CN206974706U - Cargo vehicle V-arrangement back reaction rod Bench Test System - Google Patents

Abstract

The utility model belongs to auto parts and components bench test technical field, specifically a kind of cargo vehicle V-arrangement back reaction rod Bench Test System.Testing load maintainer includes gantry support, comprehensive adding carrier, V-arrangement back reaction rod, transverse direction, longitudinal direction and vertical loading device；Laterally loading seat is fixed in comprehensive adding carrier；Longitudinal rod is connected by oscillating bearing with comprehensive adding carrier；The upper end of Plumb load linear actuator is fixed on gantry support, and the moved end of making of Plumb load linear actuator is connected with the both sides of comprehensive adding carrier, and the big end of V-arrangement back reaction rod is fixed on the middle part of comprehensive adding carrier, and small end is fixed on longitudinally fixed bearing.The utility model can reappear the real vehicle failure conditions of V-arrangement back reaction rod and predict real vehicle service life indoors on simulation experiment system, product quality problem can be found that in product development stage, shorten actual road test and bench test cycle, reduce experimentation cost, research and development of products efficiency is improved, reduces product market claim rate.

Description

Cargo vehicle V-arrangement back reaction rod Bench Test System

Technical field

The utility model belongs to auto parts and components bench test technical field, specifically a kind of to be used to carry out vapor laden The cargo vehicle V-arrangement back reaction rod Bench Test System of car V-arrangement back reaction rod road analogy bench test.

Background technology

V-arrangement back reaction rod is the critical component in chassis of heavy-duty vehicle suspension system, and it is mainly used in outstanding using balance On the heavy-duty car of frame system or airsuspension system, vehicle frame and vehicle bridge are connected to, is turned with bearing tractive force, brake force and automobile Centrifugal force when curved etc., while also act as the effect of balance vehicle body.

At present, for V-arrangement back reaction rod bench test mainly based on unidirectional load, i.e., longitudinally, laterally right respectively Its load, differ larger with stressing conditions complicated under real vehicle state, cause stand failure mode and considered repealed form not Unanimously, can not really play a part of examining product.Since 2002 V-arrangement back reaction rod was used domestic commercial car so far, The country there is no effective and feasible research technique fully to verify its reliability.

The content of the invention

The utility model provides a kind of multichannel, load spectrum loading, for carrying out cargo vehicle V-arrangement back reaction rod The cargo vehicle V-arrangement back reaction rod Bench Test System of road analogy bench test, solves the upper of existing Bench Test System State deficiency.

Technical solutions of the utility model are described with reference to the drawings as follows：

A kind of cargo vehicle V-arrangement back reaction rod Bench Test System, the pilot system include experiment load maintainer and control System；Described experiment load maintainer includes gantry support 1, comprehensive adding carrier 5, V-arrangement back reaction rod 9, horizontal loading device, vertical To loading device and vertical loading device；Horizontal loading seat 18 in described horizontal loading device is fixed on comprehensive adding carrier 5 On；Longitudinal rod 6 in described longitudinal loading device is connected by second joint bearing 4 with comprehensive adding carrier 5；Described hangs down The upper end of two Plumb load linear actuators 3 into loading device is fixed on gantry support 1 by the first oscillating bearing 2 On, the moved end of making of the Plumb load linear actuator 3 described in two passes through second joint bearing 4 and the both sides of comprehensive adding carrier 5 Connection, the big end of described V-arrangement back reaction rod 9 are fixed on the middle part of comprehensive adding carrier 5 through big end bearing 10, and small end is through small end branch Seat 11 is fixed on the longitudinally fixed bearing 8 of longitudinal loading device.

