CN106918278B - A kind of suspension system installation point cubing - Google Patents

Abstract

The present invention provides a kind of suspension system installation point cubings, including pedestal, the first sliding rail, the second sliding rail, third sliding rail, the 4th sliding rail, the first traveller and the second traveller, pedestal includes sleeve, and the first end of the first sliding rail enters in sleeve and is suitable for moving up and down and capable of being fixed by first fixed structure；Second sliding rail is vertical with the first sliding rail to be connect, suitable for sliding and can be fixed on the first sliding rail by the second fixed structure；Third sliding rail is connect with the second end of the first sliding rail, is respectively perpendicular with the extending direction of the second sliding rail, the first sliding rail；The both ends of second sliding rail are separately connected at least first traveller, and the first traveller is suitable for sliding along the second sliding rail, and is suitable for moving up and down and capable of being fixed by third fixed structure；The both ends of third sliding rail are connected separately at least one second traveller, and the second traveller is suitable for sliding along third sliding rail, and is suitable for moving up and down and capable of being fixed.Suspension system installation point cubing provided by the invention can be used for detecting the vehicle body of sizes, flexible higher.

Description

A kind of suspension system installation point cubing

Technical field

The present invention relates to technical field of vehicle, in particular to a kind of suspension system installation point cubing.

Background technique

With booming and national life level the increasingly raising of automobile industry, different purposes, different sizes Car category it is more and more, so the power assembly system of different size is also more and more.What engine and gearbox formed Power assembly system itself be in one vibration source can cause automobile zero also by from external various vibration interferences The damage of component and seating it is uncomfortable etc., need to be arranged the vibration that suspension system is transmitted to power assembly system supporting system It is reduced to bottom line.If the distance between the installation point of the power assembly system mounting bracket on vehicle body does not meet design and wants It asks, power assembly system cannot be smoothly installed on vehicle, it is therefore desirable to whether be met using cubing inspection installation point design It is required that.The power assembly system of different size also causes the installation point cubing of suspension system to need different specifications.And different rule Production, assembly, the correction of the installation point cubing of lattice, higher cost, if while repeatedly switch cubing in process of production, will affect Production efficiency.Therefore a kind of installation point cubing suitable for plurality of specifications size, flexible higher suspension system is designed.

Suspension system installation point cubing currently on the market may be only available for the suspension system peace of one or several kinds of specifications The detection decorateeed needs replacing cubing for the dynamical system of a variety of different sizes, and relatively complicated, efficiency is lower.

Summary of the invention

In view of this, the present invention provides a kind of suspension system installation point cubing, it can be used for the suspension system of plurality of specifications size The detection for installation point of uniting, it is flexible higher.

Specifically, including technical solution below:

The present invention provides a kind of suspension system installation point cubing, including pedestal, the first sliding rail, the second sliding rail, third are sliding Rail, the 4th sliding rail, the first traveller and the second traveller, wherein

The pedestal includes sleeve, and the first end of first sliding rail is with the sleeve connection and suitable in the sleeve It moves up and down and can be fixed by first fixed structure；Second sliding rail is vertical with first sliding rail to be connect, and described second is sliding Rail is suitable for sliding and capable of being fixed by the second fixed structure along first sliding rail；The of the third sliding rail and first sliding rail The connection of two ends, and the extending direction of the third sliding rail and second sliding rail, first sliding rail is respectively perpendicular；

The both ends of second sliding rail are connected separately at least one described first traveller, and first traveller is suitable for along institute The sliding of the second sliding rail is stated, and is suitable for moving up and down and capable of being fixed by third fixed structure；

The both ends of the third sliding rail are connected separately at least one described second traveller, and second traveller is suitable for along institute The sliding of third sliding rail is stated, and is suitable for moving up and down and capable of being fixed.

Selectively, the suspension system installation point cubing further includes the 4th sliding rail, the 4th sliding rail and the third Sliding rail vertically connects, and the 4th sliding rail is suitable for sliding and capable of being fixed by the 4th fixed structure on the third sliding rail；

The both ends of 4th sliding rail are separately connected second traveller, and second traveller is suitable for along the described 4th Sliding rail movement, and be suitable for moving up and down and capable of being fixed by the 5th fixed structure.

