CN201023479Y - Separated wheel pair single axle bogie flexible coupling mechanism - Google Patents
Separated wheel pair single axle bogie flexible coupling mechanism Download PDFInfo
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- CN201023479Y CN201023479Y CNU2006200367488U CN200620036748U CN201023479Y CN 201023479 Y CN201023479 Y CN 201023479Y CN U2006200367488 U CNU2006200367488 U CN U2006200367488U CN 200620036748 U CN200620036748 U CN 200620036748U CN 201023479 Y CN201023479 Y CN 201023479Y
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- single axle
- coupling mechanism
- connecting rod
- wheel
- bogie
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Abstract
The utility model relates to a flexible coupling mechanism of an independent wheel assembly single axle bogie, and two similar elastic coupling mechanisms are arranged in a mode that a front and a back car body linkage points are taken in central symmetry. The structure of one elastic coupling mechanism is that a C point of a right-angled corner BCD is pin-connected on a back single axle bogie, a B end of a connecting bar AB is connected on the B end of the right-angled corner BCD through a ball-socket, an A end of the connecting bar AB is connected with a front single axle bogie through the ball-socket, a D end of the connecting bar DE is connected on the D end of the right-angled corner BCD through the ball-socket, an E end of the connecting bar DE is connected with a piston in a cylinder through the ball-socket, the upper and the lower space portions of the piston in the cylinder are respectively provided with two springs which are in the compression state, the cylinder is fixed on the back single axle bogie, the lengths of the connecting bars AB, CD are the same, and the lengths of the two right-angled corners are equal. The flexible coupling mechanism of the independent wheel assembly single axle bogie of the utility model is rational in structure and good in guiding performance, and solves the guiding problem of the independent wheel assembly from the applied angle of engineering.
Description
Technical field
The utility model relates to independent the wheel bogie truck that a kind of railway vehicle is used, and is specifically between existing independent wheel is to single axle truck a flexible couplings radiai adjustment mechanism to be set, to improve independent steering capability of taking turns bogie truck.
Background technology
Along with the continuous sharp increase of prosperity of economy and urban population, the development of urban rail traffic prospect is very good.Light rail vehicle in the urban track traffic requires to adopt the structural requirement of low floor face usually, and the bogie truck of low floor face vehicle all adopts independent wheel right usually.This mainly is because the right left and right wheels of independent wheel can freely rotate and axletree need not to rotate round axletree, thus can make down spill independently taking turns right axletree, thus can reduce the height of vehicle floor face.
But, because independent the wheel left and right wheels with respect to the independence and freedom revolution separately of its axletree, so vertically do not producing creep power, and vertically creep power plays a part very crucial in the right guiding of wheel, therefore it is relatively poor independently to take turns right steering capability, mainly show as: on straight line, independent wheel is to being difficult for centering, and track one side that reclines is easily moved; On curve, the right angle of attack of independent wheel is bigger, wheel rim takes place easily recline.Can increase the weight of the right wheel wear of independent wheel like this, on the one hand; On the other hand, the right derailing hidden danger of independent wheel increases.
Existing independent wheel mainly is divided into two big classes to bogie truck, and a class is independent the wheel two-axle bogie, and another kind of is that independently wheel is to single axle truck, and all there is birth defect in their steering capability.
Fig. 1 is the situation when independently wheel passes through curve to two-axle bogie, because I, II position wheel are to being subjected to the constraint of same framework, wheel forms high incidence with respect to omnibearing line usually to I, and wheel forms the negative angle of attack with respect to omnibearing line usually to II, that is to say that I, II position wheel are to launching deficiency on curve.
Fig. 2 is the situation when independently wheel passes through curve to single axle truck, take turns no longer being subjected to the constraint of same framework I, II position, but the constraint of car body before and after being subjected to respectively, because wheel is in the rear end of front car body to I, and wheel so wheel forms the negative angle of attack with respect to omnibearing line usually to I, forms high incidence with respect to omnibearing line and take turns to II to the front end that II is in the back car body usually, that is to say that I, II position wheel are to launching excessively on curve.
