CN206644716U - Car transporter - Google Patents

Abstract

The utility model provides a kind of car transporter, including upper mounting plate and lower platform, and upper mounting plate is connected with lower platform by lowering or hoisting gear, and lowering or hoisting gear includes the first lifting unit and the second lifting unit.In the first lifting unit, the first actuator can drive anterior auxiliary support arm to be rotated in perpendicular, and then drive front support arm to be rotated in perpendicular and can in the horizontal direction slide and lift and translate upper mounting plate stem；In the second lifting unit, the second actuator can drive the back support arm to be rotated in perpendicular and lift upper mounting plate afterbody.When upper mounting plate lifts and tilts, fork structure is formed in lowering or hoisting gear, the fork structure can provide strong support for upper mounting plate front and rear part, so as to improve the bulk strength of upper mounting plate and stability, the middle part of upper mounting plate is set to save corresponding lifting structure, the fork structure is simple, from heavy and light, while complete vehicle structure is simplified, the deadweight of vehicle is also significantly reduced.

Description

Car transporter

Technical field

Technical field of vehicle is the utility model is related to, more particularly to a kind of car transporter.

Background technology

The means of transport generally used in China vehicle transport market at present is double-layer frame formula car transporter.In order to full The entrucking of sufficient different automobile types is needed, and the height of upper platform can be adjusted.Simultaneously in order to complete the loading of upper strata vehicle, on Layer platform needs to form heeling condition.

Existing frame-type car transporter lifts using the upper mounting plate that is implemented in combination with of column and oil cylinder.Specifically, More columns are provided with below upper platform, uprights vertical is connected on vehicle body.In the column of upper platform stem Portion is provided with oil cylinder, and the end of cylinder piston rod is connected with sliding block, outrigger shaft, the end of outrigger shaft and upper mounting plate are connected with sliding block Connection.When the piston rod of oil cylinder stretches out upwards, sliding block, which slides, drives outrigger shaft to move up, so that upper platform stem Rising.

Being inverted positioned at the inside of the column of upper platform afterbody has oil cylinder, and the end of cylinder piston rod is connected with movable pulley Axle center, fixed pulley are arranged on the upper end of column, and steel wire rope one end of assembly pulley is fixed on column, and the other end connects with upper mounting plate Connect.Moved by the flexible drive movable pulley of piston rod, it is possible to achieve the lifting of upper platform, and can be by upper platform afterbody Lifting travel amplification so that upper platform tilt.

Although existing car transporter can realize the lifting and inclination of upper platform, the lifting by said mechanism Mechanism complicated integral structure, platform from great.

Utility model content

The utility model solve technical problem be：How the same of car transporter bulk strength and elevating function is being ensured When, simplify complete vehicle structure, reduce vehicle deadweight.

In order to solve the above technical problems, the utility model provides a kind of car transporter, including upper mounting plate and lower platform, should The both sides of car transporter respectively set one group of lowering or hoisting gear, and the upper mounting plate and the lower platform are connected by the lowering or hoisting gear Connect, the lowering or hoisting gear includes：First lifting unit, the side of the upper mounting plate stem is disposed adjacent to, first lifting is single Member is crotch formula elevating mechanism, and the top of the crotch formula elevating mechanism is connected with the upper mounting plate and can slided in the horizontal direction Dynamic, the bottom of the crotch formula elevating mechanism is connected with the lower platform, the crotch formula elevating mechanism including it is multiple can be relative The connecting rod for folding or deploying a, wherein connecting rod can drive the crotch formula elevating mechanism to fold or deploy to translate and lift institute State upper mounting plate stem；Second lifting unit, the side of the upper mounting plate afterbody is disposed adjacent to, after second lifting unit includes Portion's support arm and the second actuator, top and the upper mounting plate of the back support arm are rotatably coupled, the rear portion branch The bottom of brace is rotatably coupled with the lower platform, and one end of second driver element and the lower platform are rotationally Connection, and be arranged at intervals with the bottom of the back support arm, the other end of second actuator is rotatably connected to institute State on back support arm and drive the back support arm to be rotated in perpendicular and lift the upper mounting plate afterbody.