Selectively, the suspension system installation point cubing further includes support base, and the support base is connect with the pedestal, The support base is connected with multiple castors far from the pedestal on one side.

Selectively, the first fixed structure include the first threaded hole opened up on the sleeve and with first spiral shell The matched bolt of pit.

Selectively, second fixed structure includes the first sliding block, the first groove opened up on first sliding block, One through-hole, the second threaded hole and with the bolt matched with the second threaded hole, wherein

First sliding block is covered on first sliding rail by the first through hole, and first groove is located at described the On two faces with the central axis of the first through hole of one sliding block, second threaded hole is connected to the first through hole And central axis；

Second sliding rail includes two, and the end of one end of each second sliding rail is fastened on described first respectively In groove, first sliding block is fixed on described by second threaded hole by the bolt matched with the second threaded hole On one sliding rail.

Selectively, the third fixed structure includes the second sliding block, the second through-hole opened up on second sliding block, Three through-holes, third threaded hole and bolt matched with the third threaded hole, wherein

The center line of second through-hole and the third through-hole is orthogonal, and the third threaded hole and the third are logical Hole connection；

Second sliding block is covered on second sliding rail by second through-hole, and first traveller is suitable for described It moves up and down in third through-hole, the bolt matched with the third threaded hole is by the third threaded hole by described second Traveller is fixed on second sliding block.

Selectively, the 4th fixed structure includes third sliding block, the second groove opened up on the third sliding block, Four through-holes, the 4th threaded hole and bolt matched with the 4th threaded hole, wherein

The third sliding block is covered on the third sliding rail by the fourth hole, and second groove is located at described the On two faces with the central axis of the fourth hole of three sliding blocks, the 4th threaded hole is connected to the fourth hole And central axis；

4th sliding rail includes two, and the end of one end of each the 4th sliding rail is fastened on described second respectively In groove, the third sliding block is fixed on institute by the 4th threaded hole by the bolt matched with the 4th threaded hole It states on third sliding rail.

Selectively, the 5th fixed structure includes Four-slider, the fifth hole opened up on the Four-slider, Six through-holes, the 5th threaded hole and bolt matched with the 5th threaded hole, wherein

The Four-slider is covered on the 4th sliding rail by the fifth hole, the fifth hole and the described 6th The center line of through-hole is orthogonal, and the 5th threaded hole is connected to the 6th through-hole and center line is orthogonal；

Second traveller is fixed on by the bolt matched with the 5th threaded hole by the 5th threaded hole On the Four-slider.

Selectively, second sliding rail, the third sliding rail, the 4th sliding rail, first traveller and described Scale is respectively arranged on two travellers.

Selectively, one end close to the pedestal of first traveller and second traveller is connected separately with positioning Pin.

Technical solution provided in an embodiment of the present invention the utility model has the advantages that

The present invention provides a kind of suspension system installation point cubing, including pedestal, the first sliding rail, the second sliding rail, third are sliding Rail, the 4th sliding rail, the first traveller and the second traveller.When checking the installation point of suspension system, cubing is moved to body of a motor car peace Fill the place of suspension system and fixation, according to suspension system or so installation point, the height of front and back installation point, adjust the first sliding rail into Enter height of the length and the second sliding rail in the sleeve of pedestal on the first sliding rail and fixed by first fixed structure and second Structure is fixed.When checking the left and right installation point of suspension system, the position of second traveller of one end of third sliding rail is first adjusted, by the Second traveller of three sliding rail one end is stuck in installation point, is then adjusted the position of the second traveller of the third sliding rail other end, is made it It is stuck in installation point, and the second traveller and third sliding rail is fixed.The length of the third sliding rail between two the second travellers is measured, As the distance between left and right installation point calculates the difference of the length of the second traveller between left and right installation point and third sliding rail, Difference in height as between the installation point of left and right.When checking the installation point before and after vehicle body, the second sliding rail wherein one end is first adjusted First traveller is stuck in the installation point in front by the position of the first traveller, is then adjusted the position of the first traveller of the other end, is made It is stuck in the installation point at rear, is fixed the first traveller and the second sliding rail by third fixed structure.Measure two first cunnings The length of the second sliding rail between column, as the distance between front and back installation point；Measure the installation point in front and the installation at rear The length of the first traveller between point and the second sliding rail, and computational length difference is to get the installation for the installation point and rear for arriving front The difference in height of point.Obtained value is compared with critical field, that is, can determine the suspension system on vehicle body installation point whether It is qualified.Suspension system installation point cubing provided by the invention, the position of the first sliding rail, the second sliding rail, the first traveller, the second traveller It is all adjustable, therefore the detection for the suspension system installation point being applicable on various sizes of vehicle body, it is flexible higher.

