阅读说明：本技术 门槛加强板安装结构 (Threshold reinforcing plate mounting structure ) 是由 胡钊 宁小岳 周伟 谢德艳 陈艳华 于 2021-07-06 设计创作，主要内容包括：本发明的目的是提供一种左右共用且生产成本低、效率高的门槛加强板安装结构,包括长度与车长方向一致的门槛加强板,门槛加强板相对于过铅垂面的中心面前后对称布置,门槛加强板的前端与A柱加强板后端设置的搭接面连接,门槛加强板的后端与门槛后连接板前端设置的搭扣连接。上述方案中,将门槛加强板设计成前后对称结构,以门槛加强板为基准,连接机构设置在其他周边件上,从而实现门槛加强板左右共用,可以实现辊压件可以节约1套模具,节省约30W,降低一次性开发成本,降低了生产空间和人员的同时,使得生产效率也得到了提高,因此也降低了单车开发成本。(The invention aims to provide a doorsill reinforcing plate mounting structure which is shared from left to right and has low production cost and high efficiency. In the above scheme, design into symmetrical structure around the threshold reinforcing plate to the threshold reinforcing plate is the benchmark, and coupling mechanism sets up on other periphery pieces, thereby realizes that the threshold reinforcing plate is used from left to right, can realize that 1 set of mould can be practiced thrift to the roll-in piece, saves about 30W, reduces disposable development cost, when having reduced production space and personnel, makes production efficiency also obtain improving, has consequently also reduced bicycle development cost.)

1. A threshold reinforcing plate mounting structure includes a threshold reinforcing plate (10) having a length in accordance with a vehicle length direction, characterized in that: the doorsill reinforcing plate (10) is arranged in a front-back symmetrical mode relative to a center plane of a vertical plane, the front end of the doorsill reinforcing plate (10) is connected with a lapping surface arranged at the rear end of the A-column reinforcing plate (20), and the rear end of the doorsill reinforcing plate (10) is connected with a hasp arranged at the front end of a doorsill rear connecting plate (30).

2. The rocker reinforcing plate mounting structure according to claim 1, wherein: the doorsill reinforcing plate (10) comprises a bottom plate (11) with the length consistent with the car length direction and the plate surface in the vertical plane, upper and lower side plates (12 and 13) which are integrally located in the horizontal plane are arranged at the edges of the upper and lower plates of the bottom plate (11), the bottom plate (11) and the upper and lower side plates (12 and 13) form a U-shaped groove structure, a groove opening is arranged towards a side wall outer plate (40), and upper and lower flanges (14 and 15) are outwards turned over at the free plate edges of the upper and lower side plates (12 and 13).

3. The rocker reinforcing plate mounting structure according to claim 2, wherein: the upper flanging (14) is provided with multistage avoiding steps (141), the multistage avoiding steps (141) are symmetrically arranged on the upper flanging (14) front and back, and the multistage avoiding steps (141) are welded and fixed with hasps (41) arranged on the side wall outer plate (40).

4. The rocker reinforcing plate mounting structure according to claim 2, wherein: the bottom plate (11) is provided with a plurality of mounting holes (111) and lightening holes (112), and the mounting holes (111) and the lightening holes (112) are symmetrically arranged on the bottom plate (11) in front and back.

5. The rocker reinforcing plate mounting structure according to claim 2, wherein: a plurality of liquid leakage holes (a) are arranged on the upper side plate (12) and the lower side plate (13) at intervals along the length direction of the upper side plate and the lower side plate, and the liquid leakage holes (a) are symmetrically arranged on the upper side plate and the lower side plate (12/13) front and back.

6. The rocker reinforcing plate mounting structure according to claim 5, wherein: a plurality of rubber block mounting holes (121) are formed in the position, corresponding to the lower end of the B-column reinforcing plate (50), of the upper side plate (12), and the positions of the rubber block mounting holes (121) are symmetrically arranged on the upper side plate (12) in the front-back direction.

7. The rocker reinforcing plate mounting structure according to claim 6, wherein: the number of the rubber block mounting holes (121) is 4, and the rubber block mounting holes (121) positioned on the two sides of the center line of the upper side plate (12) are different in size and/or shape.

8. The rocker reinforcing plate mounting structure according to claim 2, wherein: the cross section of the doorsill reinforcing plate (10) is a flaring U-shaped groove, and the plate surfaces of the upper side plate (12) and the lower side plate (13) are inclined surfaces.

Technical Field

The invention relates to the technical field of automobile body assembly, in particular to a threshold reinforcing plate mounting structure.

Background

The strength of the automobile doorsill structure, which is an important component of a body-in-white, is directly influenced by the deformation of a passenger compartment during a side collision, thereby influencing the side collision safety performance of the automobile. At present, a doorsill structure mainly comprises a doorsill inner plate and a doorsill reinforcing plate, wherein the doorsill reinforcing plate belongs to a key structural member in an automobile, and the structure has high requirements on the lateral collision resistance and the pillar collision deformation resistance. In order to meet the requirements of safety performance and side impact, the doorsill reinforcing plate is more and more common by adopting a rolling part, the structure of the doorsill reinforcing plate is shown in figures 1 and 2, the front part of the doorsill reinforcing plate 1 is provided with an avoiding part 2 and a lap edge 3 which are matched with a lower A column reinforcing plate 6, the middle part of the doorsill reinforcing plate is provided with a lap joint bulge part 4 connected with a B column reinforcing plate, the rear part of the doorsill reinforcing plate is provided with a lap edge 3 connected with a doorsill rear connecting plate 7 and a hasp 5 lapped with a side wall outer plate, and the positions of liquid leakage on the doorsill reinforcing plate 1, rubber block mounting holes and the like are randomly designed. Threshold reinforcing plate is bilateral symmetry spare, a left side, the central symmetry of right side threshold reinforcing plate for the car, but a left side, right side threshold reinforcing plate self is asymmetric, consequently need 2 roll-in production lines when production, what the increase of production line had certainly brought is the increase of disposable cost, 2 roll-in production lines occupy production area also big moreover, it is also many to consume the manual work, simultaneously in car assembling process, in order to distinguish left and right threshold reinforcing plate, prevent the mistake of adorning, this can influence production efficiency to a certain extent.

