 4 or 5 described circular slider-crank mechanisms, it is characterized in that: be positioned at the balance smooth block and the identical in quality of smooth block of working of said main journal homonymy, center of gravity is with respect to the center symmetry of two smooth block eccentric circular holes.
7. circular slider-crank mechanism according to claim 1 is characterized in that: also comprise being used to make the two cranks lazy-tongs of rotation synchronously.
8. circular slider-crank mechanism according to claim 7 is characterized in that: said lazy-tongs comprise axis parallel with said crankshaft rotating axle, two ends are provided with the synchronizing shaft of first synchromesh gear and fix with two cranks respectively and two second coaxial synchromesh gears; Said first synchromesh gear is meshed with corresponding second synchromesh gear, perhaps is meshed with corresponding first synchromesh gear and second synchromesh gear respectively through middle drive wheel.
9. bent axle that is applied to the arbitrary described circular slider-crank mechanism of claim 1 to claim 8; It is characterized in that: said bent axle comprises at the crank at two ends and the main journal between two cranks; Said crank and main journal have common axis of rotation, and this running shaft is the crankshaft rotating axle; Two crank pins are extended by two opposing end surfaces of this main journal respectively and extend to said two cranks towards the main journal end face, are fixedly connected with said crank; Described two crank pins have jointly and are parallel to the axis of said crankshaft rotating axle, and the distance of the said crankshaft rotating axle of this axis runout is e.
10. bent axle according to claim 9 is characterized in that: said two crank pins are an integral body, are called the integrated type crank pin; Main journal is provided with the eccentric opening that runs through its both ends of the surface, and the distance of said this main journal running shaft of eccentric opening axis runout is e; Said integrated type crank pin passes said eccentric opening, and is fixed as one with this main journal.
11. an equipment, this equipment is the internal combustion air pump, it is characterized in that: comprise the arbitrary described circular slider-crank mechanism of aforesaid right requirement 1 to claim 8; Wherein, at least one reciprocating part on the crank pin of said bent axle is an internal combustion engine, and the reciprocating part guide rail corresponding with this internal combustion engine is cylinder of internal-combustion engine; At least one reciprocating part on another crank pin of said bent axle is an air-compressor piston, and the reciprocating part guide rail corresponding with this air-compressor piston is the air compressor cylinder.
12. an equipment, this equipment is internal-combustion engine, it is characterized in that: comprise the arbitrary described circular slider-crank mechanism of aforesaid right requirement 1 to claim 8.
13. an equipment, this equipment is compressor, it is characterized in that: comprise the arbitrary described circular slider-crank mechanism of aforesaid right requirement 1 to claim 8.
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CN 201010186336 CN101865268B (en) | 2010-05-21 | 2010-05-21 | Crank-round slider mechanism, crank shaft thereof and equipment using same |
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CN 201010186336 CN101865268B (en) | 2010-05-21 | 2010-05-21 | Crank-round slider mechanism, crank shaft thereof and equipment using same |
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CN101865268A CN101865268A (en) | 2010-10-20 |
CN101865268B true CN101865268B (en) | 2012-09-26 |
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CN 201010186336 Expired - Fee Related CN101865268B (en) | 2010-05-21 | 2010-05-21 | Crank-round slider mechanism, crank shaft thereof and equipment using same |
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Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102490044B (en) * | 2011-12-21 | 2015-07-29 | 北京中清能发动机技术有限公司 | A kind of technological equipment processing smooth block |
CN102554653B (en) * | 2012-03-13 | 2014-06-25 | 北京中清能发动机技术有限公司 | Technological device for processing round slider |
CN108119233B (en) * | 2016-11-30 | 2019-11-22 | 中清能(北京)科技有限公司 | A kind of volume changeable device, compressor, internal combustion engine and water pump |
CN111457067B (en) * | 2020-05-18 | 2024-07-02 | 宁波天生密封件有限公司 | Cam coaxial sinusoidal movement mechanism and equipment adopting same |
CN112049726A (en) * | 2020-09-17 | 2020-12-08 | 徐玉国 | Cam tappet type engine |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2160586A1 (en) * | 1971-12-07 | 1973-06-14 | Schmidt Gmbh Karl | CRANKSHAFT |
CN1144879A (en) * | 1995-06-13 | 1997-03-12 | 黎正中 | Crank and double-round slide reciprocating piston internal combustion engine |
CN101025185A (en) * | 2006-02-24 | 2007-08-29 | 曼柴油机欧洲股份公司 | Crankshaft of a four-stroke diesel engine of construction, in particular for medium-speed operation |
DE102007025470A1 (en) * | 2007-05-31 | 2008-06-12 | Audi Ag | Monolithic crankshaft for a vehicle combustion engine comprises main bearings and an eccentrically arranged connecting rod bearing with connecting rod bearing pins and a lubricant guide |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6231715A (en) * | 1985-08-05 | 1987-02-10 | Tomio Tozawa | Formation of crank shaft for single and plural cylinders |
-
2010
- 2010-05-21 CN CN 201010186336 patent/CN101865268B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE2160586A1 (en) * | 1971-12-07 | 1973-06-14 | Schmidt Gmbh Karl | CRANKSHAFT |
CN1144879A (en) * | 1995-06-13 | 1997-03-12 | 黎正中 | Crank and double-round slide reciprocating piston internal combustion engine |
CN101025185A (en) * | 2006-02-24 | 2007-08-29 | 曼柴油机欧洲股份公司 | Crankshaft of a four-stroke diesel engine of construction, in particular for medium-speed operation |
DE102007025470A1 (en) * | 2007-05-31 | 2008-06-12 | Audi Ag | Monolithic crankshaft for a vehicle combustion engine comprises main bearings and an eccentrically arranged connecting rod bearing with connecting rod bearing pins and a lubricant guide |
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