Detailed description of the invention

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is a kind of structural schematic diagram of suspension system installation point cubing in one embodiment of the invention；

Fig. 2 is the structural schematic diagram that the second traveller, the 4th sliding rail are connect with third sliding rail in one embodiment of the invention；

Fig. 3 is the structural schematic diagram that the first traveller is connect with the second sliding rail in one embodiment of the invention.

Appended drawing reference in figure is respectively as follows:

1, pedestal；2, the first sliding rail；3, the second sliding rail；4, the first sliding block；5, the second sliding block；6, third sliding rail；7, the 4th Sliding rail；8, the first traveller；9, the second traveller；10, third sliding block；11, Four-slider；12, bolt；13, bolt；14, bolt； 15, bolt；16, bolt；17, support base；18, castor；19, positioning pin；20, positioning pin.

Specific embodiment

To keep technical solution of the present invention and advantage clearer, below in conjunction with attached drawing to embodiment of the present invention make into One step it is described in detail.

One embodiment of the invention provides a kind of suspension system installation point cubing, as shown in Figure 1, including that pedestal 1, first is sliding Rail 2, the second sliding rail 3, third sliding rail 6, the 4th sliding rail 7, the first traveller 8 and the second traveller 9, wherein pedestal 1 includes sleeve, the The first end of one sliding rail 2 is with sleeve connection and suitable for moving up and down and can be fixed in sleeve by first fixed structure；Second is sliding Rail 3 is vertical with the first sliding rail 2 to be connect, and the second sliding rail 3 is suitable for sliding and capable of being fixed by the second fixed structure on the first sliding rail 2； Third sliding rail 6 is connect with the second end of the first sliding rail 2, and the extending direction point of third sliding rail 6 and the second sliding rail 3, the first sliding rail 2 It is not vertical；The both ends of second sliding rail 3 are separately connected at least first traveller 8, and the first traveller 8 is suitable for sliding along the first sliding rail 2, And it is suitable for moving up and down and capable of being fixed by third fixed structure；The both ends of third sliding rail 6 are connected separately at least one second cunning Column 9, the second traveller 9 are suitable for sliding along third sliding rail 6, and are suitable for moving up and down and capable of being fixed.