Preferably, first lifting unit includes three connecting rods, respectively front support arm, anterior auxiliary support arm and First actuator；The top of the front support arm is slidably attached on the upper mounting plate in the horizontal direction, the front portion The bottom of support arm is flexibly connected with the lower platform enables the front support arm to be rotated in perpendicular, the front portion One end of auxiliary support arm is rotatably connected on the front support arm, and the other end is rotationally connected with the lower platform, institute The one end and the lower platform for stating the first actuator are rotatably coupled, and first actuator, front support arm, anterior auxiliary The link position of support arm and the lower platform is helped mutually to stagger, the other end of first actuator is rotatably connected to institute State in anterior auxiliary support arm and the anterior auxiliary support arm can be driven to be rotated in perpendicular.

Preferably, first lifting unit includes two connecting rods, respectively front support arm and the first actuator, described The top of front support arm is slidably attached on the upper mounting plate in the horizontal direction, the bottom of the front support arm and institute Stating lower platform and being flexibly connected enables the front support arm to be rotated in perpendicular, one end of first actuator and institute State lower platform to be rotatably coupled, and the link position of first actuator, front support arm and the lower platform is mutually wrong Open, the other end of first actuator is rotatably connected on the front support arm, and can drive the front support arm Rotated in perpendicular.

Preferably, the anterior auxiliary support arm is in bending, and the end of first actuator is rotatably connected to The bending place of the anterior auxiliary support arm；The anterior auxiliary support arm and the link position of the front support arm are located at institute State the middle part of front support arm.

Preferably, first actuator is arranged between the front support arm and the anterior auxiliary support arm；Institute State the link position and institute of the link position, first actuator of front support arm and the lower platform with the lower platform The link position for stating anterior auxiliary support arm and the lower platform is located along the same line and mutually staggered.

Preferably, the top of the front support arm has been rotatably coupled the first sliding part, and the upper mounting plate is provided with First slide rail, first slide rail are arranged on the upper mounting plate in the horizontal direction, and first sliding part can be along described first Slide rail slides.

Preferably, the second slide rail arranged in the horizontal direction is provided with the lower platform and can be slided along second slide rail The second dynamic sliding part, the bottom of the front support arm are rotatably connected on second sliding part.

Preferably, first slide rail and second slide rail are located in same perpendicular, the length of first slide rail Length of the degree more than second slide rail.

Preferably, second slide rail is provided with the stop part for the bottom sliding stroke for limiting the front support arm.

Preferably, first actuator is hydraulic cylinder, and first actuator includes the first cylinder body and First piston bar, institute The bottom and the lower platform for stating the first cylinder body are rotatably coupled, and the top of the First piston bar is rotatably connected to institute State in anterior auxiliary support arm.

Preferably, the junction of the back support arm and lower platform is higher than second actuator and the lower platform The link position of junction, second actuator and the back support arm is close to the top of the back support arm.

Preferably, second actuator is hydraulic cylinder, and second actuator includes the second cylinder body and second piston bar, institute The bottom and the lower platform for stating the second cylinder body are rotatably coupled, and the top of the second piston bar is rotatably connected to institute State on back support arm.

Preferably, the upper mounting plate is Integral-type platform；The lower platform includes the gooseneck positioned at the lower platform stem Portion, the gooseneck portion are provided with the towing plate for being used for installing tractor, and first lifting unit is arranged in gooseneck portion side Corresponding towing plate position, the both sides of the lower platform afterbody are provided with walking mechanism installing plate, the second lifting unit cloth Put in the position of the corresponding walking mechanism installing plate of the lower platform afterbody side.

As shown from the above technical solution, the beneficial effects of the utility model are：

First lifting unit and the second lifting unit are fork rack and panel construction in car transporter of the present utility model.When upper When lifting platform and inclination, the fork structure can provide strong support for upper mounting plate front and rear part, upper flat so as to improve The bulk strength and stability of platform, the middle part of upper mounting plate is set to save corresponding lifting structure, the fork structure is simple, deadweight Gently, while complete vehicle structure is simplified, the deadweight of vehicle is also significantly reduced.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model car transporter embodiment.

Fig. 2 is the structural representation of the first lifting unit in the utility model car transporter embodiment.

