CN205836957U - A kind of rear support frame assembly and there is the automobile of this rear support frame assembly - Google Patents
A kind of rear support frame assembly and there is the automobile of this rear support frame assembly Download PDFInfo
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- CN205836957U CN205836957U CN201620730463.8U CN201620730463U CN205836957U CN 205836957 U CN205836957 U CN 205836957U CN 201620730463 U CN201620730463 U CN 201620730463U CN 205836957 U CN205836957 U CN 205836957U
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- girder
- support frame
- frame assembly
- support
- post
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Abstract
This utility model provides and discloses a kind of rear support frame assembly, and described rear support frame assembly is installed on the rear end of the crew module of automobile, including after upper girder, rear auxiliary beam, the second vertical beam and the second support beam, described after the front end of upper girder be connected to the B post of automobile;After described, the front end of upper auxiliary beam is connected to the B post of automobile, and is positioned at the top of described rear upper girder;Described second vertical beam vertically connects to be gone up between girder and described rear auxiliary beam in the rear, is used for supporting described rear upper girder and described rear auxiliary beam;Described second support beam connect obliquely go up in the rear girder and described after between upper auxiliary beam, to form the second support frame together with described B post, described second vertical beam, described rear auxiliary beam and described rear upper girder, it is used for supporting described rear above girder and described rear auxiliary beam.The rear support frame assembly of this structure improves rigidity, stability and fastness, can effectively decompose the active force of impact force and swing arm, it is to avoid rear support frame assembly unstability.
Description
Technical field
This utility model relates to automobile technical field, particularly to a kind of rear support frame assembly and have this rear support bone
The automobile of frame assembly.
Background technology
In automobile technical field, the rear portion of vehicle occupant compartment arranges rear support skeleton, is used for installing the parts such as cantilever, needs
There is certain rigidity, it is possible to well support each parts.
In prior art, rear support skeleton is upper girder, rear lower girder and the second vertical beam after mainly including.Wherein, second erect
Beam is upper girder and rear lower girder after vertically connecting and supporting, and rear upper girder is all connected with B post with the front end of rear lower girder, rear support
Body tail and car load are played a supporting role by all parts of skeleton jointly.
But, rear support skeleton rigidity of the prior art is low, and bearing capacity is poor.Upper girder after swing arm is arranged on, with
The operation of automobile and when swinging, be easily caused rear support skeleton unstability;It addition, when touch before automobile occurs and after touch time, existing
Row rear support skeleton front impact force, rear impact force effect under, easily rupture in junction, Joint failure, be easily caused
The device at rear portion is damaged, and in causing crew module, personnel come to harm, and the security performance of its car load is low.
In view of this, for the problems referred to above, it is provided that the rear support frame assembly of a kind of structure optimization, it is possible to after effectively promoting
The rigidity of support frame assembly, increases stability, fastness that rear portion of car body supports.
Utility model content
The purpose of this utility model is to provide a kind of rear support frame assembly, on after being provided above of girder on rear
Auxiliary beam, and pass through after the second vertical beam is vertically connected between upper girder and rear auxiliary beam, after the second support beam is connected to obliquely
Between upper girder and rear auxiliary beam, so that the second vertical beam, the second support beam, rear auxiliary beam form second together with rear upper girder
Support frame, upper girder and rear auxiliary beam after reliable and stable support, it is to avoid touch after and cause the deformation of rear support backbone distortion, mistake
Surely, promote the rigidity of rear support frame assembly, increase stability, fastness that rear portion of car body supports.Of the present utility model
Another object is to provide a kind of automobile with this rear support frame assembly.