The front and back wheel of bogie truck on curve no matter be launch deficiency or launch excessively all unfavorable to curve negotiating.Independent wheel is because rigid frame is excessive to their constraint to I, the II position wheel of two-axle bogie to launch deficiency on curve; Take turns in expansion transition on the curve being the constraint because of shortage necessity between them I, the II position of independently taking turns single axle truck.So the contriver had once proposed the idea (promptly forward and backward independent wheel to single axle truck between connect an anti-coupling elastic element of shaking the head) of independent wheel to coupled bogie, and applied for patent of invention (number of patent application is ZL200410035861.X), as shown in Figure 3.This independent wheel can remedy independent wheel to two-axle bogie and the independent wheel weak point to single axle truck just to coupled bogie: choose suitable shaking the head when the coupling element of giving coupled bogie and just can make I, II position wheel be tending towards radial position to launch appropriateness on curve during rigidity value.
Aforementioned patent of invention (number of patent application is ZL200410035861.X) is only analyzed the guiding principle of coupled bogie, independent coupling mechanism of taking turns coupled bogie is not carried out specific design, and just coupling element is directly schematically represented with two springs of vertically arranging in the left and right sides between former and later two single axle trucks.
The left and right sides between former and later two single axle trucks directly is used as coupling mechanism with two springs of vertically arranging, though make sense in theory, but also unrealistic in actual applications, because arrange like this that in actual engineering there is the difficulty of following several respects in steel spring:
(1) in the theoretical derivation of aforementioned patent of invention (number of patent application is ZL200410035861.X), supposed that coupling element only provides longitudinal rigidity, and the rigidity of other directions all is tending towards 0, have only the steel spring two ends to link to each other with the front and back framework by the form of ball pivot, and when vertical span of front and back hinge-point also will be bigger, this hypothesis could be set up, and two ends are the stability existing problems of steel spring under strained condition of ball pivot constraint like this;
(2) arrange that like this spring requirement steel spring tensile deformation can take place again compressive deformation can take place, will do special processing at the position that is located by connecting at steel spring two ends like this, in engineering, implement cumbersome;
(3) on the framework, steel spring meeting nature under the effect of gravity was sagging before and after the steel spring two ends were connected to, and can influence the normal operation of spring like this.
The utility model content
The purpose of this utility model is a kind of independent wheel of designing in order to promote independent wheel that the engineering of coupled bogie is used the single axis bogie flexible coupling mechanism rational in infrastructure.
The utility model is achieved through the following technical solutions: a kind of independent wheel is to the single axis bogie flexible coupling mechanism, be before train, before below the aftercarriage adjacent end portion, the independent wheel in back is to adopting single axle truck, and it is preceding, before between the back single axle truck, the aftercarriage hinge-point becomes centrosymmetric mode to be provided with two identical elasticity coupling mechanisms, above-mentioned single elasticity coupling mechanism is by right angle pivoted arm BCD, connecting rod AB, connecting rod DE, (spring installation comprises cylinder barrel to spring installation, the cylinder barrel lid, piston, two groups of springs) form, the C point pin joint of right angle pivoted arm BCD is on the single axle truck of back, cylinder barrel is fixed on the single axle truck of back, the B end of connecting rod AB is connected on the B end of right angle pivoted arm BCD through ball pivot, the A end of connecting rod AB is connected with preceding single axle truck through ball pivot, the D end of connecting rod DE is connected on the D end of right angle pivoted arm BCD through ball pivot, the E of connecting rod DE end is connected with piston in being arranged on cylinder barrel through ball pivot, on the piston, be respectively equipped with two springs that are in compressive state in the cylinder barrel space of bottom, the pre compressed magnitude of spring is locked after regulating by the screw thread between cylinder barrel lid and the cylinder barrel, in said mechanism, the length of connecting rod AB equals the length of connecting rod DE, and two arm lengths of right angle pivoted arm equate.
In the above-mentioned elasticity coupling mechanism, the distance of AC equals the distance of CE.
Above-mentioned two springs are identical, and compressive state is identical.
Narrate principle of work of the present utility model below.
The theoretical derivation of coupling stiffness:
Fig. 6 is independent the wheel the scheme of installation of flexible couplings radial steering in train, has only drawn three joint cars among the figure, also is fine for the more piece car, as long as independent wheel just can be installed to the flexible couplings radial steering in the hinged place of car and car.The bogie truck at train two ends is that conventional monolithic wheel is to bogie truck among Fig. 6, two middle bogie trucks are that independent wheel is to the flexible couplings radial steering, the right steering capability of independent wheel than conventional monolithic wheel to poor, so the main purpose of this paper is to solve the steering capability of independent wheel to bogie truck.
