CN109095386A - A kind of lift Self-loading-unloading power test mobile platform - Google Patents

Abstract

The present invention relates to lift Self-loading-unloading power test mobile platforms, it includes the platform body for carrying the power test complete set of equipments of a variety of different type different voltages grades, elevating mechanism, wherein elevating mechanism includes the lifting unit for driving platform body elevating movement on transport vehicle or ground, it can be unfolded or that collapses is arranged in platform body opposite sides and for the support unit by platform body support on the ground, wherein lifting unit itself can collapse upwards setting to the bottom for stating platform body, mobile platform further includes the vehicle wheel component that platform body bottom is arranged in.The present invention can be on the basis of safe and reliable and structure be simple and is not necessarily to crane and substation out of service, by going up and down the scheme isolated with support, the Self-loading-unloading of realization power test equipment platform and movement and landing test, it is easy to implement, and occupied use space is small, while transport it is also very convenient.

Description

A kind of lift Self-loading-unloading power test mobile platform

Technical field

The present invention relates to a kind of power test ancillary equipment fields, and in particular to a kind of lift Self-loading-unloading power test shifting Moving platform.

Background technique

Debugging before (exchange 1000kV, direct current ± 800, ± 1100kV) project of transmitting and converting electricity puts into operation it is well known that extra-high voltage, The correlation test of commissioning test and operation and maintenance is carried out at ultra-high voltage transformer station scene.

It is complicated composition, bulky however, testing equipment output voltage is usually in 1000kV or more, it is therefore desirable at It covers power test equipment and realizes integrated self-contained mobile platform (length is usually 6-10 meters, 10 tons of weight or more), with convenient transportation And scene uses.But behind platform vehicle-mounted running to the scene, needing to unload is used on ground, also needs to fill after the test Vehicle, is dependent on large-scale crane operation, and scene is extremely inconvenient.

Meanwhile the substation for being currently running, security regulations do not allow crane to enter the station operation, therefore, and need to increase Power off time.

In order to solve the above technical problems, it is common imagination be to platform be arranged one group can horizontal spreading hydraulic pressure support Leg realizes loading-unloading vehicle to jack up platform.But the height of platform loading-unloading vehicle, in 1.5m or so, hydraulic support leg is difficult to put down Platform drops to ground and reaches working condition.On the other hand, each supporting leg has to be completely synchronized, and absolutely there can be no in lifting process A certain supporting leg failure or stuck.Otherwise it will cause the inclination of platform, or even have the danger toppled.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of improved lift Self-loading-unloading power test mobile platform, It can pass through lifting and branch on the basis of safe and reliable and structure is simple and is not necessarily to crane and substation out of service Support isolated scheme, the Self-loading-unloading of realization power test equipment platform and movement and landing test.

In order to solve the above technical problems, the present invention adopts the following technical scheme:

A kind of lift Self-loading-unloading power test mobile platform comprising for carrying a variety of different type different voltages grades The platform body of power test complete set of equipments, positioned at platform body bottom and for driving platform body to go up and down along vertical direction The elevating mechanism of movement, wherein elevating mechanism includes the lifting for driving platform body elevating movement on transport vehicle or ground Unit can be unfolded or that collapses is arranged in platform body opposite sides and for by platform body support support on the ground Unit, wherein lifting unit itself can collapse upwards setting to the bottom for stating platform body, and mobile platform further includes that setting exists The vehicle wheel component of platform body bottom,

When mobile platform is in Self-loading-unloading state, support unit is in unfolded state, and lifting unit collapses and is hung on transport The top of the platform floor of vehicle；

When mobile platform, which is in, walks or land use state, support unit is in rounding state, and lifting unit is collapsed and hanged It is located at the platform floor of transport vehicle or the top on ground.

Preferably, lifting unit includes lifting pedestal, between lifting pedestal and platform body and in platform body The scissor-type support arm of length direction opposite sides, the actuator for driving the opposite expansion of scissor-type support arm or collapsing, In, when platform body is supported unit or vehicle wheel component and supports, scissor-type support arm is opposite to be collapsed, and lifting pedestal is to platform sheet Body bottom is close and is detached from platform floor or ground.