This utility model provides a kind of rear support frame assembly, and described rear support frame assembly is installed on the occupant of automobile
The rear end in cabin, including:
Rear upper girder, the front end of described rear upper girder is connected to the B post of automobile;
Rear auxiliary beam, the front end of described rear auxiliary beam is connected to the B post of automobile, and is positioned at the top of described rear upper girder;
Second vertical beam, described second vertical beam vertically connects to be gone up between girder and described rear auxiliary beam, for propping up in the rear
Support described rear upper girder and described rear auxiliary beam;With
Second support beam, described second support beam connect obliquely go up in the rear girder and described after between upper auxiliary beam,
To form the second support frame together with described B post, described second vertical beam, described rear auxiliary beam and described rear upper girder, it is used for
Support described rear upper girder and described rear auxiliary beam.
Alternatively, the front end of described second support beam is connected with the front end lower wall of described rear auxiliary beam, and rear end is with described
The upper side wall of rear upper girder connects.
Alternatively, the front end of described second support beam is connected with the front end lower wall of described rear auxiliary beam, and rear end is with described
The upper side wall of rear upper girder connects.
Alternatively, the front end of described second support beam rear wall with described B post further is connected, for by rear impact force from
After described, upper girder is transferred to described B post.
Alternatively, the front end surface of described second support beam includes:
First is connected face, described first be connected face with described after the lower wall of upper auxiliary beam be connected;With
Second is connected face, and described second face that is connected is connected with the rear wall of described B post.
Alternatively, the rear end of described second support beam front side wall with described second vertical beam further is connected, and is used for connecting
And support described rear upper girder, described second vertical beam, described rear auxiliary beam and described B post.
Alternatively, the rear end end face of described second support beam includes:
3rd is connected face, the described 3rd be connected face with described after the upper side wall of upper girder be connected;With
4th is connected face, and the described 4th face that is connected is connected with the front side wall of described second vertical beam.
Alternatively, the angle between described second support beam and described rear upper girder is in the range of 15 °~19 °.
This utility model also provides for a kind of automobile, and this automobile includes above-described rear support frame assembly.
Accompanying drawing explanation
This utility model is only schematically illustrated and explains by the following drawings, does not limit scope of the present utility model.
Fig. 1 to Fig. 4 is the structural representation that in this utility model specific embodiment, rear support frame assembly is installed on vehicle body,
Wherein:
Straight arrows in Fig. 1 represent after impact force bang path direction;
Straight arrows in Fig. 2 represents front impact force bang path direction;
Straight arrows in Fig. 3 represents the bang path direction of swing arm bottom active force;
Straight arrows in Fig. 4 represents the bang path direction putting active force in swing arm;
Fig. 5 is the structural representation of the first support beam in this utility model specific embodiment;
Fig. 6 is the structural representation of the second support beam in this utility model specific embodiment.
Label declaration:
10 rear support frame assemblies;
Upper girder after 11;
Lower girder after 12;
13 first vertical beams;
14 first support beams;
141 first joint faces;
142 second joint faces;
143 installing holes;
Upper auxiliary beam after 15;
16 second vertical beams;
17 second support beams;
171 first are connected face;
172 second are connected face;
173 the 3rd are connected face;
174 the 4th are connected face;
20 B posts.
Detailed description of the invention
In order to be more clearly understood from the technical characteristic of utility model, purpose and effect, now comparison accompanying drawing explanation is originally
The detailed description of the invention of utility model, the most identical label represents identical part.
In this article, " schematically " expression " serves as example, example or explanation ", " should not show being described herein as
Meaning property " any diagram, embodiment be construed to a kind of preferred or more advantage technical scheme.
For making simplified form, only schematically show and this utility model relevant portion in each figure, and not generation
Table its as the practical structures of product.It addition, so that simplified form readily appreciates, some figure has identical structure or function
Parts, only symbolically depict one of them, or only marked one of them.