Fig. 3 is the structural representation of the second lifting unit in the utility model car transporter embodiment.

Description of reference numerals is as follows：1st, car transporter；11st, upper mounting plate；111st, the first slide rail；12nd, lower platform；121st, lead Corbel back slab；122nd, walking mechanism installing plate；123rd, the second slide rail；124th, the second sliding part；13rd, the first lifting unit；131st, it is anterior Support arm；132nd, anterior auxiliary support arm；133rd, the first actuator；1331st, the first cylinder body；1332nd, First piston bar；134th, One sliding part；14th, the second lifting unit；141st, back support arm；142nd, the second actuator；1421st, the second cylinder body；1422nd, Two piston rods.

Embodiment

Embodying the exemplary embodiment of the utility model features and advantages will describe in detail in the following description.It should be understood that Be that the utility model can have various changes in different embodiments, it does not all depart from model of the present utility model Enclose, and explanation therein and diagram are treated as purposes of discussion in itself, and be not used to limit the utility model.

In order to further illustrate principle and structure of the present utility model, it is preferable to carry out in conjunction with accompanying drawing to of the present utility model Example is described in detail.

The utility model provides a kind of car transporter, including upper mounting plate and lower platform, and upper mounting plate and lower platform are available In the vehicle that loading is to be transported.The both sides of car transporter respectively set one group of lowering or hoisting gear, and upper mounting plate and lower platform pass through lifting Device connects.The lowering or hoisting gear includes the first lifting unit and the second lifting unit, the first lifting unit and the second lifting unit Cooperate and the lifting and inclination of upper mounting plate can be achieved.

Specifically, the first lifting unit is disposed adjacent to the side of upper mounting plate stem.First lifting unit is crotch formula Elevating mechanism, the top of crotch formula elevating mechanism are connected with upper mounting plate and can slided in the horizontal direction, crotch formula elevating mechanism Bottom is connected with lower platform, and the crotch formula elevating mechanism includes multiple connecting rods can be folded against or deployed, wherein a connecting rod Crotch formula elevating mechanism can be driven to fold or deploy to translate and lift upper mounting plate stem.

Second lifting unit is disposed adjacent to the side of upper mounting plate afterbody, second lifting unit include back support arm and Second actuator.The top of back support arm is rotatably coupled with upper mounting plate, and bottom and the lower platform of back support arm can turn Connecting dynamicly, one end and the lower platform of the second driver element are rotatably coupled, and are arranged at intervals with the bottom of back support arm, The other end of second actuator is rotatably connected on back support arm and drives the back support arm to turn in perpendicular Move and lift upper mounting plate afterbody.

Refering to Fig. 1, the upper mounting plate 11 of the present embodiment is Integral-type platform, when upper mounting plate 11 tilts, vehicle to be transported The front end of upper mounting plate 11 can directly be reached.Lower platform 12 includes setting positioned at the gooseneck portion of the stem of lower platform 12, gooseneck portion There is the towing plate 121 for installing tractor, the both sides of the afterbody of lower platform 12 are provided with walking mechanism installing plate 122.

In the present embodiment, the first lifting unit 13 is arranged in the position of the corresponding towing plate 121 of gooseneck portion side, and second Lifting unit 14 is arranged in the position of the corresponding walking mechanism installing plate 122 of the afterbody side of lower platform 12.Such a arrangement can Reduce the length of the beam with overhanging ends of upper mounting plate 11, can effectively improve the stressing conditions of the end of upper mounting plate 11, lift upper mounting plate The security of 11 carryings.Further, since gooseneck portion is relatively near apart from upper mounting plate 11, the first lifting unit 13, which is arranged here, to be had Shorten the movement travel of its driving structure in effect ground.