Specifically, lifting unit at least one group, when for two or more sets, two or more sets lifting units are along flat Platform body length direction is spaced apart.That is, the quantity of lifting unit is to carry out matched, sheet according to platform body length In example, lifting unit has two groups.

A specific implementation according to the present invention and preferred aspect, support unit include turningly being arranged around horizontal direction In multiple telescopic support legs of platform body two sides, for each telescopic support legs to be locked in gathering or the locking of unfolded state Component, wherein telescopic support legs can be along the flexible setting in length direction, when in the unexpanded configuration, telescopic support legs water It is flat to extend and be arranged against the side of platform body length direction；When in the expanded state, telescopic support legs are perpendicular to ground Direction extends and is erected on the ground of platform floor length direction outer side edges.

Preferably, telescopic support legs include the extension skid beam to extend along platform body width direction, by shaft rotation The supporting leg of extension skid beam outer end is set, and wherein extension skid beam can be extracted out outward along length direction or inwardly be promoted Setting in the platform body bottom.

Preferably, locked component includes the first lock that external position in platform body is stretched out or promoted for locking extension skid beam Determine part, the second locking piece for shaft to be locked in horizontal or vertical state.

Specifically, for supporting leg under the locking of the second locking piece, it is vertical to be located in when telescopic support legs are in unfolded state State is simultaneously set up on the ground, and extension skid beam is locked in by the first locking piece stretches out outside the platform body, and supporting leg and compartment 30 ~ 100cm of the distance between length direction side.

Another specific implementation according to the present invention and preferred aspect, supporting leg include the leg ontology being connected in shaft, set Set in leg ontology one end and can extend into or out along leg body length direction the support leg and driving of this inside and outside of leg The driving assembly of the flexible length of support leg, wherein the driving method of driving assembly is manual, electric or mechanical transmission.Specifically Embodiment can pass through gear or worm and gear etc. structure.

Preferably, supporting leg further includes the overturning balance counterweight that leg ontology the other end is arranged in, wherein overturning balance is matched Pouring weight is wholely set with leg ontology, and is extended along leg body length direction.The main purpose being arranged in this way is: so that supporting leg exists It is very laborsaving in switching process.

In addition, mobile platform further includes that multiple platform bodies that can adjust of platform body bottom are arranged in horizontal The leveling support leg of state, when mobile platform is in landing use state or transportational process, multiple leveling support legs are by mobile platform It is supported on ground or platform floor；

When mobile platform is in moving condition, leveling support leg shrinks away from ground or platform floor upwards, and is in ground Or the top of platform floor.So, by the setting of vehicle wheel component, the movement of platform may be implemented.

Due to the implementation of above technical scheme, the invention has the following advantages over the prior art:

The present invention can pass through on the basis of safe and reliable and structure is simple and is not necessarily to crane and substation out of service The scheme isolated with support, the Self-loading-unloading of realization power test equipment platform and movement and landing test are gone up and down, it is easy to implement, and Occupied use space is small, while transport is also very convenient.

Detailed description of the invention

Fig. 1 is schematic front view when mobile platform of the invention is in vehicle wheel component landing and can be with moving condition；

Fig. 2 is schematic front view when mobile platform of the invention is in lifting state；

Fig. 3 is the schematic front view that mobile platform of the invention is in extension holding state；

Fig. 4 is the schematic top plan view of Fig. 3；

Fig. 5 is that mobile platform of the invention is in support of extending, lifting unit collapses, transport vehicle can pass in and out platform lower state Schematic front view；

Fig. 6 is the master that mobile platform of the invention enters platform lower state in support of extending, lifting unit gathering, transport vehicle Depending on schematic diagram；

Fig. 7 is the schematic top plan view of Fig. 6；

Fig. 8 is the schematic front view that mobile platform of the invention is in that support unit takes in mesa base state；

Fig. 9 is the schematic top plan view of Fig. 8；

Figure 10 is schematic front view when mobile platform of the invention is in travel position；