Body tail is played the effect of support by rear support frame assembly, and crumple occurs in an impact, absorbs impact force, protects
Protect posterior means to avoid being damaged, the safety of personnel in protection crew module.But, rear support frame assembly of the prior art
The ability absorbing decomposition impact force is the most poor, and when being collided, rear support frame assembly easily distorts unstability, it is impossible to guarantee occupant
Cabin and the safety of other appliance arrangements of rear portion.For solving this problem, this utility model provides rear of a kind of structure optimization
Support frame assembly, by auxiliary beam on after being provided above of girder on rear, and upper girder after being vertically connected to by the second vertical beam
And between rear auxiliary beam, the second support beam is after being connected to obliquely between upper girder and rear auxiliary beam, so that B post, second erecting
Beam, the second support beam, rear auxiliary beam form the second support frame together with rear upper girder, after reliable and stable support upper girder with
Rear auxiliary beam, it is to avoid touch after and cause the deformation of rear support backbone distortion, unstability, promote the rigidity of rear support frame assembly, increase
Stability, the fastness that rear portion of car body supports.
Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in detail, refers to Fig. 1 to Fig. 4 institute
Showing, Fig. 1 to Fig. 4 is the structural representation that in this utility model specific embodiment, rear support frame assembly is installed on vehicle body, wherein,
Straight arrows in Fig. 1 represent after impact force bang path direction;Straight arrows in Fig. 2 represents front impact force bang path direction;
Straight arrows in Fig. 3 represents the bang path direction of swing arm bottom active force;Straight arrows in Fig. 4 represents that in swing arm, pendulum is made
Bang path direction firmly.
This utility model provides a kind of rear support frame assembly 10, and rear support frame assembly 10 is installed on the occupant of automobile
The rear end in cabin, including:
Rear upper girder 11, the front end of rear upper girder 11 is connected to the B post 20 of automobile;
Rear lower girder 12, the front end of rear lower girder 12 is connected to the B post 20 of automobile;
First vertical beam 13, the first vertical beam 13 rear end between upper girder 11 and rear lower girder 12 after being vertically connected to, use
Upper girder 11 and rear lower girder 12 after supporting;With
First support beam 14, the first support beam 14 is after being connected to obliquely between upper girder 11 and rear lower girder 12, with B
Post the 20, first vertical beam 13, rear upper girder 11 form the first support frame together with rear lower girder 12, upper girder 11 after supporting
With rear lower girder 12.
Compared with prior art, a kind of rear support frame assembly 10 that this utility model provides on rear girder 11 with rear under
Connecting between girder 12 and have the first support beam 14, this first support beam 14 is upper girder 11 and rear lower girder 12 after being connected to obliquely
Between.Owing to the front end of rear upper girder 11 and rear lower girder 12 is all connected to the B post 20 of automobile, the first vertical beam 13 vertical beam connects
On rear, girder 11 and the rear end of rear lower girder 12, which form quadrilateral frame, girder 11 and rear lower girder 12 on rear
Between be additionally arranged again the first support beam 14 being obliquely installed, thus form the first support frame of more rock-steady structure, it is possible to keep away
Exempt from being touched by front, after when touching, rear support frame assembly 10 is distorted deformation, it is possible to upper girder 11 and rear lower girder 12 after making
During collision, under the effect of impact force, carry out sufficient crumple along length of wagon direction.
Further, in impact force transmittance process, the first support beam 14 can be decomposed from rear upper girder 11 or descend girder afterwards
The impact force of 12, reduces the impact force damage to vehicle body.
In a kind of specific embodiment, the front end of the first support beam 14 of this rear support frame assembly 10 and rear upper girder 11
Front end lower wall connect, rear end is connected with the upper side wall of rear lower girder 12.Thereafter the front end going up girder 11 refers to and B post 20
Junction, is arranged such, and the first support beam 14 is the lower wall of upper girder 11 front end after being connected to, it is possible to after lifting upper girder 11 with
The bonding strength of B post 20, when collision, the first support beam 14 decomposes part impact force, and collision free power goes up girder after causing
11 rupture with B post 20 junction, further increase the intensity of the first support frame.