Further, the first lifting unit 13 includes three connecting rods, respectively front support arm 131, anterior Auxiliary support The actuator 133 of arm 132 and first.The top of front support arm 131 is slidably attached on upper mounting plate 11 in the horizontal direction, preceding The bottom of portion's support arm 131 is flexibly connected with lower platform 12 enables front support arm 131 to be rotated in perpendicular, anterior auxiliary One end of support arm 132 is helped to be rotatably connected on front support arm 131, the other end is rotationally connected with lower platform 12, and first One end of actuator 133 is rotatably coupled with lower platform 12, and the first actuator 133, front support arm 131, anterior auxiliary The link position of support arm 132 and lower platform 12 mutually staggers, and the other end of the first actuator 133 is rotatably connected to front portion In auxiliary support arm 132 and anterior auxiliary support arm 132 can be driven to be rotated in perpendicular, and then pass through anterior Auxiliary support Arm 132, which rotates, to be driven front support arm 131 to be rotated in perpendicular and can slide in the horizontal direction and flat on lifting and translating The stem of platform 11.

Second lifting unit 14 includes the actuator 142 of back support arm 141 and second.The top of back support arm 141 with Upper mounting plate 11 is rotatably coupled, and bottom is rotatably coupled with lower platform 12.One end of second driver element and lower platform 12 It is rotatably coupled, and is arranged at intervals with the bottom of back support arm 141, the other end of the second actuator 142 rotationally connects It is connected on back support arm 141 and drives the back support arm 141 to be rotated in perpendicular and lift the afterbody of upper mounting plate 11.

First actuator 133 can be that front support arm 131 and anterior auxiliary support arm 132 provide drive when in running order Power, front support arm 131 is set to be rotated in perpendicular and lift the top of front support arm 131, it is upper flat so as to realize The lifting of the stem of platform 11.Second actuator 142 can be that back support arm 141 provides driving force and make its rotation when in running order And the top of back support arm 141 is lifted, so as to realize the lifting of the afterbody of upper mounting plate 11.Pass through the actuator of Synchronization Control first 133 and second actuator 142,11 horizontal raising and lowering of upper mounting plate can be made.When the first actuator 133 is in off working state, And when the second actuator 142 is in running order and the dextrorotation of driving back support arm 141 transfers to make its top decline（I.e. When two actuators 142 mutually fold with support arm）, the afterbody of upper mounting plate 11 declines therewith, and simultaneously upper mounting plate 11 is along dampening Square to translating backward, until the tail end of upper mounting plate 11 landing and inclined with ground, reaches and is easy to above and below vehicle to be transported The function of the upper mounting plate 11.

When the top of upper mounting plate 11 is risen, the first actuator 133 forms crotch knot with anterior auxiliary support arm 132 Structure, and anterior auxiliary support arm 132 forms fork structure with front support arm 131；When the second driver element drives back support When arm 141 turns to the rise of the rear portion of upper mounting plate 11, the second driver element forms fork structure with back support arm 141.Namely Say, when upper mounting plate 11 rises, the first lifting unit 13 and the second lifting unit 14 form fork structure, for before upper mounting plate 11 Rear portion provides strong support, so as to improve the bulk strength of upper mounting plate 11 and stability, enables the middle part of upper mounting plate 11 Corresponding lifting structure is enough saved, the structure of the crotch in itself is simple in addition, from heavy and light, while complete vehicle structure is simplified, Significantly reduce the deadweight of vehicle.

Specifically, refering to Fig. 2, first actuator 133 of the present embodiment can be hydraulic cylinder, and the hydraulic cylinder includes the first cylinder body 1331 and First piston bar 1332.The bottom of first cylinder body 1331 is rotatably coupled with lower platform 12, First piston bar 1332 Top be rotatably coupled in anterior auxiliary support arm 132.The flexible of First piston bar 1332 can drive anterior Auxiliary support Arm 132 rotates in perpendicular, so as to drive front support portion to be rotated in perpendicular, with front support arm 131 Rotate, the top of front support arm 131 lifts, so as to drive the lifting of the stem of upper mounting plate 11.

It can be seen that in the first lifting unit 13, the contraction of First piston bar 1332 moves anterior auxiliary support arm 132, from And the lifting on the top of front support arm 131 is driven, hydraulic cylinder is to drive front support indirectly by anterior auxiliary support arm 132 Arm 131.Thus the first lifting unit 13 is relatively low to the range demands of hydraulic cylinder, using small-sized hydraulic cylinder, can reduce The weight and production cost of whole device.First actuator 133 in addition to the hydraulic cylinder of the present embodiment, can also be electric pushrod, Cylinder, screw lift etc..