Because the single stage suspension rigidity of single axle truck is much larger than secondary suspension rigidity, so can be wheel to regarding an integral body as with framework when making theoretical analysis.Because independent wheel is not to existing vertical creep power in theory, so the suffered deflecting torque of shaking the head of former and later two single axle trucks in the coupled bogie mainly is the moment M that coupling element produces
CziMoment M with the generation of secondary suspension system
Szi, and when the train stable state was passed through curve, these two moment sums should be 0, so can take turns to the equation of motion of shaking the head:
M
szi+M
czi=0(1)
Wherein:
In the formula, K
SxBe bogie truck one side secondary suspension longitudinal rigidity, K
CxBe the vertical coupling stiffness of bogie truck one side, B
sBe the horizontal span of secondary suspension half, B
cBe the horizontal span of coupling element half, l is a vehicle name spacing half, and b is a coupled bogie vehicle name wheelbase half, and R is a circular curve radius, ψ
BBe the framework angle of shaking the head, ψ
cBe the car body angle of shaking the head.
Consider that wheel right displacement and suspension deflection are more much smaller than the nominal spacing 2l of vehicle, can think that therefore the middle body of car body is approximate tangent with circular curve, i.e. ψ
c≈ 0.When the train stable state when the circular curve, for the front and back wheel that makes coupling traveling portion to being in radial position fully, must have: ψ
Bi=ψ
B (i+1)=0, so can get according to formula (1)~formula (3):
That is:
As can be seen from the above equation, the B of the horizontal span of half b, secondary suspension of half l of vehicle name spacing, coupled bogie name wheelbase
sHalf, the B of the horizontal span of coupling element
cPartly all be construction parameter, in case structure has determined that these values are exactly steady state value, so coupling stiffness K
CxChoose main and the secondary suspension stiffness K
SxRelevant.It is coupling stiffness K that formula (5) also has prior characteristics
CxChoose with radius of curve R irrelevantly, this is the excellent part of independent wheel coupled bogie just because this will mean: the radius of curve size of the route of pipe line not, as long as coupling stiffness K
CxWith the secondary suspension stiffness K
SxCoupling rationally, the independent wheel coupled bogie just can be under the effect of suspension and elasticity coupling element the automatically regulating front and back wheel to being tending towards radial position.
Given this, the problem that exists at prior art simultaneously, the inventor has invented above-mentioned elasticity coupling mechanism, and it is made up of two connecting rods, pivoted arm and spring installation, and wherein spring installation is again by cylinder barrel, piston and two springs compositions.During installation, before two elasticity coupling mechanisms, the aftercarriage hinge-point becomes centrosymmetric mode to be arranged between the forward and backward single axle truck.
The guiding principle of the utility model coupling mechanism:
When train passes through curve, as shown in Figure 7, distance between trailing or leading bogie outside hinge-point A point and the C point can be extended, thereby driving pivoted arm BCD rotates round C point clockwise direction, distance between C point and the E point also can be extended (equal in length of extending between the length of elongation and A point and the C point between C point and the E point) like this, and the effect of the spring installation in the coupling mechanism just is equivalent to directly at an A point and C point the effect of constant-rate spring mutually is installed like this; Distance between trailing or leading bogie hinged inside point A ' and the C ' can shorten, thereby drive pivoted arm B ' C ' D ' round C ' some anticlockwise motion, distance between C ' point and the E ' point also can shorten (C ' shorten between the length that shortens between point and the E ' point and A ' point and the C ' point equal in length) like this, and the effect of the spring installation in the coupling mechanism just is equivalent to directly in an A ' point and C ' the some installation effect of constant-rate spring mutually like this.So just need not dangle spring between two bogie trucks, and eliminate aforementioned disadvantage of between two single axle trucks, directly vertically arranging two steel springs.
Learn by former theoretical analysis, as long as the coupling stiffness K of the every side of bogie truck
Cx(being equivalent to the integral stiffness that spring installation provides here) and secondary suspension stiffness K
SxSatisfy formula (5), the independent wheel coupled bogie just can be under the effect of suspension and elasticity coupling element the automatically regulating front and back wheel to being tending towards radial position.Independence that Here it is is taken turns the guiding principle to direct single axis bogie flexible coupling radial adjusting agency.