Further, the front end of the first support beam 14 is connected with the rear wall of B post 20, say, that the first support beam 14
Front end be both connected with rear upper girder 11, be connected with B post 20 again.On the one hand so, utilize the first support beam 14 by B post 20 with after
Upper girder 11 is fixed together, and can go up the bonding strength of girder 11 and B post 20 junction, it is to avoid on Hou after further enhancing
When girder 11 is subject to bigger impact force, rear upper girder 11 and the Joint failure of B post 20;On the other hand, the first support beam 14 can
Rear impact force is transferred to B post 20 from rear lower girder 12, owing to B post 20 intensity is big, it is possible to bear bigger collision, therefore, pass through
This first support beam 14 is the impact force on lower girder 12 after decomposing.
In order to promote the first support beam 14 and B post 20, the rear upper reliability of connection of girder 11, fastness, to first
The front end surface of support beam 14 optimizes design further, the most shown in Figure 5.
The front end surface of the first support beam 14 includes the first joint face 141 and the second joint face 142, and wherein, first connects
Face 141 is connected with the front end lower wall of rear upper girder 11, and the second joint face 142 is connected with the rear wall of B post 20.As shown in Figure 5,
The end face of the front end of the first support beam 14 is connected by the first joint face 141 and the second joint face 142 and forms wedge surface such that it is able to more
It is fitted and connected fixing with rear upper girder 11, B post 20 well.
Fig. 5 illustrate only a kind of specific embodiment of the front end surface of the first support beam 14, the first joint face 141 and second
Angle between joint face 142 and both each angle with the body surfaces of the first support beam 14 also can have other parameter,
Specifically according to the link position of the first support beam 14, and should set with the angle of rear upper girder 11.
In preferred scheme, the angle between the first support beam 14 and rear upper girder 11 is set to 25 °, and first supports
Angle between first joint face 141 and second joint face 142 of beam 14 is set to 100 °, the first joint face 141 and first
The angle of the body surfaces of support beam 14 is 155 °, and the second joint face 142 with the angle of the body surfaces of the first support beam 14 is
105°。
Angle between first support beam 14 and rear upper girder 11 is not limited in 25 °, its can in the range of 23 °~27 °,
Can be such as 24 °, 26 ° etc..
Also can open installing hole 143 in first support beam 14, can be bolt hole, riveted holes etc., provide for miscellaneous part and install
Position, such as, can be used for installing side-wall inner-plate or other adnexaes.
It should be noted that the rear support frame assembly 10 of the present embodiment is arranged in vehicle body, the most in the present embodiment
The noun of locality occurred is all on the basis of vehicle body, and wherein, alleged front and rear is all on the basis of the length direction of vehicle body.
That is, front is the side towards headstock direction, is the side in facing tailstock direction afterwards.Similarly, upper and lower is all the height with vehicle body
On the basis of degree direction, i.e. upper is towards the side at vehicle body top in the short transverse of vehicle body, lower in the height side of vehicle body
Side upwardly toward body bottom.
For above example, also rear support frame assembly 10 can be optimized design further, to increase rear support skeleton
The fastness of assembly 10, absorbs impact force, it is ensured that the safety of car load.
In a kind of specific embodiment, rear support frame assembly 10 farther includes:
Rear auxiliary beam 15, upper auxiliary beam 15 is the top of upper girder 11 after being positioned at, and its front end is connected to the B post 20 of automobile;
Second vertical beam 16, the second vertical beam 16 is gone up rear end between girder 11 and rear auxiliary beam 15, is used for after being vertically connected to
Upper girder 11 and rear auxiliary beam 15 after support;With
Second support beam 17, the second support beam 17 is after being connected to obliquely between upper girder 11 and rear auxiliary beam 15, with
Second vertical beam 16, rear auxiliary beam 15, rear upper girder 11 form the second support frame together with B post 20, upper girder after supporting
11 with rear auxiliary beam 15.