In the present embodiment, anterior auxiliary support arm 132 and the link position of front support arm 131 are located at front support arm 131 middle part.First actuator 133 is arranged between front support arm 131 and anterior auxiliary support arm 132, and front support The junction and anterior auxiliary support arm 132 of the junction of arm 131 and lower platform 12, the first actuator 133 with lower platform 12 It is located along the same line with the junction of lower platform 12.First lifting unit 13 of this sample embodiment is ensureing that hydraulic cylinder is shorter It while stroke, can be more compactly distributed on lower platform 12 again, reduce it and occupied between upper mounting plate 11 and lower platform 12 Space.

More preferably, the anterior auxiliary support arm 132 of the present embodiment is in bending, and the top of First piston bar 1332 is rotatable Ground is connected to the bending place of anterior auxiliary support arm 132.It is such be arranged on reduce hydraulic cylinder stroke while, can be effective Ground ensures the lifting force of hydraulic cylinder, it is ensured that upper mounting plate 11 stably lifts.

Referring still to Fig. 2, the top of the present embodiment middle front part support arm 131 has been rotatably coupled the first sliding part 134, The first slide rail 111 is flatly provided with upper mounting plate 11.First sliding part 134 can slide along the first slide rail 111, to realize anterior branch The top of brace 131 is slidably attached on upper mounting plate 11 in the horizontal direction.First sliding part 134 can be sliding block or cunning Wheel, the first slide rail 111 can be the slide rail being adapted with sliding block or pulley.

The bottom of front support arm 131 is flexibly connected with lower platform 12, in the present embodiment, the bottom of front support arm 131 End is rotatablely connected with lower platform 12, also relative to the slip of the occurred level of lower platform 12.Specifically, lower platform 12 is provided with along water Square to arrangement the second slide rail 123 and along the second slide rail 123 slide the second sliding part 124.Second slide rail 123 and first is slided Rail 111 is located in same perpendicular, and the bottom of front support arm 131 is rotatably connected on the second sliding part 124.Second Sliding part 124 slides in the second slide rail 123, can make the bottom of front support arm 131 relative to the occurred level of lower platform 12 Slide.

When the first actuator 133 drives anterior auxiliary support arm 132 to rotate, the top and bottom of front support arm 131 The displacement of equal occurred level, and the two displacement is in opposite direction.It is single so as to be lifted in the first lifting unit of simultaneously operating 13, second Member 14 and when making 11 raising and lowering of upper mounting plate, can be offset using the opposite sliding displacement of the upper and lower side of front support arm 131 Sliding before and after upper mounting plate 11, it is ensured that upper mounting plate 11 will not produce horizontal displacement in lifting process, enable upper mounting plate 11 Vertically carry out raising and lowering.

The stop part of the bottom sliding stroke of restricted front support arm 131 is set on second slide rail 123 of the present embodiment, Specifically, the stop part can be latch or block.When needing upper mounting plate 11 being tuned into heeling condition（Need in upper mounting plate 11 During loading vehicles）, the second actuator 142 drive the second lifting unit 14 fold, the afterbody of upper mounting plate 11 decline.Now due to gravity Effect, upper mounting plate 11 drive the first slide rail 111 to slide backward, the top of front support arm 131 along the forward slip of the first slide rail 111, At the same time, the bottom of front support arm 131 is slided backward along the second slide rail 123, and gear is contradicted after certain stroke is slid into Stop member.Now front support arm 131 bottom stop slide, and the top of front support arm 131 still can along the first slide rail 111 to Front slide, so that upper mounting plate 11 can backward slide and be tilted down while sliding, it is ensured that upper mounting plate 11 is stably sent out It is raw to tilt and be maintained at inclined state, so as to facilitate the loading of vehicle on upper mounting plate 11.

It is preferred that the length of first slide rail 111 of the present embodiment is more than the length of the second slide rail 123.Such a setting can be protected The bottom for demonstrate,proving front support arm 131 contradict stop part and it is limited after, the top of front support arm 131 on the first slide rail 111 still With sliding stroke, upper mounting plate 11 can be made to slide longer distance relative to the first lifting unit 13 and realize movement, so as to really Protecting the afterbody of upper mounting plate 11 can fall completely.