The utility model flexible couplings mechanism has the following advantages:
1, the utility model by one the cover three-link mechanism former and later two independently take turns between the single axle truck coupling element hinge-point longitudinal travel be converted into cross travel, thereby avoided direct mount spring installation between former and later two independently take turns single axle truck, so just can solve the directly Project Realization difficult problem of direct mount spring between former and later two independently take turns single axle truck.
2, the connection of each rod member of three-link mechanism of the present utility model self and with the piston of forward and backward single axle truck, spring installation between to be connected all be the swivel coupling mode, can realize only between former and later two independently take turns single axle truck, providing longitudinal rigidity, and the rigidity of other directions all is tending towards 0 theory hypothesis premise.
3, spring installation of the present utility model is by cylinder barrel, and piston and two precompressed springs are formed, and guarantee that two springs all are in compressive state in the positive and negative stroke range of effective work of piston, and the location at steel spring two ends just is very easy to Project Realization like this.
4, the utility model has solved the right guiding difficult problem of independent wheel, under the effect of flexible couplings radiai adjustment mechanism, independent wheel to the front and back wheel of flexible couplings bogie truck to being tending towards radial position automatically simultaneously, thereby can reduce wheel-rail noise, alleviate wheel-rail wear, improve travel safety.
The utility model independently take turns to the single axis bogie flexible coupling mechanism can force intercouple two independent wheels to the front and back wheel of single axle truck to being tending towards radial position simultaneously, thereby thoroughly solve the right guiding difficult problem of independent wheel, believe along with independent wheel to the succeeding in developing of flexible couplings radial steering, open up the wide new world of a slice even also may bring huge economic benefit and social benefit for the development of urban light rail low floor vehicle.
Description of drawings
Fig. 1 is the guiding scheme drawing that has now when independently wheel passes through curve to two-axle bogie;
Fig. 2 is the scheme drawing that has the guiding when independently wheel passes through curve to single axle truck now;
Fig. 3 is the guiding scheme drawing that has now when independently wheel passes through curve to coupled bogie;
Fig. 4 is the utility model single flexible coupling mechanism scheme drawing;
Fig. 4-the 1st, the enlarged drawing of spring installation shown in Figure 4;
Fig. 5 is the scheme of installation of the utility model flexible couplings mechanism on bogie truck;
Fig. 6 is that independent wheel is to the scheme of installation of flexible couplings radial steering in train;
Fig. 7 is the guiding principle scheme drawing when independently wheel passes through curve to the flexible couplings radial steering.
The specific embodiment
Fig. 4, Fig. 4-1 illustrates, and single elasticity coupling mechanism is made up of right angle pivoted arm BCD, connecting rod AB, connecting rod DE and spring installation.Wherein spring installation is made up of cylinder barrel 5 (containing cylinder cap), piston 6 and two springs 7,8 again.Two springs 7,8 that are in compressive state place the cylinder barrel space of piston 6 upper and lower parts respectively.Referring to Fig. 5, during installation, forward and backward independent wheel below forward and backward car body 1,2 adjacent end portions of train is to adopting single axle truck, and between forward and backward single axle truck 3,4, former, aftercarriage hinge-point becomes centrosymmetric mode that two identical elasticity coupling mechanisms are set.The structure of single elasticity coupling mechanism is: the C point pin joint of right angle pivoted arm BCD is on the single axle truck 4 of back, the B end of connecting rod AB is connected on the B end of right angle pivoted arm BCD through ball pivot, the A end of connecting rod AB is connected with preceding single axle truck 3 through ball pivot, the D end of connecting rod DE is connected on the D end of right angle pivoted arm BCD through ball pivot, cylinder barrel is fixed on the single axle truck 4 of back, the E of connecting rod DE end is connected with piston 6 in being arranged on cylinder barrel 5 through ball pivot, is respectively equipped with two springs 7,8 that are in compressive state in the cylinder barrel space of piston 6 upper and lower parts; And in the said mechanism, the length of connecting rod AB equals the length of connecting rod DE, and two arm lengths of right angle pivoted arm equate.In the elasticity coupling mechanism,
Distance equal
Distance.Two springs 7,8 identical (all physics, the mechanics parameter that are spring are identical, and be identical as material, diameter, wire thickness, the number of turns and rigidity etc.), and compressive state is identical.The coupling stiffness K of two elasticity coupling mechanisms
CxSatisfy following expression formula:
Wherein: K
CxBe coupling stiffness, B
sBe the horizontal span of secondary suspension half, B
cBe the horizontal span of coupling element half, K
SxBe secondary suspension rigidity, b is a coupled bogie name wheelbase half, and l is a vehicle name spacing half.