It is when checking the installation point of suspension system using suspension system installation point cubing provided in this embodiment, cubing is mobile Place and fixation to body of a motor car installation suspension system, according to the height tune of suspension system or so installation point, front and back installation point Save the height on the first sliding rail 2 of length and the second sliding rail 3 that the first sliding rail 2 enters in the sleeve of pedestal 1 and respectively by the One fixed structure and the second fixed structure are fixed.When checking the left and right installation point of suspension system, third sliding rail 6 is first adjusted The position of second traveller 9 of one end, the second traveller 9 is stuck in installation point, and then the position of the second traveller 9 of the other end, makes Second traveller 9 at the end is stuck in installation point, and the second traveller 9 is fixed with third sliding rail 6.Measure two the second travellers The length of third sliding rail 6 between 9, as the distance between left and right installation point；Measure respectively the installation point on the left side and the right with The length of the second traveller 9 between third sliding rail 6, can obtain the difference in height of left and right installation point.Installation before and after checking vehicle body When point, the position of the second sliding rail 3 wherein first traveller 8 of one end is first adjusted, the first traveller 8 is stuck in the installation point in front, Then the position for adjusting the first traveller 8 of the other end, is stuck in it in installation point at rear, by third fixed structure by first Traveller is fixed with the second sliding rail.The length of the second sliding rail 3 between two the first travellers 8 is measured, as between the installation point of front and back Distance；The length of the first traveller 8 between the installation point in front and the installation point and the second sliding rail 3 at rear is measured, and is calculated Length difference to get to front installation point and rear installation point difference in height.Obtained value is compared with critical field, Can determine whether the installation point of the suspension system on vehicle body is qualified.Suspension system installation point cubing provided in this embodiment, the One sliding rail 2, the second sliding rail 3, the first traveller 8, the second traveller 9 position be all adjustable, therefore be applicable to different sizes Vehicle body on suspension system installation point detection, it is flexible higher.

In the present embodiment, the first end of the first sliding rail 2 can enter in the sleeve of pedestal 1 and be suitable in sleeve fortune up and down It is dynamic, it is also possible to the first sliding rail 2 and is designed as sleeve, pedestal 1 is adapted to enter into the second sliding rail 2 and is suitable for moving up and down.

As an improvement of this embodiment, suspension system installation point cubing further includes the 4th sliding rail 7, the 4th sliding rail 7 with Third sliding rail 6 vertically connects, and the 4th sliding rail 7 is suitable for sliding and capable of being fixed by the 4th fixed structure on third sliding rail 6；4th is sliding The both ends of rail 7 are separately connected second traveller 9, and the second traveller 9 is suitable for moving along the 4th sliding rail 7, and be suitable for moving up and down and It can be fixed by the 5th fixed structure.In this way, first adjusting the 4th of 6 one end of third sliding rail when detecting the installation point of vehicle body or so The position of second traveller 9 on sliding rail 7 makes it be caught in an installation point on the vehicle body left side, then adjusts the same end again The position of another the second traveller 9 on four sliding rails 7 makes it be caught in another installation point on the left side, passes through the two of measurement left side The distance between a installation point and the 4th sliding rail 7 and calculating difference, can be obtained the difference in height between two installation points on the left side. The difference in height between two installation points on the right similarly can be obtained.

In the present embodiment, it is illustrated so that the both ends of the second sliding rail 3 are separately connected first traveller 8 as an example, but this It invents without being limited thereto.When the installation point of the front and back of vehicle body difference is more than one, can also be separately connected at the both ends of the second sliding rail 3 5th sliding rail, and two the first travellers 8 are separately connected at the both ends of each 5th sliding rail, to can measure the peace of front or back Difference in height between decorateeing.

As an improvement of this embodiment, suspension system installation point cubing further includes support base 17, support base 17 and bottom Seat 1 connects, and the separate pedestal 1 of support base 17 is connected with multiple castors 18 on one side.In this way, passing through support base 17 for suspension system Installation point cubing is fixed on the position of body of a motor car installation power assembly, and the castor 18 connected on support base 17 facilitates suspension system The movement of installation point cubing.

As an improvement of this embodiment, the second sliding rail 3, third sliding rail 6, the 4th sliding rail 7, the first traveller 8 and second Scale is respectively arranged on traveller 9.In this way, by the scale on the second sliding rail 3 of reading, third sliding rail 6, it can be learnt that front and back two The distance between two installation points of a installation point and left and right, by the scale on the first traveller 8 of reading and the second traveller 9, then are counted Calculated altitude is poor, it can be learnt that two installation points on the left side, two installation points, the left side and the installation point on the right on the right, front with Difference in height between the installation point of back is more convenient quick.