Disclosure of Invention

The invention aims to provide a doorsill reinforcing plate mounting structure which is shared from left to right and has low production cost and high efficiency.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a threshold reinforcing plate mounting structure, includes the threshold reinforcing plate that length and car length direction are unanimous, and symmetrical arrangement around the central plane of threshold reinforcing plate for crossing plumb face, the overlap joint face that the front end and the A post reinforcing plate rear end of threshold reinforcing plate set up is connected, the hasp connection that the rear end and the threshold rear junction plate front end of threshold reinforcing plate set up.

In the above scheme, design into symmetrical structure around the threshold reinforcing plate to the threshold reinforcing plate is the benchmark, and coupling mechanism sets up on other periphery pieces, thereby realizes that the threshold reinforcing plate is used from left to right, can realize that 1 set of mould can be practiced thrift to the roll-in piece, saves about 30W, reduces disposable development cost, when having reduced production space and personnel, makes production efficiency also obtain improving, has consequently also reduced bicycle development cost.

Drawings

FIG. 1 is a front view of a prior art rocker reinforcement panel;

FIG. 2 is an assembly view of the rocker reinforcement of FIG. 1;

FIG. 3 is a perspective view of a rocker reinforcement panel of the present invention;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is an assembly view of a rocker reinforcement panel of the present invention;

fig. 6 is a schematic structural view of the B-pillar reinforcement plate 50 and the quarter outer plate 40.

Detailed Description

As shown in fig. 3 to 6, a mounting structure of a sill reinforcement plate includes a sill reinforcement plate 10 having a length in accordance with a vehicle length direction, the sill reinforcement plate 10 is symmetrically arranged in front and rear with respect to a center plane of a vertical plane, a front end of the sill reinforcement plate 10 is connected to a faying surface provided at a rear end of an a-pillar reinforcement plate 20, and a rear end of the sill reinforcement plate 10 is connected to a buckle provided at a front end of a sill rear connection plate 30. Design threshold reinforcing plate 10 into symmetrical structure around, use threshold reinforcing plate 10 as the benchmark, coupling mechanism sets up on other periphery spare, cooperate threshold reinforcing plate 10 with other periphery spare, thereby realize threshold reinforcing plate 10 left and right commonness, can realize that 1 set of mould can be practiced thrift to the roll-casting part, save about 30W, reduce disposable development cost, when having reduced production space and personnel, make production efficiency also obtain improving, consequently also reduced bicycle development cost.

Further, the doorsill reinforcing plate 10 comprises a bottom plate 11, the length of the bottom plate is consistent with the car length direction, the plate surface of the bottom plate is located in the vertical plane, upper and lower side plates 12 and 13 integrally located in the horizontal plane are arranged at the edges of the upper and lower plates of the bottom plate 11, the upper and lower side plates 12 and 13 form a U-shaped groove structure, the groove opening is arranged towards the side wall outer plate 40, and upper and lower flanges 14 and 15 are outwards turned over at the free plate edges of the upper and lower side plates 12 and 13.

Because the B-pillar reinforcing plate 50 or other parts avoid the steps, the central symmetry cannot be realized, the upper flanging 14 is provided with the multistage avoiding steps 141, the multistage avoiding steps 141 are symmetrically arranged on the upper flanging 14 in the front-back direction, and the multistage avoiding steps 141 and the hasps 41 arranged on the side wall outer plate 40 are welded and fixed. The avoidance step is divided into a plurality of small subsection avoidance steps 141, so that the central symmetry of the doorsill in the front-back direction can be realized, and the left-right use is realized.

Further, a plurality of mounting holes 111 and lightening holes 112 are arranged on the bottom plate 11, and the mounting holes 111 and the lightening holes 112 are symmetrically arranged in front and back on the bottom plate 11.

A plurality of liquid leakage holes a are arranged on the upper side plate 12 and the lower side plate 13 at intervals along the length direction of the upper side plate and the lower side plate, and the plurality of liquid leakage holes a are symmetrically arranged on the upper side plate 12/13 in the front-back direction, and rainwater can flow out from the liquid leakage holes a.

Aiming at the problem of installing the rubber blocks on the doorsill reinforcing plate 10 at the lower end of the B column, a plurality of rubber block installing holes 121 are formed in the position, corresponding to the lower end of the B column reinforcing plate 50, of the upper side plate 12, and the positions of the rubber block installing holes 121 are symmetrically arranged on the upper side plate 12 in a front-back mode.

Left and right sides is if gluing piece mounting hole 121 position and be central symmetry, then the symmetry side direct adopt original glue piece mounting hole 121 can, if the left and right sides can't accomplish to central symmetry, then newly open two for the symmetry side again and glue piece mounting hole 121, glue piece mounting hole 121 be provided with 4 altogether, for avoiding the misloading, the gluey piece mounting hole 121 size and/or the shape that is located 12 central line both sides of epipleural is different, utilizes the mounting hole difference of both sides, for example the size in the aperture of round hole or a round hole, two holes that once adopted square hole or other characteristics can realize.

In order to improve the overall strength of the rocker reinforcement plate 10, the cross section of the rocker reinforcement plate 10 is a U-shaped groove having an enlarged mouth, and the plate surfaces of the upper and lower side plates 12, 13 are inclined surfaces.