Refering to Fig. 3, second actuator 142 of the present embodiment is hydraulic cylinder, and the hydraulic cylinder includes the second cylinder body 1421 and the Two piston rods 1422.The bottom of second cylinder body 1421 is rotatably coupled with lower platform 12, and the top of second piston bar 1422 can Rotationally it is connected on back support arm 141, and the link position of the two is close to the top of back support arm 141.Back support The actuator 142 of arm 141 and second can form the fork structure of triangle between upper mounting plate 11 and lower platform 12, ensure upper mounting plate 11 afterbody stably raising and lowering, it is the strong support of offer in transit of the raised configuration of upper mounting plate 11.

In order that its afterbody can be entirely fallen within lower platform 12 when upper mounting plate 11 is in heeling condition, the present embodiment postmedian The junction of support arm 141 and lower platform 12 is higher than the junction of the second actuator 142 and lower platform 12.The afterbody of upper mounting plate 11 Entirely fall within lower platform 12, the loading of upper platform vehicle can be easy to.

In some other preferably embodiment, the first lifting unit includes two connecting rods, respectively front support arm and First actuator.The top of front support arm is slidably attached on upper mounting plate in the horizontal direction, the bottom of front support arm Being flexibly connected with lower platform enables front support arm to be rotated in perpendicular, and one end and the lower platform of the first actuator can turn Connect dynamicly, and the link position of the first actuator, front support arm and lower platform mutually staggers, the other end of the first actuator It is rotatably connected on front support arm, and front support arm can be driven to be rotated in perpendicular and realize upper mounting plate stem Lifting and translation.

First actuator can provide driving force when in running order for front support arm, front support arm is being put down vertically Rotation in surface and lift the top of front support arm, so as to realize the lifting of upper mounting plate stem.After the second actuator drives When the top of portion's support arm declines, the afterbody of upper mounting plate also declines therewith, and now upper mounting plate occurs relative to the first lifting unit Sliding, make upper mounting plate inclined until the tail end of upper mounting plate is fallen.

In addition, crotch formula elevating mechanism can also be the scissors fork structure of X-type, as it includes the support arm of two cross-articulations At least one is connected to the hydraulic cylinder on support arm.Hydraulic cylinder can provide driving force for support arm, make two support arms vertical Rotation with surface, so as to realize the lifting of upper mounting plate stem and translation.

It should be noted that the rotation connection in the utility model can be specifically be hinged, pivot joint etc., it can also be existing Other attachment structures of rotation can be realized in technology.

Although describing the utility model with reference to several exemplary embodiments, it is to be understood that, term used is to say Bright and exemplary and nonrestrictive term.Because the utility model can be embodied without departing from practicality in a variety of forms New is spiritual or substantive, it should therefore be appreciated that above-mentioned embodiment is not limited to any foregoing details, and should be in right of enclosing It is required that widely explained in the spirit and scope limited, thus whole changes for falling into claim or its equivalent scope and Remodeling all should be appended claims and be covered.

Claims (13)

1. a kind of car transporter, including upper mounting plate and lower platform, it is characterised in that the both sides of the car transporter respectively set one Group lowering or hoisting gear, the upper mounting plate are connected with the lower platform by the lowering or hoisting gear, and the lowering or hoisting gear includes：

First lifting unit, the side of the upper mounting plate stem is disposed adjacent to, first lifting unit is crotch formula lift Structure, the top of the crotch formula elevating mechanism are connected with the upper mounting plate and can slided in the horizontal direction, the crotch formula lifting The bottom of mechanism is connected with the lower platform, and the crotch formula elevating mechanism includes multiple connecting rods can be folded against or deployed, A wherein connecting rod can drive the crotch formula elevating mechanism to fold or deploy to translate and lift the upper mounting plate stem；

Second lifting unit, the side of the upper mounting plate afterbody is disposed adjacent to, second lifting unit includes back support arm With the second actuator, top and the upper mounting plate of the back support arm are rotatably coupled, the bottom of the back support arm End is rotatably coupled with the lower platform, and one end and the lower platform of second driver element are rotatably coupled, and It is arranged at intervals with the bottom of the back support arm, the other end of second actuator is rotatably connected to the rear portion branch In brace and the back support arm is driven to be rotated in perpendicular and lift the upper mounting plate afterbody.