As an improvement of this embodiment, as shown in Figure 1-3, the close pedestal 1 of the first traveller 8 and the second traveller 9 One end is connected separately with positioning pin 20 and positioning pin 19.First traveller 8 can be fixed in installation point by positioning pin 20, be passed through 19 second traveller 9 of positioning pin is fixed in installation point, thus the fortune relatively of the first traveller 8 of limitation and the second traveller 9 and installation point It is dynamic, convenient for measurement.In the present embodiment, positioning pin 19 and positioning pin 20 can be vertebra localization pin, so as to expand use scope.

As an improvement of this embodiment, first fixed structure may include the first screw thread for opening up on the sleeve of pedestal 1 Hole and bolt 15 matched with the first threaded hole.As shown in Figure 1, bolt 15 passes through the first threaded hole for pedestal 1 and the first sliding rail 2 The part of close first end be attached.However, the present invention is not limited thereto can also be in sleeve when the first sliding rail 2 is cylinder Inner wall on screw thread is set, screw thread is set on the outer wall of the first sliding rail 2, thus the first sliding rail 2 can by screw thread and pedestal 1 into Row connection, and the length that the first sliding rail 2 enters sleeve is adjusted by the first sliding rail 2 of rotation.

As an improvement of this embodiment, as depicted in figs. 1 and 2, the second fixed structure includes including 4 He of the first sliding block The first groove, first through hole, the second threaded hole and the bolt 14 matched with the second threaded hole opened up on first sliding block 4.First Sliding block 4 is covered on the first sliding rail 2 by first through hole, and the first groove is located at the vertical with the center line of first through hole of the first sliding block 4 On two straight faces, the second threaded hole is connected to first through hole and central axis；Second sliding rail 3 includes two, each the The end of one end of two sliding rails 3 is fastened on respectively in the first groove, and bolt 14 matched with the second threaded hole passes through the second screw thread First sliding block 4 is fixed on the first sliding rail 2 by hole.In this way, needing to adjust the second sliding rail 3 in the height on the first sliding rail 2, It can be adjusted by mobile first sliding block 4, after regulating the relative position of the second sliding rail 3 and the first sliding rail 2, bolt 14 is logical It crosses the second threaded hole the second sliding rail 3 and the first sliding rail 2 are fixed, limits the relative motion of the two.But the present invention is not limited to This, the threaded hole that can also be opened up through-hole on the second sliding rail 3 and be connected to through-hole, the second sliding rail 3 is set in first by through-hole On sliding rail 2, the second sliding rail 3 is fixed on the first sliding rail 2 by matched bolt by threaded hole.It can be not provided with the first sliding block at this time 4, and use second sliding rail 3.

As an improvement of this embodiment, as shown in figures 1 and 3, third fixed structure includes the second sliding block 5, second The second through-hole, third through-hole, third threaded hole and the bolt 16 matched with third threaded hole being arranged on sliding block 5, wherein second The center line of through-hole and third through-hole is orthogonal, and third threaded hole and third through-hole communicate with one another；Second sliding block 5 passes through second Through-hole is set on the second sliding rail 3, and the first traveller 8 is suitable for moving up and down in third through-hole, spiral shell matched with third threaded hole Second traveller 8 is fixed on the second sliding block 5 by bolt 16 by third threaded hole.As such, it is desirable to which it is sliding second to adjust the first traveller 8 When position on rail 3, by mobile second sliding block 5, first is adjusted by movement of first traveller 8 in third through-hole The height of traveller 8, behind the position for regulating the first traveller 8, the first traveller 8 is fixed on the by third threaded hole by bolt 16 On two sliding blocks 5, to can avoid the relative motion of the first traveller 8 and the second sliding rail 3, convenient for reading the scale on the first traveller 8 Value.However, the present invention is not limited thereto can also open up first open slot parallel with extending direction on the second sliding rail 3 and open with first Second open slot of mouthful slot connection, the first traveller 8 can the extending direction in the first open slot along the second sliding rail 3 move, can also It moves up and down, to adjust the first traveller 8 relative to the relative position of the second sliding rail 3 and the height of the first traveller 8, is adjusting When the position of first traveller 8 needs fixed, the first traveller 8 can be fastened on the second sliding rail 3 by bolt by the second open slot.

