CN106005012B - A kind of automobile and its vehicle frame - Google Patents

Abstract

The present invention relates to a kind of automobile and its vehicle frames.The automobile includes vehicle frame, vehicle frame includes frame body, frame body includes at least one longitudinal power transmission unit, longitudinal power transmission unit includes at least one driver's cabin longitudinal direction transfer beam and at least one preceding bridge longitudinal direction transfer beam, and intermediate transfer beam is connected between the rear end of at least one driver's cabin longitudinal direction transfer beam and corresponding preceding bridge longitudinal direction transfer beam.When high velocity impact occurs for automobile, impact force is transmitted to the rear end for driving longitudinal transfer beam from the front end for driving longitudinal transfer beam, before being transmitted to backward again in the transfer beam of bridge longitudinal direction, its elsewhere of front axle bracket body portion is passed to by preceding bridge longitudinal direction transfer beam again, front axle bracket body portion deforms, and absorbs collision energy, reduce the acceleration of automobile, the inertia force injury that driver is subject to is reduced, while reducing the deformation of the corresponding driver's cabin breast piece of driver's cabin, ensure that the living space of driver.

Description

A kind of automobile and its vehicle frame

Technical field

The present invention relates to a kind of automobile and its vehicle frames.

Background technology

With the rapid development of automobile industry, people are higher and higher to the security performance requirement of automobile, and automobile front collision is Most common accident pattern in motor-vehicle accident, automobile front collision are easy to cause compared with major injury to driver and passenger, especially in The most driver of front side.In order to protect the safety of automobile driver and passenger in preceding collision, energy-absorbing usually is set in the front of automobile Device.

For example, Authorization Notice No. is CN 204527323 U, a kind of entitled Chinese patent of vehicle frame discloses a kind of vehicle Frame, vehicle include vehicle frame, and vehicle frame includes front longitudinal beam（Relative to driver's cabin longitudinal direction transfer beam）And intermediate longitudinal girder（Bridge is vertical before being equivalent to To transfer beam）, the rear endergonic structure at the rear for being fixedly mounted on front longitudinal beam is equipped between front longitudinal beam and intermediate longitudinal girder, automobile is being sent out When colliding before death, rear endergonic structure can absorb collision energy, reduce the acceleration of vehicle, reduce the injury to driver and passenger. But the collision energy that rear endergonic structure absorbs is limited, when high velocity impact occurs for automobile, collision energy is big, and front longitudinal beam will collide Power passes to rear endergonic structure, and axial degeneration can occur rapidly for rear endergonic structure so that front longitudinal beam moves rapidly afterwards, this can be easy to Driver causes the inertia force increased injury.

Invention content

The purpose of the present invention is to provide a kind of vehicle frames to be easy with solving automobile driver in high impact by inertia The technical issues of power injures.The present invention also aims to provide a kind of automobile.

The technical solution of vehicle frame is in the present invention：A kind of vehicle frame, including frame body, frame body include at least one longitudinal power transmission list Member, longitudinal power transmission unit include at least one driver's cabin longitudinal direction transfer beam and at least one preceding bridge longitudinal direction transfer beam, at least one It is connected with intermediate transfer beam between the rear end of driver's cabin longitudinal direction transfer beam and corresponding preceding bridge longitudinal direction transfer beam.

Longitudinal power transmission unit includes bridge longitudinal direction transfer beam before at least two driver's cabin longitudinal direction transfer beams and at least two, longitudinal A driver's cabin longitudinal direction transfer beam in power transmission unit is the first driver's cabin longitudinal direction transfer beam, before one in longitudinal power transmission unit Bridge longitudinal direction transfer beam is bridge longitudinal direction transfer beam before first, and power transmission depth of beam in bridge longitudinal direction is longitudinally passed higher than the first driver's cabin before first Power beam, being connected to the intermediate transfer beam before the rear end and first of the first driver's cabin longitudinal direction transfer beam between the transfer beam of bridge longitudinal direction is First intermediate transfer beam.

A preceding bridge longitudinal direction power transmission for being highly less than bridge longitudinal direction transfer beam before first in longitudinal power transmission unit is bridge before second Longitudinal transfer beam, power transmission depth of beam in bridge longitudinal direction is less than the first driver's cabin longitudinal direction transfer beam before second, is connected to the first driver's cabin Intermediate transfer beam before the rear end of longitudinal transfer beam and second between the transfer beam of bridge longitudinal direction is the second intermediate transfer beam, in first Between the front end of transfer beam and the front end of the second intermediate transfer beam be all connected to the rear end of the first driver's cabin longitudinal direction transfer beam And constitute " people " font force transferring structure.