2. car transporter according to claim 1, it is characterised in that first lifting unit includes three connecting rods, Respectively front support arm, anterior auxiliary support arm and the first actuator；In the horizontal direction may be used on the top of the front support arm It is slidably connected on the upper mounting plate, the bottom of the front support arm is flexibly connected with the lower platform makes the anterior branch Brace can rotate in perpendicular, and one end of the anterior auxiliary support arm is rotatably connected in the front support arm On, the other end is rotationally connected with the lower platform, and one end and the lower platform of first actuator are rotatably coupled, It is described and first actuator, front support arm, anterior auxiliary support arm and the link position of the lower platform mutually stagger The other end of first actuator is rotatably connected in the anterior auxiliary support arm and can drive the anterior Auxiliary support Arm rotates in perpendicular.

3. car transporter according to claim 1, it is characterised in that first lifting unit includes two connecting rods, Respectively front support arm and the first actuator, the top of the front support arm are slidably attached at described in the horizontal direction On upper mounting plate, the bottom of the front support arm is flexibly connected with the lower platform enables the front support arm putting down vertically Rotation in surface, one end and the lower platform of first actuator are rotatably coupled, and first actuator, anterior branch Brace and the link position of the lower platform mutually stagger, and the other end of first actuator is rotatably connected in the front portion On support arm, and the front support arm can be driven to be rotated in perpendicular.

4. car transporter according to claim 2, it is characterised in that the anterior auxiliary support arm is in bending, institute The end for stating the first actuator is rotatably connected to the bending place of the anterior auxiliary support arm；The anterior auxiliary support arm It is located at the middle part of the front support arm with the link position of the front support arm.

5. car transporter according to claim 2, it is characterised in that first actuator is arranged in the anterior branch Between brace and the anterior auxiliary support arm；The link position of the front support arm and the lower platform, described first drive Moving part and the link position of the link position of the lower platform and the anterior auxiliary support arm and the lower platform are located at same Stagger on one straight line and mutually.

6. car transporter according to claim 2, it is characterised in that the top of the front support arm rotationally connects The first sliding part is connected to, the upper mounting plate is provided with the first slide rail, and first slide rail is arranged in described flat in the horizontal direction On platform, first sliding part can slide along first slide rail.

7. car transporter according to claim 6, it is characterised in that cloth in the horizontal direction is provided with the lower platform The second slide rail put and the second sliding part that can be slided along second slide rail, the bottom of the front support arm rotationally connects It is connected on second sliding part.

8. car transporter according to claim 7, it is characterised in that first slide rail and second slide rail are located at In same perpendicular, the length of first slide rail is more than the length of second slide rail.

9. car transporter according to claim 7, it is characterised in that second slide rail, which is provided with, limits the front portion The stop part of the bottom sliding stroke of support arm.

10. car transporter according to claim 2, it is characterised in that first actuator is hydraulic cylinder, and this first Actuator includes the first cylinder body and First piston bar, and bottom and the lower platform of first cylinder body are rotatably coupled, institute The top for stating First piston bar is rotatably connected in the anterior auxiliary support arm.

11. car transporter according to claim 1, it is characterised in that the connection of the back support arm and lower platform Place is higher than the junction of second actuator and the lower platform, the connection of second actuator and the back support arm It is located proximate to the top of the back support arm.

12. car transporter according to claim 1, it is characterised in that second actuator is hydraulic cylinder, and this second Actuator includes the second cylinder body and second piston bar, and bottom and the lower platform of second cylinder body are rotatably coupled, institute The top for stating second piston bar is rotatably connected on the back support arm.

13. car transporter according to claim 1, it is characterised in that the upper mounting plate is Integral-type platform；Under described Platform is included positioned at the gooseneck portion of the lower platform stem, and the gooseneck portion is provided with the towing plate for being used for installing tractor, described First lifting unit is arranged in the position of the corresponding towing plate of gooseneck portion side, and the both sides of the lower platform afterbody are provided with row Mechanism's installing plate is walked, second lifting unit is arranged in the position of the corresponding walking mechanism installing plate of the lower platform afterbody side Put.