By above-mentioned setting, on rear after being arranged over of girder 11 on auxiliary beam 15, the front end of this rear auxiliary beam 15 connects
In the B post 20 of automobile, rear auxiliary beam 15 is connected with the second support beam 17 by the second vertical beam 16 with rear upper girder 11;Namely
Saying, the second vertical beam 16 goes up the rear end between girder 11 and rear auxiliary beam 15 after being vertically connected to, and the second support beam 17 tilts
Be connected to after between upper girder 11 and rear auxiliary beam 15.
So, second support beam the 17, second vertical beam 16, rear auxiliary beam 15 together form with rear upper girder 11 and B post 20
Second support frame.This second support frame is defined with rear upper girder 11 and B post 20 by rear auxiliary beam the 15, second vertical beam 16
The framework of one tetragon, so after being connected to by the second support beam 17 of being obliquely installed upper girder 11 and rear auxiliary beam 15 it
Between, define the second more firm, stable support frame, thus be effectively improved the firm of rear support frame assembly 10 further
Property, it is to avoid there is unstability in rear support frame assembly 10 in collision process, it is ensured that the safety of car load.
This second support frame combines the first support frame and defines the rear support frame assembly 10 of approximation truss structure, has
Effect enhances the stability of rear support frame assembly 10, fastness, it is to avoid when collision, each junction occurs unstability, thus can make
The abundant crumple of rear support frame assembly 10, effectively decomposes impact force, reduces the collision damage to body tail device, it is ensured that car load
Safety.
Further, the front end of the second support beam 17 is connected with the front end lower wall of rear auxiliary beam 15, rear end and rear upper master
The upper side wall of beam 11 connects.The front end of rear auxiliary beam 15 refers to this rear auxiliary beam 15 and B post 20 junction, is arranged such, the
Two support beams 17 are the lower wall of upper auxiliary beam 15 front end after being connected to, it is possible to the intensity of the connection of upper auxiliary beam 15 and B post 20 after lifting,
When collision, this second support beam 17 can decompose the absorption impact force from rear upper girder 11.
Further, the front end of the second support beam 17 rear wall with B post 20 further is connected, say, that second
The front end of support beam 17 was both connected with rear auxiliary beam 15, was connected with B post 20 again.It is arranged such, the most available second support beam
B post 20 is fixed together by 17 with rear auxiliary beam 15, upper auxiliary beam 15 and the bonding strength of B post 20 junction after enhancing;Separately
On the one hand, rear impact force can be transmitted by the second support beam 17 from the top of rear upper girder 11 gradually B post 20, impact force is gradually divided
Solve, it is to avoid substantial amounts of impact force concentrates on the regional area of B post 20 and produces damage.
In order to make the second support beam 17 stablize with B post 20, rear auxiliary beam 15, be connected reliably, to the second support beam 17
Front end surface is optimized design.The most shown in Figure 6.
The front end surface of the second support beam 17 includes that first face 171 and second that is connected is connected face 172, and wherein, first is connected
Face 171 is connected with the lower wall of rear auxiliary beam 15, and second face 172 that is connected is connected with the rear wall of B post 20.Before second support beam 17
The end face of end is connected is formed wedge surface by first face 172 that is connected, face 171 and second that is connected such that it is able to make the second support beam 17 more preferable
Ground is fitted and connected fixing with rear auxiliary beam 15, B post 20.
Further, the rear end of the second support beam 17 is connected with the front side wall of the second vertical beam 16, is arranged such, at second
On the basis of the rear end of support beam 17 is connected with the upper side wall of rear auxiliary beam 15, its again front side wall with the second vertical beam 16 be connected, have
Effect is upper bonding strength between girder 11 and the second vertical beam 16 after improving, meanwhile, and can be by the impact force from rear upper girder 11
Transmit along second vertical beam the 16, second support beam 17, absorb and decompose impact force.