A driver's cabin longitudinal direction transfer beam for being highly less than the first driver's cabin longitudinal direction transfer beam in longitudinal power transmission unit is the Two driver's cabin longitudinal direction transfer beams, bridge longitudinal direction transfer beam is highly consistent before the second driver's cabin longitudinal direction transfer beam and second, and second drives The front end for sailing bridge longitudinal direction transfer beam before the rear end and second of room longitudinal direction transfer beam is connected to each other.

Longitudinal power transmission unit further includes being set up in parallel with the first driver's cabin longitudinal direction transfer beam and in sustained height the Three driver's cabin longitudinal direction transfer beams, the rear end of the rear end and third driver's cabin longitudinal direction transfer beam of the first driver's cabin longitudinal direction transfer beam It links together.

Frame body includes at least two longitudinal power transmission units being set up in parallel in left-right direction, the front end of each longitudinal direction power transmission unit Portion is correspondingly provided with energy absorber.

Frame body includes the first main beam of the front end for being connected to longitudinal power transmission unit, and driver is connected on the first main beam Structure is moved after seat, telephone-moving structure and longitudinal power transmission unit or so are set up in parallel after pilot set, and structure is moved after pilot set The main transfer beam that length including being connected to the first main beam rear end extends along the longitudinal direction, the rear end of main transfer beam is connected with seat The left and right sides of chair rear cross beam, main transfer beam is connected with gate beam by weak connection structure, and gate beam is located at first Between main beam and seat rear cross beam, after pilot set move structure further include front and rear ends be connected to gate beam and Seat mounting rail on seat rear cross beam.

Frame body further includes the second main beam being set on the downside of the first main beam, and the first main beam and the second main beam are upper and lower It is corresponding on direction, the front end of the first main beam and the second main beam and corresponding to main transfer beam front end be equipped with preceding bearing member, The upper end of first main beam is equipped with main vertical beam, and main vertical beam corresponds to the front end of main transfer beam, and the upper end of main vertical beam is equipped with upper beam, The diagonal brace to turn forward from top to bottom is equipped at left and right sides of main vertical beam, the upper/lower terminal of diagonal brace is connected to upper beam On preceding bearing member.

Frame body further includes the second main beam being set on the downside of the first main beam, and the first main beam and the second main beam are upper and lower Corresponding on direction, the downside of main transfer beam is equipped with steering gear safeguard structure, and steering gear safeguard structure includes time interval setting Preceding bottom end rail and rear bottom end rail, mounting structure for installing steering gear is equipped between preceding bottom end rail and rear bottom end rail, it is front lower The position of front end on crossbeam corresponding to two lower longerons is correspondingly provided with two preceding vertical beams, and the upper end of preceding vertical beam is connected to the second master The lower end of crossbeam.

The technical solution of automobile is in the present invention：Automobile includes vehicle frame, and vehicle frame includes frame body, and frame body includes at least one vertical To power transmission unit, longitudinal power transmission unit includes at least one driver's cabin longitudinal direction transfer beam and at least one preceding bridge longitudinal direction transfer beam, It is connected with intermediate transfer beam between the rear end of at least one driver's cabin longitudinal direction transfer beam and corresponding preceding bridge longitudinal direction transfer beam.

Longitudinal power transmission unit includes bridge longitudinal direction transfer beam before at least two driver's cabin longitudinal direction transfer beams and at least two, longitudinal A driver's cabin longitudinal direction transfer beam in power transmission unit is the first driver's cabin longitudinal direction transfer beam, before one in longitudinal power transmission unit Bridge longitudinal direction transfer beam is bridge longitudinal direction transfer beam before first, and power transmission depth of beam in bridge longitudinal direction is longitudinally passed higher than the first driver's cabin before first Power beam, being connected to the intermediate transfer beam before the rear end and first of the first driver's cabin longitudinal direction transfer beam between the transfer beam of bridge longitudinal direction is First intermediate transfer beam.

A preceding bridge longitudinal direction power transmission for being highly less than bridge longitudinal direction transfer beam before first in longitudinal power transmission unit is bridge before second Longitudinal transfer beam, power transmission depth of beam in bridge longitudinal direction is less than the first driver's cabin longitudinal direction transfer beam before second, is connected to the first driver's cabin Intermediate transfer beam before the rear end of longitudinal transfer beam and second between the transfer beam of bridge longitudinal direction is the second intermediate transfer beam, in first Between the front end of transfer beam and the front end of the second intermediate transfer beam be all connected to the rear end of the first driver's cabin longitudinal direction transfer beam And constitute " people " font force transferring structure.