Referring to Fig. 7, in motion process, when the distance between A point and the C point changes, can drive pivoted arm BCD rotates round the C point, thereby make the distance between C point and the E point that identical variation take place, like this by coupling mechanism ABCDE just between the trailing or leading bogie coupling element hinge-point longitudinal travel be converted into a kind of cross travel, so just need not dangle spring between two bogie trucks, and directly laterally be installed on the bogie truck, and action effect is identical (being equivalent to provides vertical equivalent stiffness for trailing or leading bogie); Connect because the two ends of connecting rod AB all are ball pivots, this can satisfy the hypothesis in the theoretical derivation of front just: coupling element only provides longitudinal rigidity, and the rigidity of other directions all is tending towards 0.
Claims (3)
1. an independent wheel is to the single axis bogie flexible coupling mechanism, it is characterized in that, before train, aftercarriage (1,2) below the adjacent end portion before, the independent wheel in back is to adopting single axle truck (3,4), preceding, back single axle truck (3,4) between, in the past, aftercarriage (1,2) hinge-point becomes centrosymmetric mode to be provided with two identical elasticity coupling mechanisms, the structure of single elasticity coupling mechanism is: the C point pin joint of right angle pivoted arm BCD is on back single axle truck (4), the B end of connecting rod AB is connected on the B end of right angle pivoted arm BCD through ball pivot, the A end of connecting rod AB is connected with preceding single axle truck (3) through ball pivot, the D end of connecting rod DE is connected on the D end of right angle pivoted arm BCD through ball pivot, cylinder barrel (5) is fixed on the back single axle truck (4), the E of connecting rod DE end is connected with piston (6) in the cylinder barrel (5) through ball pivot, on the piston (6), be respectively equipped with two springs (7 that are in compressive state in the cylinder barrel space of bottom, 8); And in the said mechanism, the length of connecting rod AB equals the length of connecting rod DE, and two arm lengths of right angle pivoted arm equate.
3. according to the described flexible couplings of claim 2 mechanism, it is characterized in that described two springs (7,8) are identical, and compressive state is identical.
Priority Applications (1)
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CNU2006200367488U CN201023479Y (en) | 2006-12-22 | 2006-12-22 | Separated wheel pair single axle bogie flexible coupling mechanism |
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CNU2006200367488U CN201023479Y (en) | 2006-12-22 | 2006-12-22 | Separated wheel pair single axle bogie flexible coupling mechanism |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101204963B (en) * | 2006-12-22 | 2010-05-12 | 西南交通大学 | Independent wheel direct single axis bogie flexible coupling radial adjusting agency |
CN109159793A (en) * | 2018-09-14 | 2019-01-08 | 湖北时瑞达重型工程机械有限公司 | A kind of engineering truck self steering bogie |
CN113195334A (en) * | 2019-11-29 | 2021-07-30 | 韩国铁道技术研究院 | Running device for rubber wheel type light rail electric vehicle |
-
2006
- 2006-12-22 CN CNU2006200367488U patent/CN201023479Y/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101204963B (en) * | 2006-12-22 | 2010-05-12 | 西南交通大学 | Independent wheel direct single axis bogie flexible coupling radial adjusting agency |
CN109159793A (en) * | 2018-09-14 | 2019-01-08 | 湖北时瑞达重型工程机械有限公司 | A kind of engineering truck self steering bogie |
CN113195334A (en) * | 2019-11-29 | 2021-07-30 | 韩国铁道技术研究院 | Running device for rubber wheel type light rail electric vehicle |
CN113195334B (en) * | 2019-11-29 | 2023-12-01 | 韩国铁道技术研究院 | Rubber wheel type running device for light rail electric vehicle |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20080220 Effective date of abandoning: 20061222 |