As an improvement of this embodiment, as depicted in figs. 1 and 2, the 4th fixed structure includes third sliding block 10, third The second groove, fourth hole, the 4th threaded hole and the bolt 13 matched with the 4th threaded hole opened up on sliding block 10, wherein the Three sliding blocks 10 are covered on third sliding rail 6 by fourth hole, and the second groove is located at the center line with fourth hole of third sliding block 6 On two vertical faces, the 4th threaded hole is connected to fourth hole and central axis；4th sliding rail 7 includes two, each The end of one end of the 4th sliding rail 7 is fastened on respectively in the second groove, and bolt 13 matched with the 4th threaded hole passes through the 4th spiral shell Third sliding block 10 is fixed on third sliding rail 6 by pit.In this way, needing to adjust position of the 4th sliding rail 7 on third sliding rail 6 When, mobile third sliding block 10, after regulating the position of the 4th sliding rail 7, bolt 13 is sliding by third by the 4th threaded hole Block 10 is fixed on third sliding rail 6, limits the relative motion of third sliding rail 6 and the 4th sliding rail 7, convenient for reading scale.But this hair It is bright without being limited thereto, the through-hole vertical with extending direction can also be opened up on the 4th sliding rail 7, the 4th sliding rail 7 is set in by through-hole On third sliding rail 6, it can be not provided with third sliding block 10 at this time, and use the 4th sliding rail 7.

As an improvement of this embodiment, as depicted in figs. 1 and 2, the 5th fixed structure includes Four-slider the 11, the 4th Fifth hole, the 6th through-hole, the 5th threaded hole and the bolt 12 matched with the 5th threaded hole opened up on sliding block 11, wherein the Four-slider 11 is covered on the 4th sliding rail 11 by fifth hole, and the center line of fifth hole and the 6th through-hole is orthogonal, and the 5th Threaded hole is connected to the 6th through-hole and center line is orthogonal；Bolt 12 matched with the 5th threaded hole will by the 5th threaded hole Second traveller 9 is fixed on Four-slider 11.In this way, leading to needing to adjust the second traveller 9 at the position on the 4th sliding rail 7 Crossing mobile Four-slider 11 can be realized；The height of the second traveller 9 is adjusted by movement of second traveller 9 in the 6th through-hole Degree, behind the position for regulating the second traveller 9, the second traveller 9 is fixed on the 4th sliding rail 7 by the 5th threaded hole by bolt 12 On, so as to limit the relative motion of the second traveller 9 and the 4th sliding rail 7, convenient for reading on the second traveller 9 and the 4th sliding rail 7 Scale value.However, the present invention is not limited thereto can also open up the third open slot parallel with extending direction and on the 4th sliding rail 7 Three open slots connection the 4th open slot, the second traveller 9 can the extending direction in third open slot along the 4th sliding rail 7 move, It can also move up and down, to adjust the first traveller 8 relative to the position of the 4th sliding rail 7 and the height of the second sliding rail 9.It is regulating When the position of the second sliding rail 9, the second traveller 9 can be fastened on the 4th sliding rail 7 by matched bolt by the 4th open slot.

The above is merely for convenience of it will be understood by those skilled in the art that technical solution of the present invention, not to limit The present invention.All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in this Within the protection scope of invention.

Claims (10)

1. a kind of suspension system installation point cubing, which is characterized in that including pedestal, the first sliding rail, the second sliding rail, third sliding rail, 4th sliding rail, the first traveller and the second traveller, wherein

The pedestal includes sleeve, and the first end of first sliding rail is with the sleeve connection and suitable for upper and lower in the sleeve It moves and can be fixed by first fixed structure；Second sliding rail is vertical with first sliding rail to be connect, and second sliding rail is suitable In along first sliding rail slide and can be fixed by the second fixed structure；The second end of the third sliding rail and first sliding rail Connection, and the extending direction of the third sliding rail and second sliding rail, first sliding rail is respectively perpendicular；

The both ends of second sliding rail are connected separately at least one described first traveller, and first traveller is suitable for along described the The sliding of two sliding rails, and be suitable for moving up and down and capable of being fixed by third fixed structure；

The both ends of the third sliding rail are connected separately at least one described second traveller, and second traveller is suitable for along described the The sliding of three sliding rails, and be suitable for moving up and down and capable of being fixed.