A driver's cabin longitudinal direction transfer beam for being highly less than the first driver's cabin longitudinal direction transfer beam in longitudinal power transmission unit is the Two driver's cabin longitudinal direction transfer beams, bridge longitudinal direction transfer beam is highly consistent before the second driver's cabin longitudinal direction transfer beam and second, and second drives The front end for sailing bridge longitudinal direction transfer beam before the rear end and second of room longitudinal direction transfer beam is connected to each other.

Longitudinal power transmission unit further includes being set up in parallel with the first driver's cabin longitudinal direction transfer beam and in sustained height the Three driver's cabin longitudinal direction transfer beams, the rear end of the rear end and third driver's cabin longitudinal direction transfer beam of the first driver's cabin longitudinal direction transfer beam It links together.

Frame body includes at least two longitudinal power transmission units being set up in parallel in left-right direction, the front end of each longitudinal direction power transmission unit Portion is correspondingly provided with energy absorber.

Frame body includes the first main beam of the front end for being connected to longitudinal power transmission unit, and driver is connected on the first main beam Structure is moved after seat, telephone-moving structure and longitudinal power transmission unit or so are set up in parallel after pilot set, and structure is moved after pilot set The main transfer beam that length including being connected to the first main beam rear end extends along the longitudinal direction, the rear end of main transfer beam is connected with seat The left and right sides of chair rear cross beam, main transfer beam is connected with gate beam by weak connection structure, and gate beam is located at first Between main beam and seat rear cross beam, after pilot set move structure further include front and rear ends be connected to gate beam and Seat mounting rail on seat rear cross beam.

Frame body further includes the second main beam being set on the downside of the first main beam, and the first main beam and the second main beam are upper and lower It is corresponding on direction, the front end of the first main beam and the second main beam and corresponding to main transfer beam front end be equipped with preceding bearing member, The upper end of first main beam is equipped with main vertical beam, and main vertical beam corresponds to the front end of main transfer beam, and the upper end of main vertical beam is equipped with upper beam, The diagonal brace to turn forward from top to bottom is equipped at left and right sides of main vertical beam, the upper/lower terminal of diagonal brace is connected to upper beam On preceding bearing member.

Frame body further includes the second main beam being set on the downside of the first main beam, and the first main beam and the second main beam are upper and lower Corresponding on direction, the downside of main transfer beam is equipped with steering gear safeguard structure, and steering gear safeguard structure includes time interval setting Preceding bottom end rail and rear bottom end rail, mounting structure for installing steering gear is equipped between preceding bottom end rail and rear bottom end rail, it is front lower The position of front end on crossbeam corresponding to two lower longerons is correspondingly provided with two preceding vertical beams, and the upper end of preceding vertical beam is connected to the second master The lower end of crossbeam.

The beneficial effects of the invention are as follows：Frame body includes at least one longitudinal power transmission unit, and longitudinal power transmission unit includes at least One driver's cabin longitudinal direction transfer beam and at least one preceding bridge longitudinal direction transfer beam, the rear end of at least one driver's cabin longitudinal direction transfer beam Intermediate transfer beam is connected between corresponding preceding bridge longitudinal direction transfer beam, when high velocity impact occurs for automobile, impact force is vertical from driving It is transmitted to the rear end for driving longitudinal transfer beam to the front end of transfer beam, then is transmitted to backward in the transfer beam of preceding bridge longitudinal direction, then leads to Its elsewhere that preceding bridge longitudinal direction transfer beam passes to front axle bracket body portion is crossed, front axle bracket body portion deforms, and absorbs collision energy, The acceleration of automobile is reduced, reduces the inertia force injury that driver is subject to, while reducing driver's cabin corresponding driver's cabin frame body portion The deformation divided, ensure that the living space of driver.

Description of the drawings

Fig. 1 be automobile embodiment one in vehicle frame stereogram；

Fig. 2 is the side view of Fig. 1；

Fig. 3 be automobile embodiment one in energy absorption device schematic diagram；

Fig. 4 be automobile embodiment one in energy absorber cross-sectional view；

Fig. 5 is the side view of the energy absorber in Fig. 4；

Fig. 6 be automobile embodiment one in vehicle frame driver's cabin breast piece stereogram；

Fig. 7 be automobile embodiment one in driver's cabin longitudinal direction transfer beam stereogram；

Fig. 8 be automobile embodiment one in the stereogram of structure is moved after pilot set；

Fig. 9 be automobile embodiment one in steering gear safeguard structure stereogram；

Figure 10 be automobile embodiment one in vehicle frame front axle frame part schematic diagram；

Figure 11 be automobile embodiment two in energy absorber cross-sectional view；

Figure 12 is the side view of energy absorber in Figure 11；

Figure 13 be automobile embodiment three in steering gear safeguard structure stereogram；

Figure 14 be automobile example IV in steering gear safeguard structure stereogram.