Described horizontal loading device also include laterally loading linear actuator 14, ball spline pair 15, rotating pin 16, 4th oscillating bearing 17, horizontal hold-down support 19, laterally the 5th oscillating bearing 20, loading swing arm 21 and horizontal loading connecting rod 22； Described horizontal loading linear actuator 14 is fixed on horizontal hold-down support 19；Described horizontal loading linear actuator 14 Make moved end by the 5th oscillating bearing 20 and ball spline pair 15 and by rotating pin 16 with laterally loading swing arm 21 One end connects；The other end of described horizontal loading swing arm 21 is solid through laterally loading seat 18 by two horizontal loading connecting rods 22 It is scheduled in comprehensive adding carrier 5；Used between described horizontal loading connecting rod 22 and horizontal loading swing arm 21, horizontal loading seat 18 4th oscillating bearing 17 connects.

Described longitudinal loading device also includes longitudinal rod 6, longitudinal direction loading linear actuator 7, three-knuckle bearing 13 With two longitudinally-moving pull bars 12；Wherein described longitudinally fixed bearing 8 is loaded by two longitudinally-moving pull bars 12 with comprehensive The lower end connection of body 5, coupling part uses three-knuckle bearing 13；The upper end of described synthesis adding carrier 5 is connected by longitudinal direction Bar 6 is connected with longitudinal direction loading linear actuator 7；Described longitudinal direction loading linear actuator 7 is fixed on longitudinally fixed bearing 8.

Described longitudinal rod 6, longitudinally-moving pull bar 12 are parallel with the three of V-arrangement back reaction rod 9, and longitudinally-moving pull bar 12 The ball bearing at both ends asks distance in the heart, the ball bearing at the both ends of longitudinal rod 6 to ask distance in the heart, the small end ball of V-arrangement back reaction rod 9 Head line center is equal apart from three to big end bulb center.

The loading position of described horizontal loading linear actuator 14 is in the centre of laterally loading swing arm 21；Described V-arrangement The big end bulb center of back reaction rod 9 laterally loads the line center of seat 18 at two.

Described control system is controlled using the PULSAR for being provided with ICS loading spectrum iterative softwares of Servotest companies Device, described PULSAR controllers and two Plumb load linear actuators 3, longitudinal direction loading linear actuator 7 and laterally loading Linear actuator 14 is connected.

Described synthesis adding carrier 5 can connect V-arrangement back reaction rod 9 and all directions loading device simultaneously into "convex" shaped, Two longitudinally-moving pull bars 12 are fixed on the bottom of comprehensive adding carrier 5 by three-knuckle bearing 13, can simulate that real vehicle I shapes are counter to be made Use bar；Described V-arrangement back reaction rod 9 is fixed on the comprehensive middle part of adding carrier 5 by oscillating bearing；Described longitudinal rod 6 passes through Oscillating bearing is fixed on the comprehensive top of adding carrier 5；Plumb load linear actuator 3 described in two is fixed on by oscillating bearing The comprehensive both sides of adding carrier 5；Described horizontal loading connecting rod 22 is fixed on two in comprehensive adding carrier 5 by crucial bearing respectively Laterally on loading seat 18；Described synthesis adding carrier 5 can ensure that V-arrangement back reaction rod 9 is living with longitudinal rod 6 and longitudinal direction respectively The fore-and-aft distance of dynamic pull bar 12 is equal, and two Plumb load linear actuators 3 are on the comprehensive 5 vertical axis of symmetry pair of adding carrier Claim, two laterally load 18 vertical distance of seat and consolidate with laterally loading the equal length of swing arm 21, the big end bulb of V-arrangement back reaction rod 9 Pinpoint the line center that seat 18 is laterally loaded at two.

It is vertical apart from equal that the length of described horizontal loading swing arm 21 with two laterally loads seats 18, and with two transverse directions Load connecting rod 22 and form parallel-crank mechanism, so as to ensure laterally to load linear start when comprehensive adding carrier 5 moves up and down Device 14 is that V-arrangement back reaction rod 9 holds greatly the load position of bulb application and direction accurate to test specimen.