2. suspension system installation point cubing according to claim 1, which is characterized in that the suspension system installation point cubing It further include the 4th sliding rail, the 4th sliding rail is vertical with the third sliding rail to be connect, and the 4th sliding rail is suitable in the third It slides and can be fixed by the 4th fixed structure on sliding rail；

The both ends of 4th sliding rail are separately connected second traveller, and second traveller is suitable for along the 4th sliding rail Movement, and be suitable for moving up and down and capable of being fixed by the 5th fixed structure.

3. suspension system installation point cubing according to claim 1, which is characterized in that the suspension system installation point cubing It further include support base, the support base is connect with the pedestal, and being connected on one side for the separate pedestal of the support base is more A castor.

4. suspension system installation point cubing according to claim 1, which is characterized in that the first fixed structure includes institute State the first threaded hole opened up on sleeve and bolt matched with first threaded hole.

5. suspension system installation point cubing according to claim 1, which is characterized in that second fixed structure includes the The first groove for being opened up on one sliding block, first sliding block, first through hole, the second threaded hole and mating with second threaded hole Bolt, wherein

First sliding block is covered on first sliding rail by the first through hole, and it is sliding that first groove is located at described first On two faces with the centerline parallel of the first through hole of block, second threaded hole be connected to the first through hole and in Heart line is vertical；

Second sliding rail includes two, and the end of one end of each second sliding rail is fastened on first groove respectively Interior, first sliding block is fixed on described first by second threaded hole and slided by the bolt matched with the second threaded hole On rail.

6. suspension system installation point cubing according to claim 1, which is characterized in that the third fixed structure includes the The second through-hole for being opened up on two sliding blocks, second sliding block, third through-hole, third threaded hole and mating with the third threaded hole Bolt, wherein

The center line of second through-hole and the third through-hole is orthogonal, and the third threaded hole and the third through-hole connect It is logical；

Second sliding block is covered on second sliding rail by second through-hole, and first traveller is suitable in the third It moves up and down in through-hole, the bolt matched with the third threaded hole is by the third threaded hole by second traveller It is fixed on second sliding block.

7. suspension system installation point cubing according to claim 2, which is characterized in that the 4th fixed structure includes the The second groove for being opened up on three sliding blocks, the third sliding block, fourth hole, the 4th threaded hole and mating with the 4th threaded hole Bolt, wherein

The third sliding block is covered on the third sliding rail by the fourth hole, and it is sliding that second groove is located at the third On two faces with the centerline parallel of the fourth hole of block, the 4th threaded hole be connected to the fourth hole and in Heart line is vertical；

4th sliding rail includes two, and the end of one end of each the 4th sliding rail is fastened on second groove respectively Interior, the third sliding block is fixed on described by the 4th threaded hole by the bolt matched with the 4th threaded hole On three sliding rails.

8. suspension system installation point cubing according to claim 2, which is characterized in that the 5th fixed structure includes the The fifth hole that is opened up on Four-slider, the Four-slider, the 6th through-hole, the 5th threaded hole and mating with the 5th threaded hole Bolt, wherein

The Four-slider is covered on the 4th sliding rail by the fifth hole, the fifth hole and the 6th through-hole Center line it is orthogonal, the 5th threaded hole is connected to the 6th through-hole and center line is orthogonal；

Second traveller is fixed on described by the bolt matched with the 5th threaded hole by the 5th threaded hole On Four-slider.

9. suspension system installation point cubing described in -8 any items according to claim 1, which is characterized in that described second is sliding Scale is respectively arranged on rail, the third sliding rail, the 4th sliding rail, first traveller and second traveller.

10. suspension system installation point cubing described in -8 any items according to claim 1, which is characterized in that described first One end close to the pedestal of traveller and second traveller is connected separately with positioning pin.