Wherein: 1, platform body；2, elevating mechanism；21, lifting unit；210, lifting pedestal；211, scissor-type support arm；22, Support unit；220, telescopic support legs；A, extension skid beam；A1, sleeve；A2, extension rod；B, shaft；C, supporting leg；C1, leg ontology； C2, support leg；C3, driving assembly；C4, overturning balance counterweight；221, locked component；221a, the first locking piece；221b, Two locking pieces；3, transport vehicle；30, platform floor；4, vehicle wheel component；40, wheel；5, support leg is leveled.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing with specific reality Mode is applied to be described in detail the present invention.Many details are explained in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case where violating intension of the present invention, therefore the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on the figure or Positional relationship is merely for convenience of description of the present invention and simplification of the description, rather than the device or element of indication or suggestion meaning must There must be specific orientation, be constructed and operated in a specific orientation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be mechanical connect It connects, is also possible to be electrically connected；It can be directly connected, can also can be in two elements indirectly connected through an intermediary The interaction relationship of the connection in portion or two elements, unless otherwise restricted clearly.For those of ordinary skill in the art For, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In invention unless specifically defined or limited otherwise, fisrt feature can be in the second feature " on " or " down " First and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature is Two features " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of the One characteristic level height is higher than second feature.Fisrt feature can be first under the second feature " below ", " below " and " below " Feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be with It is directly to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " level ", "upper", "lower", "left", "right" and similar statement for illustrative purposes only, be not offered as being uniquely to implement Mode.

As shown in Figure 1, this example provides lift Self-loading-unloading power test mobile platform comprising for carrying a variety of differences The platform body 1 of the power test complete set of equipments of type different voltages grade, positioned at 1 bottom of platform body and for driving platform The elevating mechanism 2 of the elevating movement along vertical direction of ontology 1.

Specifically, elevating mechanism 2 include for drive the lifting unit 21 of the elevating movement on transport vehicle 3 of platform body 1, For platform body 1 and lifting unit 21 to be set up support unit 22 on the ground, wherein lifting unit 21 can also be to flat 1 bottom of playscript with stage directions body collapses and is detached from the setting of platform floor 30 of transport vehicle 3, and the setting that support unit 22 can be unfolded or collapse exists 1 opposite sides of platform body.

The mobile platform further includes the vehicle wheel component 4 that 1 bottom of platform body is arranged in, when mobile platform is erected at transport vehicle When on 3 platform floor 30 or ground, lifting unit 21 separates and is in the top of platform floor 30, support with platform floor 30 Unit 22 is in rounding state, mobile platform mobile setting under the auxiliary of vehicle wheel component 4.

Lifting unit 21 includes lifting pedestal 210, between lifting pedestal 210 and platform body 1 and in platform sheet The scissor-type support arm 211 of 1 length direction opposite sides of body, the drive for driving the opposite expansion of scissor-type support arm 21 or collapsing Moving part, when wherein platform body 1 is supported unit 22 or the support of vehicle wheel component 4, scissor-type support arm 211 is opposite to be collapsed, and is risen Drop pedestal 210 is close to 1 bottom of platform body and is detached from platform floor 30.Here, being directed to scissor-type support arm and actuator Set-up mode, may refer to the fork type elevator or scissor-type lifting platform of this field routine, belong to conventional means, herein Its specific configuration and principle are not illustrated.

In this example, according to the length of platform body 1, lifting unit 21 has two groups, and equal along 1 length direction of platform body It is even to be spaced apart.

Support unit 22 includes multiple telescopic support legs that 1 two sides of platform body are turningly arranged in around horizontal direction 220, for each telescopic support legs 220 to be locked in the locked component 221 of gathering or unfolded state, wherein telescopic support legs 220 along the flexible setting in length direction, when in the unexpanded configuration, 220 horizontal extension of telescopic support legs and can abut The side of 1 length direction of platform body is arranged；When in the expanded state, telescopic support legs 220 extend perpendicular to ground direction And it is erected on the ground of 30 length direction outer side edges of platform floor.Here, explaining unfolded state and rounding state, work as place When unfolded state, mainly mobile platform is unloaded or loaded to transport vehicle from transport vehicle, therefore, has to set up It is just able to achieve on the ground；When being in rounding state, mainly considers width when transport and not will form obstacle, maximize Using the space between platform body and platform floor, keep its volume smaller, and then convenient transportation.