The front end of the second support beam 17 is connected with B post 20, rear auxiliary beam 15 simultaneously, rear end simultaneously with the second vertical beam 16, after
Upper girder 11 connects, thus together with B post 20, rear auxiliary beam the 15, second vertical beam 16 being effectively connected to rear upper girder 11, the
The top of one support frame forms second support frame with firm supporting role.
Rear end end face for the second support beam 17 is optimized design, and its rear end end face includes that the 3rd is connected face 173 He
4th is connected face 174, and the 3rd face 173 that is connected is connected with the upper side wall of rear upper girder 11, and the 4th is connected face 174 and the second vertical beam 16
Front side wall connect.So that the rear end end face of the second support beam 17 is preferably with the laminating of rear upper girder the 11, second vertical beam 16 even
Connect fixing.
Fig. 6 illustrate only a kind of specific embodiment of the front end surface of the second support beam 17, rear end end face, and first is connected face
171 and second angles being connected between face 172, the 3rd be connected face 173 and the 4th be connected the angle between face 174 and each with
The angle of the body surfaces of the second support beam 17 also can have other parameter, specifically should be according to the connection position of the second support beam 17
Put, and set with the angle of rear upper girder 11.
In preferred scheme, the angle between the first support beam 14 and rear upper girder 11 is set to 17 °.First support beam
Angle between 14 and rear upper girder 11 is not limited in 17 °, and it can be such as 16 ° in the range of 15 °~19 °, 18 ° etc..
Use the structure of rear support frame assembly 10 in above-described embodiment, it is possible to touch after, front when touching, impact force is entered
Row effectively decomposes, and increases bending stiffness and torsional rigidity, promotes whole vehicle stability;After being installed on, the swing arm of upper girder 11 is with car
When running and swing up and down, the junction in this rear support frame assembly 10 has abundant bonding strength, it is possible to avoid
The unstability in swing arm effect.
Below in conjunction with the accompanying drawings to after touch, front touch, in swing arm when pendulum and the bottom, the transmission of power on this rear support frame assembly 10
Effect road strength is described in detail, when colliding, and the first support beam 14 and the second support beam 17 effect of being under pressure, and
In swing arm swing process, the first support beam 14 and the second support beam 17 are stretched effect, and the straight arrows direction in accompanying drawing shows
The direction of transfer of meaning power.
As it is shown in figure 1, when touching after occurring, rear impact force along rear upper girder 11 and rear lower girder 12 to front transfer, from rear
When the impact force of lower girder 12 is transferred to the junction with the first support beam 14, after part, impact force can pass to the first support beam 14
Pass.Wherein, the rear impact force of about 30% is absorbed by the first support beam 14, and a part is transferred to B post 20 along the first support beam 14
Central region, is absorbed by B post 20, and avoids being transferred to, by rear lower girder 12, the region that B post 20 bottom absorbability is more weak.
Impact force from rear upper girder 11 is transferred to the second support beam 17 and the junction of rear upper girder 11, the second vertical beam
16 with the junction of rear upper girder 11 time, after part, impact force is transmitted along the second support beam 17, and after part, impact force is along the second vertical beam 16
Transmission, so, by rear impact force further by the second support beam 17 to the top of B post 20, by the second girder through after go up the most auxiliary beam 15 to B
The top transmission of post 20, wherein the rear impact force of the second support beam 17 absorbable about 10%, is effectively reduced rear impact force to B post 20
A certain region and produce damage.
As in figure 2 it is shown, when touching before occurring, after front impact force is transferred to B post 20, can continue to decompose along five paths and transmit:
Article 1, part front impact force absorbed by rear auxiliary beam 15 and to after after the second vertical beam 16 is transferred to go up girder 11;Article 2,
Upper girder 11 after impact force is absorbed by the second support beam 17 and is transferred to before a part;Article 3, before a part behind impact force directly edge
Upper girder 11 transmits;Article 4, lower girder 12 after impact force is absorbed by the first support beam 14 and is transferred to before a part;Article 5,
The front impact force of a part is transmitted along rear lower girder 12.