In figure：1, energy absorption device；2, driver's cabin breast piece；3, front axle bracket body portion；4, collision prevention girders；5, energy absorber；6、 Outer barrel；7, deep floor；8, plug welding hole；9, hole is induced；10, the first main beam；11, the second main beam；12, the first driver's cabin Longitudinal transfer beam；13, the second driver's cabin longitudinal direction transfer beam；14, third driver's cabin longitudinal direction transfer beam；15, the 4th driver's cabin is longitudinal Transfer beam；16, bridge longitudinal direction transfer beam before first；17, bridge longitudinal direction transfer beam before second；18, the first intermediate transfer beam；19, second Intermediate transfer beam；20, bridge longitudinal direction transfer beam before third；21, bridge vertical beam before first；22, the first vertical beam；23, the second vertical beam；24、 Third crossbeam；25, the 4th crossbeam；27, the 6th crossbeam；28, it is segmented on first；29, it is segmented on second；30, it is segmented in third； 31, first time segmentation；32, second time segmentation；33, it is segmented under third；40, main transfer beam；41, seat rear cross beam；42, it perforates； 43, gate beam；44, seat mounting rail；45, false longeron；46, preceding bearing member；47, main vertical beam；48, upper beam；49, tiltedly Support；50, preceding bottom end rail；51, rear bottom end rail；52, lower longeron；53, bottom plate；54, preceding vertical beam；55, rear vertical beam；61, steering gear； 62, reinforcing plate；63, lightening hole；64, mounting plate.

Specific implementation mode

Embodiments of the present invention are described further below in conjunction with the accompanying drawings.

The embodiment one of the automobile of the present invention, as shown in Figures 1 to 10.Automobile in the present invention is car, and car includes Vehicle frame, vehicle frame include frame body and the energy absorption device 1 set on frame body front end.

Energy absorption device 1 includes the collision prevention girders 4 and two spaced suctions in left-right direction that length extends in left-right direction Energy device 5, the front end face of energy absorber 5 is by being fixedly welded on the rear end face of collision prevention girders 4.Collision prevention girders 4 are the steel with floor Or aluminum thin walled cavity structure.Energy absorber 5 includes the outer barrel 6 that length extends along the longitudinal direction and adding in outer barrel Strong floor 7, there are five the quantity of deep floor 7, the rectangular cross-section of outer barrel 6, and the barrel of outer barrel is equipped with plug welding hole 8, Deep floor 7 and the barrel of outer barrel 6 are fixed by plug welding, and it is bis- " mesh " fonts that outer barrel 6 constitutes cross section with deep floor Cross section structure, multiple inductions for assisting outer barrel to deform are equipped at intervals on every seamed edge of outer barrel 6 along its length Hole 9.When car collides, axial crumple deformation occurs for energy absorber 5, absorbs car collision energy.