Specifically, telescopic support legs 220 include extending along 1 width direction of platform body and capable of being extracted out or promoted platform Extension skid beam a inside and outside ontology 1, the supporting leg c that the outer end extension skid beam a is rotatably arranged on by shaft b.It is slided herein by extending Beam a setting, is primarily to facilitate the steady expansion of telescopic support legs 220.

In this example, supporting leg c includes the leg ontology c1 being connected on shaft b, setting in leg ontology c1 one end and being capable of edge Leg ontology c1 length direction extends into or out support leg c2 inside and outside leg ontology c1, driving support leg c2 stretches the driving of length The component c3 and overturning balance counterweight c4 that the other end leg ontology c1 is arranged in collapses shape when telescopic support legs 220 are in When state, the setting of supporting leg c balance is located at 1 inside of platform body or sets with flushing on the outside of platform body on extension skid beam a It sets.Here, applicant explains the rounding state of supporting leg, the width in compartment is considered first, under normal circumstances, supporting leg will not It emerges the outside of platform body；Secondly, by the setting of overturning balance counterweight, mainly more labor-saving operation supporting leg is turned over Turn.

Specifically, driving assembly c3 can pass through gear or worm and gear etc. structure.As for flexible length, often A supporting leg is adjustable according to actual ground flatness, it is ensured that mobile platform unloaded from transport vehicle after stability.

Extension skid beam a includes the sleeve a1 for being located in 1 bottom of platform body, the flexible extension rod being arranged in sleeve a1 a2。

Locked component 221 includes the first locking that external position in platform body 1 is stretched out or promoted for locking extension skid beam a Part, the second locking piece 221b for pivot b axis to be locked in horizontal or vertical state.Wherein the first locking piece 221a is by sleeve a1 It is opposite with extension rod a2 to lock.

Specifically, the first locking piece 221a and the second locking piece 221b can use common lock pin mode and ability The conventional means in domain, are not described in detail herein.

Meanwhile when telescopic support legs 220 are in unfolded state, supporting leg c is under the locking of the second locking piece 221b, positioning It in vertical state and sets up on the ground, extension skid beam a is locked in by the first locking piece 221a to be stretched out outside platform body 1, and is propped up The distance between leg c and car length direction side 40cm.As for the setting of distance, need to satisfy two conditions:: 1, in self-chambering During unloading, stability be must assure that；2, it is readily transported pouring into for vehicle.

Then, mobile platform further includes that multiple platform bodies that can adjust of 1 bottom of platform body are arranged in level The leveling support leg 5 of state, when mobile platform is in landing use state or transportational process, multiple leveling support legs will be mobile flat Platform is supported on ground or platform floor；When mobile platform is in moving condition, leveling support leg shrinks away from ground upwards Or platform floor, and the top in ground or platform floor.So, it by the setting of vehicle wheel component, may be implemented to put down The movement of platform.

Therefore, the setting for leveling support leg 5 plays very big effect in transportational process or landing use.

In addition, vehicle wheel component 4 includes the multiple groups wheel 40 positioned at 1 opposite sides of platform body, and is located at platform in this example The one end wheel 40 of 1 length direction of ontology is universal wheel, and the wheel 40 positioned at middle part is directional wheel.

Then, although above-mentioned text does not write the move mode of mobile platform exactly, the move mode in this example can be Passively, it is also possible to active, belongs to conventional means, therefore be not related to.

Meanwhile for the layout of extension skid beam a, referring specifically to the extension skid beam a dislocation point shown in Fig. 3 and 4, positioned at two sides In this example, 3 groups of telescopic support legs 220 are distributed with along 1 length direction of platform body, every group of telescopic support legs 22 include position in cloth Then two telescopic support legs 220 in two sides, and every group of two 220 relative misalignments of telescopic support legs are located at platform body The telescopic support legs 220 at 1 length direction both ends are arranged close to from extension skid beam a phase, one group of telescopic support legs positioned at middle part 220 are spaced setting from extension skid beam a, manipulate, will can also transport in opposite directions between every group of two extension skid beam a for convenience It is dynamic, it is synchronous to extract out or simultaneously advance, it can be with independent control, to meet the expansion under different industrial and minerals, it is ensured that the stability of support.