By above-mentioned five bang paths, it is possible to impact force before effectively decomposing, it is to avoid front impact force is to rear support frame assembly 10
Damage, add bending stiffness and the torsional rigidity of rear support frame assembly 10, promote the stability of car load.
Upper girder 11 after being fixedly installed in due to swing arm, the swing of swing arm can be produced with B post 20 junction by upper girder 11 after making
Raw fracture.As it is shown on figure 3, when swing arm carries out the bottom with car, swing arm produces down force to rear upper girder 11, wherein, exist
Rear upper girder 11 and B post 20 junction, a part of active force is passed down to the first support beam 14, and passes along the first support beam 14
Passing, so, the first support beam 14 absorbs the swing arm active force to rear upper girder 11, and the first support beam 14 is to rear upper girder 11
To supporting role;And partial action power is absorbed decomposition by the second support beam 17 and the second vertical beam 16.Thus, by the first support beam
The supporting role of upper girder 11 after 14 pairs, the second support beam 17 and second vertical beam 16 traction action to rear upper girder 11, firm
Upper girder 11 after support, it is to avoid on after during the bottom, girder 11 is connected unstability with B post 20.
As shown in Figure 4, when swing arm carries out upper pendulum with car, swing arm produces active force upwards to rear upper girder 11, wherein,
Girder 11 and B post 20 junction, a part of active force tractive the first support beam 14, say, that after being arranged on rear
The first support beam 14 between upper girder 11 and rear lower girder 12, when rear upper girder 11 is by active force upwards, first
Upper girder 11 and the junction of B post 20 after support beam 14 tractive, it is to avoid rupture herein;A part of active force acts on second
On support beam 17 and the second vertical beam 16, it is communicated up along the second support beam 17 and the second vertical beam 16.So, by the first support beam 14
To the rear upper downward tractive of girder 11, and rear upper girder 11 is supported downwards by the second support beam 17 and the second vertical beam 16, thus absorbs
Decompose the swing arm active force to rear upper girder 11, it is to avoid on after during upper pendulum, girder 11 is connected unstability with B post 20.
In addition to above-mentioned rear support frame assembly 10, this utility model also provides for a kind of automobile, and this automobile includes above each reality
Executing the rear support frame assembly 10 in example, rear support frame assembly 10 please refer to above-mentioned elaboration with the connection of other components of vehicle body.
Owing to above-mentioned rear support frame assembly 10 has above technique effect, therefore, there is the automobile of this rear support frame assembly 10 also
Should have identical technique effect, not repeat them here.
In this article, " one " is not offered as the quantity of this utility model relevant portion being limited to " only this ", and
And " one " does not indicates that the situation of the quantity " more than one " getting rid of this utility model relevant portion.
In this article, " on ", D score, "front", "rear" etc. be only used for representing the relative position relation between relevant portion, and
The absolute position of these relevant portions non-limiting.
In this article, " first ", " second " etc. are only used for differentiation each other, rather than represent significance level and order and
The premise etc. existed each other.
Except as otherwise noted, numerical range herein not only includes the gamut in two end points, also includes containing
In some subranges therein.
It is to be understood that, although this specification describes according to each embodiment, but the most each embodiment only wraps
Containing an independent technical scheme, this narrating mode of description is only that for clarity sake those skilled in the art should
Description can also be formed people in the art through appropriately combined as an entirety, the technical scheme in each embodiment
Member may be appreciated other embodiments.
The a series of detailed description of those listed above is only for the tool of feasibility embodiment of the present utility model
Body illustrates, and and be not used to limit protection domain of the present utility model, all without departing from this utility model skill spirit made etc.
Effect embodiment or change, as feature combination, split or repeat, within should be included in protection domain of the present utility model.