Frame body includes the first main beam 10 and the second main beam 11 setting up and down, the first main beam 10 and the second main beam It is corresponding in the up-down direction.Frame body includes two longitudinal power transmission units being set up in parallel in left-right direction, each longitudinal direction power transmission list The front end of member is all connected on the first main beam and the second main beam, and two energy absorbers are respectively arranged on corresponding longitudinal power transmission unit Front end.Longitudinal power transmission unit includes the first driver's cabin longitudinal direction transfer beam 12 setting up and down, the second driver's cabin longitudinal direction transfer beam 13, Longitudinal power transmission unit further includes that third be set up in parallel with the first driver's cabin longitudinal direction transfer beam 12 and in sustained height drives It room longitudinal direction transfer beam 14 and is set up in parallel with the second driver's cabin longitudinal direction transfer beam 13 and the 4th driver's cabin in sustained height is vertical To transfer beam 15.First driver's cabin longitudinal direction transfer beam 12, the second driver's cabin longitudinal direction transfer beam 13, third driver's cabin longitudinal direction transfer beam 14 and the 4th driver's cabin longitudinal direction transfer beam 15 be driver's cabin longitudinal direction transfer beam.The front end of first driver's cabin longitudinal direction transfer beam 12 The rear end of the first main beam 10, the second driver's cabin longitudinal direction power transmission are all connected to the front end of third driver's cabin longitudinal direction transfer beam 13 The front end of beam 13 and the front end of the 4th driver's cabin longitudinal direction transfer beam 15 are all connected to the rear end of the second main beam 11.It is longitudinal to pass Power unit further includes bridge longitudinal direction transfer beam 17 before bridge longitudinal direction transfer beam 16 and second before setting up and down first.Bridge is longitudinal before first The height of transfer beam 16 is higher than the first driver's cabin longitudinal direction transfer beam 12, the rear end and first of the first driver's cabin longitudinal direction transfer beam 12 It is connected with the first intermediate transfer beam 18 between preceding bridge longitudinal direction transfer beam 16, the height of bridge longitudinal direction transfer beam 17 is less than first before second Driver's cabin longitudinal direction transfer beam 12 connects between bridge longitudinal direction transfer beam 17 before the rear end and second of first driver's cabin longitudinal direction transfer beam 12 It is connected to the second intermediate transfer beam 19, the front end of the first intermediate transfer beam 18 and the second intermediate transfer beam 19 is all connected to first and drives Sail the rear end of room longitudinal direction transfer beam and composition " people " font force transferring structure.First intermediate transfer beam and the second intermediate transfer beam are equal For intermediate transfer beam.Bridge longitudinal direction transfer beam 17 is highly consistent before second driver's cabin longitudinal direction transfer beam 13 and second, and second drives The front end of bridge longitudinal direction transfer beam 17 is connected to each other before the rear end and second of room longitudinal direction transfer beam 13.Bridge longitudinal direction transfer beam before first 16 upsides are equipped with bridge longitudinal direction transfer beam 20 before third, before first before bridge longitudinal direction transfer beam, second before bridge longitudinal direction transfer beam and third Bridge longitudinal direction transfer beam is preceding bridge longitudinal direction transfer beam.Frame body further includes bridge vertical beam 21 before first, bridge longitudinal direction transfer beam 16 before first Front end, the front end of bridge longitudinal direction transfer beam 20 is connected to first before the front end of bridge longitudinal direction transfer beam 17 and third before second On preceding bridge vertical beam 21, bridge vertical beam 21 before the front end of the first intermediate transfer beam 18 and the second intermediate transfer beam 19 is connected to first On, before the rear end of the first driver's cabin longitudinal direction transfer beam 12 is connected to first on bridge vertical beam 21, the first driver's cabin longitudinal direction transfer beam The connection with the front end of the first, second intermediate transfer beam is realized by bridge vertical beam 21 before first in 12 rear end.First drives Room longitudinal direction transfer beam 12 and second to drive longitudinal transfer beam 13 corresponding in above-below direction, third driver's cabin longitudinal direction transfer beam 14 with 4th driver's cabin longitudinal direction transfer beam 15 is corresponding in above-below direction, between the first main beam 10 and the second main beam 11 and corresponds to The first vertical beam 22, the first main beam 10 and the second main cross are connected between the front end of first, second driver's cabin longitudinal direction transfer beam Between beam 11 and corresponding to third, the 4th driver's cabin longitudinal direction transfer beam front end between be connected with the second vertical beam 23.First master Crossbeam 10, the second main beam 11, the first vertical beam 22 and the second vertical beam 23 surround rectangular configuration.The rear end face of energy absorber and rectangle knot Structure aligns, and the rear end face of energy absorber 5 is connected on the first main beam 10 and the second main beam, the rear end face of energy absorber and One, second, third, the front end of the 4th driver's cabin longitudinal direction transfer beam it is corresponding.

Frame body further includes being arranged in parallel with the first main beam 10 and positioned at third crossbeam 24, the 4th crossbeam of sustained height 25, the first main beam 10, third crossbeam 24 and the 4th crossbeam are spaced setting along the longitudinal direction.Frame body further includes and the second main beam 11 are arranged in parallel and positioned at the 5th crossbeam, the 6th crossbeam 27 of sustained height, the second main beam 10, the 5th crossbeam and the 6th crossbeam 27 interval settings along the longitudinal direction.Third driver's cabin longitudinal direction transfer beam 14 include along the longitudinal direction subsection setup first on be segmented 28,30 are segmented on second in segmentation 29 and third, the rear and front end of segmentation 28 is connected to the first main beam 10, the on first The rear and front end that 29 are segmented on three crossbeams 24, on second is connected to third crossbeam 24, on the 4th crossbeam 25, third segmentation Front end is connected on the 4th crossbeam 25, and the rear end of segmentation 30 is connected to the rear end of the first driver's cabin longitudinal direction transfer beam 12 in third. 4th driver's cabin longitudinal direction transfer beam 15 includes the first time segmentation 31, second time segmentation 32 and third of subsection setup along the longitudinal direction It is lower segmentation 33, first time segmentation 31 rear and front end be separately connected on the first main beam 10 and the 5th crossbeam, second time be segmented 32 rear and front end is connected on the 5th crossbeam and the 6th crossbeam 27, and the front end that 33 are segmented under third is connected to the 6th crossbeam On 27.