For above-mentioned mobile platform, specific implementation process is as follows:

Platform is unloaded: as shown in Figures 1 to 5, transport vehicle to scene is positioned on hard surface and is come to a complete stop, and brake flameout puts down compartment All wallboards release the locking between mobile platform and compartment, connect the power supply of hydraulic workstation, operation fork hydraulic lifting Platform body 1 is slightly lifted (such as 10-20cm) by machine (namely lifting unit), at this time in the support of scissor-type support arm 211 Under, (as shown in Figure 2) is erected in floor compartment 3 from lifting pedestal 210；Then extension skid beam a is unlocked, by support telescopic leg Outside 220 horizontal extraction platform bodies 1, and after the distance 40cm apart from compartment, extension skid beam a is locked and stops movement, then, solution Shaft to be locked, and downwardly turns over support telescopic leg 220, then shaft is locked, support telescopic leg 220 is in perpendicular to the state of ground, Then make each supporting leg c support on the ground (as shown in Figure 3 and Figure 4) by operating driving assembly c3；To each supporting leg c branch After support is stablized, by the gathering of lifting unit, that is, the gathering of scissor-type support arm 211, lifting pedestal 210 is moved upwards simultaneously It is detached from floor compartment 30, is separated completely with mobile platform at this point, transport vehicle can be driven out to, self-unloading is completed.

Platform entrucking: as shown in Fig. 6 to Figure 10, the lower section of platform body 1 is poured by the compartment of transport vehicle, and be in two sides Between support telescopic leg 220 (as shown in Figure 6 and Figure 7), then, lifting unit expansion, lifting pedestal 210 is transported to platform floor 30 It is dynamic, it is formed and is supported by scissor-type support arm 211, at this point, mobile platform is erected at platform floor 30 by lifting unit 21 On, then supporting leg c retracted for clearance (be detached from ground), and unlock spindle lock and be flipped up surely, so that support telescopic leg 220 is in water It is flat-shaped, shaft is then locked again, and unlock extension skid beam a, entire support telescopic leg 220 is pushed away to the inside of platform body 1 Into then locking extension skid beam a(is as shown in Figure 8 and Figure 9)；Following lifting unit 21 collapses, mobile platform decline, Zhi Daoche Wheel assembly 4 is erected on platform floor 30, and then scissor-type support arm 211 continues to collapse, and lifting pedestal 210 is moved upwards and taken off From floor compartment 30, at this point, entire mobile platform can move on platform floor 30, wait move under the action of vehicle wheel component 4 It moves to when needing position, by locking opposite between mobile platform and compartment, rolls up cab wall and lock, entrucking can be completed (as shown in Figure 10).

In addition, directly wheel can be positioned, Huo Zhetong when mobile platform is in and transports or land use state It crosses leveling support leg 5 and carries out positioning support, by vehicle wheel component 4 is hanging or vehicle wheel component 4 is supported on support leg 5 is leveled jointly On platform floor or ground；Simultaneously when mobile platform is in moving condition, lifting unit, support unit are in and level branch The equal rounding state of support foot.

The present invention is described in detail above, its object is to allow the personage for being familiar with this field technology that can understand this The content of invention is simultaneously implemented, and it is not intended to limit the scope of the present invention, all Spirit Essence institutes according to the present invention The equivalent change or modification of work, should be covered by the scope of protection of the present invention.