Claims (8)
1. a rear support frame assembly, described rear support frame assembly (10) is installed on the rear end of the crew module of automobile, and it is special
Levy and be, including:
Rear upper girder (11), the front end of described rear upper girder (11) is connected to the B post (20) of automobile;
Rear auxiliary beam (15), the front end of described rear auxiliary beam (15) is connected to the B post (20) of automobile, and is positioned at described rear upper girder
(11) top;
Second vertical beam (16), described second vertical beam (16) vertically connects goes up girder (11) and described rear auxiliary beam (15) in the rear
Between, it is used for supporting described rear upper girder (11) and described rear auxiliary beam (15);With
Second support beam (17), described second support beam (17) connect obliquely go up in the rear girder (11) with described after upper the most auxiliary
Between beam (15), with described B post (20), described second vertical beam (16), described after upper auxiliary beam (15) and described after go up girder
(11) form the second support frame together, be used for supporting described rear upper girder (11) and described rear auxiliary beam (15).
2. rear support frame assembly as claimed in claim 1, it is characterised in that the front end of described second support beam (17) and institute
After stating, the front end lower wall of upper auxiliary beam (15) connects, and rear end is connected with the upper side wall of described rear upper girder (11).
3. rear support frame assembly as claimed in claim 2, it is characterised in that the front end of described second support beam (17) enters
Step is connected with the rear wall of described B post (20), for rear impact force upper girder (11) after described is transferred to described B post (20).
4. rear support frame assembly as claimed in claim 3, it is characterised in that the front end surface of described second support beam (17)
Including:
First is connected face (171), described first be connected face (171) with described after the lower wall of upper auxiliary beam (15) be connected;With
Second is connected face (172), and described second face (172) that is connected is connected with the rear wall of described B post (20).
5. rear support frame assembly as claimed in claim 2, it is characterised in that the rear end of described second support beam (17) enters
Step is connected with the front side wall of described second vertical beam (16), is used for connecting and support described rear upper girder (11), described second vertical beam
(16), described rear auxiliary beam (15) and described B post (20).
6. rear support frame assembly as claimed in claim 5, it is characterised in that the rear end end face of described second support beam (17)
Including:
3rd is connected face (173), the described 3rd be connected face (173) with described after the upper side wall of upper girder (11) be connected;With
4th is connected face (174), and the described 4th face (174) that is connected is connected with the front side wall of described second vertical beam (16).
7. rear support frame assembly as claimed in claim 1, it is characterised in that described second support beam (17) with described after on
Angle between girder (11) is in the range of 15 °~19 °.
8. an automobile, it is characterised in that described automobile includes the rear support frame assembly described in any one of claim 1 to 7
(10)。
Priority Applications (1)
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CN201620730463.8U CN205836957U (en) | 2016-07-12 | 2016-07-12 | A kind of rear support frame assembly and there is the automobile of this rear support frame assembly |
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CN201620730463.8U CN205836957U (en) | 2016-07-12 | 2016-07-12 | A kind of rear support frame assembly and there is the automobile of this rear support frame assembly |
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CN205836957U true CN205836957U (en) | 2016-12-28 |
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CN201620730463.8U Withdrawn - After Issue CN205836957U (en) | 2016-07-12 | 2016-07-12 | A kind of rear support frame assembly and there is the automobile of this rear support frame assembly |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106043453A (en) * | 2016-07-12 | 2016-10-26 | 北京长城华冠汽车科技股份有限公司 | Rear support framework assembly and automobile provided with rear support framework assembly |
-
2016
- 2016-07-12 CN CN201620730463.8U patent/CN205836957U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106043453A (en) * | 2016-07-12 | 2016-10-26 | 北京长城华冠汽车科技股份有限公司 | Rear support framework assembly and automobile provided with rear support framework assembly |
CN106043453B (en) * | 2016-07-12 | 2018-07-03 | 北京长城华冠汽车科技股份有限公司 | A kind of rear support frame assembly and the automobile with the rear support frame assembly |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20161228 Effective date of abandoning: 20180703 |
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AV01 | Patent right actively abandoned |