It is connected on first main beam 10 after pilot set and moves structure, telephone-moving structure and longitudinal power transmission after pilot set Unit or so is set up in parallel, and it includes the main transfer beam 40 that length extends along the longitudinal direction, main power transmission that structure is moved after pilot set The front end of beam 40 is welded on the first main beam 10, and the rear end of main transfer beam 40 is welded with seat rear cross beam 41, main transfer beam 40 Rectangle or U-board part, the front of main transfer beam 40 offers the perforation 42 passed through for steering column, perforate as square hole or Round hole.The left and right sides of main transfer beam 40 is connected with gate beam 43 by weak connection structure, and weak connection structure is Spot welding connection structure, for gate beam 43 in the longitudinal direction between the first main beam 10 and seat rear cross beam 41, auxiliary is horizontal Seat mounting rail 44 is welded between beam 43 and seat rear cross beam 41.The left and right sides of main transfer beam 40 in the first main beam 10 with It is welded with false longeron 45 between gate beam 43, ensures the intermal force of main transfer beam 40.First main beam 10 and second is led The front end of crossbeam 11 and the front end for corresponding to main transfer beam 40 are equipped with preceding bearing member 46, and preceding bearing member 46 is hat-shaped structure, preceding to hold Power part 46 is welded in hat-shaped structure and increases forced area, can ensure to move after pilot set structure be collided power when it is steady It is qualitative.First main beam, 10 upper end is equipped with main vertical beam 47, and the upper end of main vertical beam 47 is welded with the upper cross for installing steering column The left and right sides of beam 48, main vertical beam 47 is equipped with diagonal brace 49, and diagonal brace 49 turns forward from top to bottom, the upper/lower terminal of diagonal brace 49 It is respectively welded on upper beam 48 and preceding bearing member 46, diagonal brace 49 helps to increase the bending resistance of main vertical beam 47, reduces collision When upper beam 48 rear shifting amount ensure that driver's living space is not broken into too much to reduce the rear shifting amount of steering column. When car collides, cap-shaped structure is first subjected to impact force, and impact force is transmitted to main power transmission by the first main beam 10 On beam 40, gate beam 43 by the spot welding connection structure of left and right ends after the shearing impact force of main transfer beam 40 weld seam at first It is broken, while seat rear cross beam 41 will produce flexural deformation backward by the impact force of main transfer beam 40, and seat is made to pacify Dress beam 44 and main transfer beam 40 are moved after generating together, increase the living space of driver.

The downside of main transfer beam 40 is equipped with steering gear safeguard structure, and steering gear safeguard structure includes before time interval is arranged Bottom end rail 50 and rear bottom end rail 51 are equipped with the mounting structure for installing steering gear, installation between preceding bottom end rail and rear bottom end rail Structure include be connected between preceding bottom end rail 50 and rear bottom end rail 51 two in left-right direction spaced lower longeron 52 and The bottom plate 53 for installing steering gear set on the front end of preceding bottom end rail 50 and rear bottom end rail 51, preceding bottom end rail 50 and rear bottom end rail 51 spacing is equal with the width of bottom plate 53, and the upper end of preceding bottom end rail 50 is equipped at intervals with two preceding vertical beams 54 in left-right direction, and two The upper/lower terminal of a preceding vertical beam 54 is respectively welded on the second main beam 11 and preceding bottom end rail 50, the upper end edge of rear bottom end rail 51 Vertical beam 55 after left and right directions is equipped at intervals with two, the lower end of vertical beam 55 is welded on rear bottom end rail 51 after two.Steering gear is liftoff The height in face is relatively low, and when car collides with car, preceding vertical beam 54 can effectively avoid direct collision of the steering gear by car, Impact force is transmitted to rear bottom end rail 51 etc. by lower longeron 52 backward, before ensureing vertical beam 54 do not occur bending and deformation, steering gear not It is impacted, reducing steering gear damage causes to turn to risk out of control.

Driver's cabin breast piece can transmit impact force backward in car collision process, and a portion collision passes through first Driver's cabin longitudinal direction transfer beam passes to the first intermediate transfer beam, the second intermediate transfer beam, and the first intermediate power beam is vertical to bridge before first It is transmitted to transfer beam, the second intermediate transfer beam is transmitted to bridge longitudinal direction transfer beam before second, and another part impact force is driven by second Sail bridge longitudinal direction transfer beam before room longitudinal direction transfer beam passes to second.