Claims (10)

1. a kind of lift Self-loading-unloading power test mobile platform comprising for carrying a variety of different type different voltages grades Power test complete set of equipments platform body, positioned at the platform body bottom and for drive the platform body along The elevating mechanism of vertical direction elevating movement, it is characterised in that: the elevating mechanism includes for driving the platform body The lifting unit of elevating movement, the setting that can be unfolded or collapse are in the platform body opposite sides on transport vehicle or ground And for the support unit by platform body support on the ground, wherein the lifting unit itself can be stated to described Setting is collapsed in the bottom of platform body upwards, and the mobile platform further includes the wheel group that the platform body bottom is arranged in Part,

When the mobile platform is in Self-loading-unloading state, the support unit is in unfolded state, the lifting unit Collapse and be hung on the top of the platform floor of the transport vehicle；

When the mobile platform, which is in, walks or land use state, the support unit is in rounding state, described Lifting unit collapses and is hung on the platform floor of the transport vehicle or the top on ground.

2. lift Self-loading-unloading power test mobile platform according to claim 1, it is characterised in that: the lifting list Member includes lifting pedestal, between the lifting pedestal and the platform body and in the platform body length direction phase To the scissor-type support arm of two sides, for driving the opposite actuator being unfolded or collapse of the scissor-type support arm, wherein described Platform body when being supported by the support unit or the vehicle wheel component, the scissor-type support arm is opposite to be collapsed, institute The lifting pedestal stated is close to the platform body bottom and is detached from the platform floor or ground.

3. lift Self-loading-unloading power test mobile platform according to claim 2, it is characterised in that: the lifting list First at least one group, when for two or more sets, this two or more sets described in lifting unit along the platform body length Direction is spaced apart.

4. lift Self-loading-unloading power test mobile platform according to claim 1, it is characterised in that: the support list Member includes multiple telescopic support legs that the platform body two sides are turningly arranged in around horizontal direction, for will be each described Telescopic support legs be locked in the locked component of gathering or unfolded state, wherein the telescopic support legs can be along from height It spends the flexible setting in direction, when in the unexpanded configuration, the telescopic support legs horizontal extension and abuts the platform body length The side in direction is arranged；When in the expanded state, the telescopic support legs extend perpendicular to ground direction and are erected at institute On the ground for stating platform floor length direction outer side edges.

5. lift Self-loading-unloading power test mobile platform according to claim 4, it is characterised in that: the flexible branch Support leg includes being rotatably arranged on the extension skid beam along the extension skid beam of platform body width direction extension, by shaft The supporting leg of outer end, wherein the setting that the extension skid beam can be extracted out outward along length direction or inwardly be promoted exists The platform body bottom.

6. lift Self-loading-unloading power test mobile platform according to claim 5, it is characterised in that: the locking group Part includes stretching out or promoting the first locking piece of external position in the platform body for locking the extension skid beam, be used for institute State the second locking piece that shaft is locked in horizontal or vertical state.

7. lift Self-loading-unloading power test mobile platform according to claim 5 or 6, it is characterised in that: when described When telescopic support legs are in unfolded state, the supporting leg is located in vertical state and frame under the locking of second locking piece If on the ground, the extension skid beam is locked in and stretches out outside the platform body by first locking piece, and the supporting leg 30 ~ 100cm of the distance between car length direction side.

8. lift Self-loading-unloading power test mobile platform according to claim 7, it is characterised in that: the supporting leg packet The leg ontology being connected in the shaft is included, the leg ontology one end is set and can be along the leg body length side To the driving assembly of the support leg and the flexible length of the driving support leg that extend into or out this inside and outside of leg, wherein The driving method of the driving component is manual, electric or mechanical transmission.

9. lift Self-loading-unloading power test mobile platform according to claim 8, it is characterised in that: the supporting leg is also Overturning balance counterweight including described leg ontology the other end is arranged in, wherein the overturning balance counterweight with it is described Leg ontology is wholely set, and is extended along the leg body length direction.

10. lift Self-loading-unloading power test mobile platform according to claim 1, it is characterised in that: the movement Platform further includes multiple leveling that can be adjusted the platform body and be in horizontality that the platform body bottom is arranged in Support leg, when the mobile platform is in landing use state or transportational process, multiple leveling support legs are by the movement Platform is on ground or the platform floor；

When the mobile platform is in moving condition, the leveling support leg shrinks away from ground or the compartment bottom upwards Plate, and the top in ground or the platform floor.