The beneficial effects of the utility model are：The patented technology can reappear V-arrangement reaction indoors on simulation experiment system The real vehicle failure conditions of bar simultaneously predict real vehicle service life, can find that product quality problem in product development stage, shorten road Road test is tested and the bench test cycle, reduces experimentation cost, improves research and development of products efficiency, reduces product market claim rate.More originally Testing method, assess V-arrangement back reaction rod reliability timing node carry the time or so the previous year, as a result accuracy is by original That comes is basic uncorrelated with real vehicle, and V-arrangement back reaction rod real vehicle failure mode and life-span can be accurately reflected by bringing up to.

Brief description of the drawings

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is longitudinal loading structure schematic diagram in the utility model；

Fig. 3 is horizontal loading structure schematic diagram in the utility model；

Fig. 4 is comprehensive adding carrier structure of the main view；

Fig. 5 is comprehensive adding carrier structure left view schematic diagram；

Fig. 6 is horizontal loading arm structure of the main view；

Fig. 7 is laterally loading arm configuration left view schematic diagram；

Fig. 8 is laterally loading arm configuration schematic top plan view.

In figure：1st, gantry support；2nd, the first oscillating bearing；3rd, Plumb load linear actuator；4th, second joint bearing；5、 Comprehensive adding carrier；6th, longitudinal rod；7th, longitudinal direction loading linear actuator；8th, longitudinally fixed bearing；9th, V-arrangement back reaction rod；10th, it is big Hold bearing；11st, small end bearing；12nd, longitudinally-moving pull bar；13rd, three-knuckle bearing；14th, linear actuator is laterally loaded；15、 Ball spline pair；16th, rotating pin；17th, the 4th oscillating bearing；18th, seat is laterally loaded；19th, horizontal hold-down support；20th, the 5th Oscillating bearing；21st, laterally loading swing arm；22nd, connecting rod is laterally loaded.

Embodiment

Refering to Fig. 1-Fig. 3, a kind of cargo vehicle V-arrangement back reaction rod Bench Test System, the pilot system includes experiment and added Mounted mechanism and control system；Described experiment load maintainer includes gantry support 1, comprehensive adding carrier 5, V-arrangement back reaction rod 9, horizontal stroke To loading device, longitudinal loading device and vertical loading device；Horizontal loading seat 18 in described horizontal loading device is fixed In comprehensive adding carrier 5；Longitudinal rod 6 in described longitudinal loading device passes through second joint bearing 4 and comprehensive adding carrier 5 It is connected；The upper end of two Plumb load linear actuators 3 in described vertical loading device is fixed by the first oscillating bearing 2 On gantry support 1, the moved end of making of the Plumb load linear actuator 3 described in two is added by second joint bearing 4 with comprehensive The both sides connection of carrier 5；The big end of described V-arrangement back reaction rod 9 is fixed on the middle part of comprehensive adding carrier 5 through big end bearing 10, Small end is fixed on the longitudinally fixed bearing 8 of longitudinal loading device through small end bearing 11.

Refering to Fig. 3, described horizontal loading device includes laterally loading linear actuator 14, ball spline pair 15, rotation Bearing pin 16, laterally the 4th oscillating bearing 17, loading seat 18, horizontal hold-down support 19, laterally the 5th oscillating bearing 20, loading swing arm 21 load connecting rod 22 with horizontal；

Described horizontal loading linear actuator 14 is fixed on horizontal hold-down support 19；Described horizontal loading is linear to be made Put by the 5th oscillating bearing 20 and ball spline pair 15 and by rotating pin 16 and laterally loading the moved end of making of dynamic device 14 One end connection of arm 21；The other end of described horizontal loading swing arm 21 laterally loads connecting rod 22 through laterally loading seat by two 18 are fixed in comprehensive adding carrier 5；Between described horizontal loading connecting rod 22 and horizontal loading swing arm 21, horizontal loading seat 18 Connected using the 4th oscillating bearing 17.