The driver's cabin frame that structure, steering gear safeguard structure etc. are frame body is moved after driver's cabin longitudinal direction transfer beam, pilot set The component part of body portion 2.Preceding bridge longitudinal direction transfer beam is the component part of the front axle bracket body portion 3 of frame body.Driver's cabin frame body portion Divide and constitute rigid structure area with a higher rigidity, front axle bracket body portion constitutes distressed structure area.Energy absorption device constitutes endergonic structure area. Low speed collision accident occurs for car, and energy absorption device absorbs car kinetic energy, reduces body frame structure for automotive and destroys risk.Occur in car higher When fast collision accident, energy absorption device absorbs the collision energy of part, is transmitted impact force backward by driver's cabin longitudinal direction transfer beam To front axle bracket body portion, to maintain driver's living space." people " font force transferring structure is devised in front axle bracket body portion, with Impact force, is distributed on front axle bracket body portion upwards, downwards, by preceding by the transfer beam connection of driver's cabin longitudinal direction in high velocity impact The deformation of crane span structure body portion absorbs remaining collision energy, reduces the deformation of driver's cabin breast piece to the greatest extent, further ensures driver Living space.Energy absorption device and front axle bracket body portion can all deform energy-absorbing, increase collision deformation space, can reduce car body Acceleration reduces occupant and is injured by inertia force.

The embodiment two of automobile is as shown in FIG. 11 and 12 in the present invention, and energy absorption device 1 extends in left-right direction including length Collision prevention girders 4 and two spaced energy absorbers 5 in left-right direction.Energy absorber 5 extends outer along the longitudinal direction including length Cylinder 6 and the deep floor 7 in outer barrel, there are three the quantity of deep floor 7, the rectangular cross-section of outer barrel 6, outer barrel The barrel of body is equipped with plug welding hole 8, and deep floor 7 and the barrel of outer barrel 6 are fixed by plug welding, outer barrel 6 and deep floor 7 Constitute the cross section structure that cross section is sphere of movements for the elephants shape.

The embodiment three of automobile is as shown in figure 13 in the present invention, and steering gear safeguard structure includes the front lower of time interval setting Crossbeam 50 and rear bottom end rail 51 are equipped with the mounting structure for installing steering gear, installation knot between preceding bottom end rail and rear bottom end rail Structure includes be connected between preceding bottom end rail 50 and rear bottom end rail 51 two and spaced lower longeron 52 and sets in left-right direction It is additionally provided with and adds between the bottom plate 53 for installing steering gear of preceding bottom end rail 50 and the front end of rear bottom end rail 51, two lower longerons Strong plate 62, the front and rear ends of reinforcing plate be connected to the rear end of bottom plate 53, rear bottom end rail front end, the left and right two of reinforcing plate End is respectively welded on the lower longeron of respective side, and reinforcing plate is equipped with lightening hole 63.

The example IV of automobile is as shown in figure 14 in the present invention, saves two lower longerons, preceding bottom end rail and rear bottom end rail it Between be connected with mounting plate 64, mounting plate is channel steel, and steering gear is set to the front of mounting plate, and mounting plate is equipped with lightening hole 63.

In the present invention in the other embodiment of automobile, automobile can also be lorry or car etc..

In the present invention in the other embodiment of automobile, gate beam is connect with main transfer beam by being weldingly connected, horizontal in auxiliary Commissure trepanning or fluting between beam and main transfer beam make gate beam hold when being sheared to form weak connection structure Easily it is broken between main transfer beam.

In the present invention in the other embodiment of automobile, gate beam is molded with main transfer beam integrated punching, in gate beam Junction trepanning with main transfer beam or fluting to form weak connection structure, make gate beam be easy when being sheared with It is broken between main transfer beam.

In the present invention in the other embodiment of automobile, the quantity of longitudinal power transmission unit is not limited to one, longitudinal power transmission unit Quantity be one or more.

In the present invention in the other embodiment of automobile, the quantity of driver's cabin longitudinal direction transfer beam is according to need in longitudinal power transmission unit It sets, the quantity of preceding bridge longitudinal direction transfer beam is set as needed, and the quantity of intermediate transfer beam is also according to needing to set.

In the present invention in the other embodiment of automobile, preceding bearing member is alternatively block structure.

In the present invention in the embodiment of vehicle frame, the structure of vehicle frame is identical as the structure of vehicle frame in the embodiment of automobile, no longer It repeats herein.