The line of horizontal loading connecting rod 22, horizontal loading swing arm 21 and two horizontal loading seats 18 described in two forms one Individual parallel-crank mechanism, the loading position of described horizontal loading linear actuator 14 is in the centre of laterally loading swing arm 21； The big end bulb center of described V-arrangement back reaction rod 9 laterally loads the line center of seat 18 at two, so as to ensure to add comprehensive Carrier 5 laterally loads the load position that linear actuator 14 holds greatly bulb to apply to test specimen i.e. V-arrangement back reaction rod 9 when moving up and down And direction is accurate.Laterally load the length of connecting rod 22 and does length as far as possible, so that comprehensive adding carrier 5 moves up and down to laterally loading linearly Actuator 14 influence it is as far as possible small, under conditions of complete mechanical solution lotus root is unable to, reduce motion coupling influence.Pass through horizontal loading The comprehensive adding carrier 5 of the driving of linear actuator 14 realizes the transverse load loading of test specimen.

Refering to Fig. 2, described longitudinal loading device includes longitudinal rod 6, longitudinal direction loads linear actuator 7, longitudinally fixed Bearing 8, three-knuckle bearing 13 and two longitudinally-moving pull bars 12；

Wherein described longitudinally fixed bearing 8 is connected by two longitudinally-moving pull bars 12 with the lower end of comprehensive adding carrier 5, Coupling part uses three-knuckle bearing 13；The upper end of described synthesis adding carrier 5 passes through longitudinal rod 6 and longitudinal loaded line Property actuator 7 connects；Described longitudinal direction loading linear actuator 7 is fixed on longitudinally fixed bearing 8.

Described longitudinal rod 6, longitudinally-moving pull bar 12 are parallel with the three of V-arrangement back reaction rod 9, and longitudinally-moving pull bar 12 Distance, the ball bearing at the both ends of longitudinal rod 6 between the ball bearing centre of sphere at both ends ask distance in the heart, the small end ball of V-arrangement back reaction rod 9 Head line center is equal apart from three to big end bulb center, so as to ensure longitudinally to add when comprehensive adding carrier 5 moves up and down Change in displacement will not be produced by carrying linear actuator 7, realize solve longitudinal loading and the motion solution of Plumb load in mechanical structure The technological difficulties of coupling.Realize that the longitudinal loading of test specimen loads by the comprehensive adding carrier 5 of the longitudinal direction loading driving of linear actuator 7.

Refering to Fig. 1, described vertical loading device include the first oscillating bearing 2, second joint bearing and it is two vertical plus Carry linear actuator 3；

The upper end of two Plumb load linear actuators 3 is fixed on gantry support 1 by the first oscillating bearing 2, two The moved end of making of described Plumb load linear actuator 3 is connected by second joint bearing 4 with the both sides of comprehensive adding carrier 5.2 The individual comprehensive adding carrier 5 of the driving of Plumb load linear actuator 3 simulates bob and the swing of real vehicle vehicle bridge, realizes anti-to V-arrangement Actuating rod 9 reverses and swung the loading of load.

Described control system is controlled using the PULSAR for being provided with ICS loading spectrum iterative softwares of Servotest companies Device, 4 linear actuators control simultaneously by the PULSAR controllers of Servotest companies.Test specimen is gathered in typical case The load spectrum of 4 passages under operating mode, the bench test loading spectrum of 4 passages is changed into after processing, is carried using ICS softwares Lotus composes iteration, and the bench test driving spectrum for reaching test requirements document precision can be used to follow-up bench test.Utilize the platform of test specimen Real vehicle distance travelled corresponding to frame test life, collection load spectrum, according to grade fatigue damage theory, you can estimation test specimen exists Service life on real vehicle.

During experiment, longitudinal direction loads linear actuator 7 and uses load control mode, is added by longitudinal rod 6 through comprehensive Carrier 5 applies longitudinal loading to sample；Laterally loading linear actuator 14 uses load control mode, by laterally loading connecting rod 22 apply transverse load through comprehensive adding carrier 5 to sample；Plumb load linear actuator 3 uses displacement-control mode, passes through association Regulation and control system applies bounce, warpage load through comprehensive adding carrier 5 to sample.Each linear actuator is made using real vehicle load spectrum It is completely the same for input, the stress and real vehicle of sample.