Claims (8)

1. a kind of vehicle frame, including frame body, it is characterised in that：Frame body includes at least one longitudinal power transmission unit, longitudinal power transmission unit Including at least one driver's cabin longitudinal direction transfer beam and at least one preceding bridge longitudinal direction transfer beam, at least one driver's cabin longitudinal direction transfer beam Rear end and corresponding preceding bridge longitudinal direction transfer beam between be connected with intermediate transfer beam, longitudinal power transmission unit is driven including at least two Bridge longitudinal direction transfer beam before room longitudinal direction transfer beam and at least two is sailed, a driver's cabin longitudinal direction transfer beam in longitudinal power transmission unit is First driver's cabin longitudinal direction transfer beam, a preceding bridge longitudinal direction transfer beam in longitudinal power transmission unit are bridge longitudinal direction transfer beam before first, Power transmission depth of beam in bridge longitudinal direction is higher than the first driver's cabin longitudinal direction transfer beam before first, is connected to the first driver's cabin longitudinal direction transfer beam Intermediate transfer beam before rear end and first between the transfer beam of bridge longitudinal direction is the first intermediate transfer beam, height in longitudinal power transmission unit A preceding bridge longitudinal direction power transmission of bridge longitudinal direction transfer beam is bridge longitudinal direction transfer beam before second before less than first, bridge longitudinal direction power transmission before second Depth of beam is less than the first driver's cabin longitudinal direction transfer beam, is connected to bridge before the rear end and second of the first driver's cabin longitudinal direction transfer beam Intermediate transfer beam between longitudinal transfer beam is the second intermediate transfer beam, is passed among the front end of the first intermediate transfer beam and second The front end of power beam is all connected to the rear end of the first driver's cabin longitudinal direction transfer beam and composition " people " font force transferring structure.

2. vehicle frame according to claim 1, it is characterised in that：It is longitudinal to be highly less than the first driver's cabin in longitudinal power transmission unit One driver's cabin longitudinal direction transfer beam of transfer beam is the second driver's cabin longitudinal direction transfer beam, the second driver's cabin longitudinal direction transfer beam and second Preceding bridge longitudinal direction transfer beam it is highly consistent, before the rear end and second of the second driver's cabin longitudinal direction transfer beam before the transfer beam of bridge longitudinal direction End is connected to each other.

3. vehicle frame according to claim 2, it is characterised in that：Longitudinal power transmission unit further includes longitudinally being passed with the first driver's cabin Third driver's cabin longitudinal direction transfer beam that power beam is set up in parallel and in sustained height, the rear end of the first driver's cabin longitudinal direction transfer beam Portion and the rear end of third driver's cabin longitudinal direction transfer beam link together.

4. vehicle frame according to claim 1, it is characterised in that：Frame body includes at least two being set up in parallel in left-right direction The front end of longitudinal power transmission unit, each longitudinal direction power transmission unit is correspondingly provided with energy absorber.

5. vehicle frame according to claim 1, it is characterised in that：Frame body includes the of the front end for being connected to longitudinal power transmission unit One main beam is connected on the first main beam after pilot set and moves structure, telephone-moving structure and longitudinal power transmission list after pilot set Member or so is set up in parallel, and it includes being connected to the length of the first main beam rear end along the longitudinal direction to extend that structure is moved after pilot set Main transfer beam, the rear end of main transfer beam is connected with seat rear cross beam, and the left and right sides of main transfer beam passes through weak connection knot Structure is connected with gate beam, and gate beam moves structure also between the first main beam and seat rear cross beam after pilot set The seat mounting rail being connected to including front and rear ends on gate beam and seat rear cross beam.

6. vehicle frame according to claim 5, it is characterised in that：Frame body further includes the second master being set on the downside of the first main beam Crossbeam, the first main beam and the second main beam are corresponding in the up-down direction, the front end of the first main beam and the second main beam and It is equipped with preceding bearing member corresponding to the front end of main transfer beam, the upper end of the first main beam is equipped with main vertical beam, and main vertical beam corresponds to main biography The front end of power beam, the upper end of main vertical beam are equipped with upper beam, be equipped at left and right sides of main vertical beam turn forward from top to bottom it is oblique Support, the upper/lower terminal of diagonal brace are connected on upper beam and preceding bearing member.

7. vehicle frame according to claim 5, it is characterised in that：Frame body further includes the second master being set on the downside of the first main beam Crossbeam, the first main beam and the second main beam are corresponding in the up-down direction, and the downside of main transfer beam is equipped with steering gear protection knot Structure, steering gear safeguard structure includes the preceding bottom end rail of time interval setting and rear bottom end rail, between preceding bottom end rail and rear bottom end rail Equipped with the mounting structure for installing steering gear, the position of the front end on preceding bottom end rail corresponding to two lower longerons is correspondingly provided with two A preceding vertical beam, the upper end of preceding vertical beam are connected to the lower end of the second main beam.

8. a kind of automobile, it is characterised in that：It include the vehicle frame as described in any one of claim 1-7.