Refering to Fig. 4, Fig. 5, described synthesis adding carrier 5 into "convex" shaped, can connect simultaneously V-arrangement back reaction rod 9 with it is each Direction loading device, two longitudinally-moving pull bars 12 are fixed on the bottom of comprehensive adding carrier 5 by three-knuckle bearing 13, can mould Intend real vehicle I shape back reaction rods；Described V-arrangement back reaction rod 9 is fixed on the comprehensive middle part of adding carrier 5 by oscillating bearing；Described Longitudinal rod 6 is fixed on the comprehensive top of adding carrier 5 by oscillating bearing；Plumb load linear actuator 3 described in two passes through Oscillating bearing is fixed on the comprehensive both sides of adding carrier 5；Described horizontal loading connecting rod 22 is fixed on synthesis by crucial bearing respectively Two in adding carrier 5 laterally load on seat 18；Described synthesis adding carrier 5 can ensure V-arrangement back reaction rod 9 respectively with indulging Equal with the fore-and-aft distance of longitudinally-moving pull bar 12 to connecting rod 6, two Plumb load linear actuators 3 are on comprehensive adding carrier 5 The vertical axis of symmetry is symmetrical, and two laterally load 18 vertical distance of seat and laterally load the equal length of swing arm 21, V-arrangement back reaction rod 9 big end bulb fixing point laterally loads the line center of seat 18 at two.

Refering to Fig. 6, Fig. 7, Fig. 8, the length of described horizontal loading swing arm 21 laterally loads 18 vertical distance of seat with two It is equal, and laterally load connecting rod 22 with two and form parallel-crank mechanism, so as to ensure when comprehensive adding carrier 5 moves up and down Laterally loading linear actuator 14 is that V-arrangement back reaction rod 9 holds greatly the load position of bulb application and direction accurate to test specimen.Laterally Loading connecting rod 22 length does length as far as possible, and laterally loading linear actuator 14 is influenceed to the greatest extent so that comprehensive adding carrier 5 moves up and down Measure it is small, under conditions of complete mechanical solution lotus root is unable to, reduce motion coupling influence；Driven by laterally loading linear actuator 14 Dynamic comprehensive adding carrier 5 realizes the transverse load loading of test specimen.

Claims (8)

1. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System, the pilot system includes experiment load maintainer and control is System；Characterized in that, described experiment load maintainer include gantry support (1), comprehensive adding carrier (5), V-arrangement back reaction rod (9), Horizontal loading device, longitudinal loading device and vertical loading device；Horizontal loading seat (18) in described horizontal loading device It is fixed in comprehensive adding carrier (5)；Longitudinal rod (6) in described longitudinal loading device by second joint bearing (4) with Comprehensive adding carrier (5) is connected；The upper end of two Plumb load linear actuators (3) in described vertical loading device passes through One oscillating bearing (2) is fixed on gantry support (1), and Plumb load linear actuator (3) described in two pass through as moved end Second joint bearing (4) is connected the big end of described V-arrangement back reaction rod (9) with the both sides of comprehensive adding carrier (5) through big end bearing (10) middle part of comprehensive adding carrier (5) is fixed on, small end is fixed on the longitudinally fixed of longitudinal loading device through small end bearing (11) On bearing (8).

2. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 1, it is characterised in that described Horizontal loading device also include laterally loading linear actuator (14), ball spline pair (15), rotating pin (16), the 4th close Bearings (17), horizontal hold-down support (19), laterally the 5th oscillating bearing (20), loading swing arm (21) and horizontal loading connecting rod (22)；Described horizontal loading linear actuator (14) is fixed on horizontal hold-down support (19)；Described horizontal loading is linear Actuator (14) make moved end by the 5th oscillating bearing (20) and ball spline pair (15) and by rotating pin (16) and Laterally one end connection of loading swing arm (21)；The other end of described horizontal loading swing arm (21) laterally loads connecting rod by two (22) it is fixed on through laterally loading seat (18) in comprehensive adding carrier (5)；Described horizontal loading connecting rod (22) is put with laterally loading Connected between arm (21), horizontal loading seat (18) using the 4th oscillating bearing (17).

3. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 2, it is characterised in that described Longitudinal loading device also include longitudinal rod (6), longitudinal direction loading linear actuator (7), three-knuckle bearing (13) and two Longitudinally-moving pull bar (12)；Wherein described longitudinally fixed bearing (8) is loaded by two longitudinally-moving pull bars (12) with comprehensive The lower end connection of body (5), coupling part uses three-knuckle bearing (13)；The upper end of described synthesis adding carrier (5) passes through Longitudinal rod (6) is connected with longitudinal direction loading linear actuator (7)；Described longitudinal direction loading linear actuator (7) is fixed on longitudinal direction On hold-down support (8).

4. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 3, it is characterised in that described Longitudinal rod (6), longitudinally-moving pull bar (12) it is parallel with V-arrangement back reaction rod (9) three, and longitudinally-moving pull bar (12) both ends Ball bearing ask distance in the heart, the ball bearing at longitudinal rod (6) both ends to ask distance in the heart, V-arrangement back reaction rod (9) small end ball Head line center is equal apart from three to big end bulb center.

5. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 2, it is characterised in that described Horizontal loading linear actuator (14) loading position in the centre of laterally loading swing arm (21)；Described V-arrangement back reaction rod (9) big end bulb center laterally loads the line center of seat (18) at two.

6. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 1, it is characterised in that described Control system use Servotest companies the PULSAR controllers for being provided with ICS loading spectrum iterative softwares, it is described PULSAR controllers and two Plumb load linear actuators (3), longitudinal direction loading linear actuator (7) and horizontal loading are linearly made Dynamic device (14) is connected.

7. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 4, it is characterised in that described Synthesis adding carrier (5) into "convex" shaped, V-arrangement back reaction rod (9) and all directions loading device, two longitudinal directions can be connected simultaneously Active pull rod (12) is fixed on the bottom of comprehensive adding carrier (5) by three-knuckle bearing (13), can simulate real vehicle I shape reactions Bar；Described V-arrangement back reaction rod (9) is fixed in the middle part of comprehensive adding carrier (5) by oscillating bearing；Described longitudinal rod (6) Comprehensive adding carrier (5) top is fixed on by oscillating bearing；Plumb load linear actuator (3) described in two passes through joint shaft Hold and be fixed on comprehensive adding carrier (5) both sides；Described horizontal loading connecting rod (22) is fixed on comprehensive add by crucial bearing respectively Two on carrier (5) laterally load on seat (18)；Described synthesis adding carrier (5) can ensure V-arrangement back reaction rod (9) point It is inequal with the fore-and-aft distance of longitudinal rod (6) and longitudinally-moving pull bar (12), two Plumb load linear actuators (3) on Comprehensive adding carrier (5) vertical axis of symmetry is symmetrical, and two laterally loading seat (18) vertical distance and laterally loading swing arm (21) are long Spend equal, the big end bulb fixing point of V-arrangement back reaction rod (9) is at the line centers of two horizontal loading seats (18).

8. a kind of cargo vehicle V-arrangement back reaction rod Bench Test System according to claim 2, it is characterised in that described The length of horizontal loading swing arm (21) with two laterally to load seats (18) vertical apart from equal, and laterally load connecting rods with two (22) parallel-crank mechanism is formed, so as to ensure laterally to load linear actuator when comprehensive adding carrier (5) moves up and down (14) it is that V-arrangement back reaction rod (9) end bulb applies greatly load position and direction are accurate to test specimen.