KR101204372B1 - Structure and method for mounting a vehicle battery - Google Patents

Abstract

Provides an easy and safe battery mounting structure and method for mounting on a vehicle. The battery mounting structure includes a floor panel; A battery mounted to the bottom of the floor panel between the left and right side members of the floor panel; A snap fastening element for snapping the battery to the floor panel bottom; And fastening elements configured to penetrate the side members in a horizontal direction from the outside of the side members to fix the battery to the side members.

Description

STRUCTURE AND METHOD FOR MOUNTING A VEHICLE BATTERY}

The present invention relates to a vehicle battery mounting structure and method for easy mounting in a vehicle.

Batteries as power sources are essential in hybrid and electric vehicles.

Since electric vehicles do not require exhaust pipes or fuel tanks, it is considered to install a battery at the bottom of the floor panel, and it is not easy to mount a battery having a heavy weight at the bottom of the floor panel.

As an example, the mounting of the electric vehicle battery may be performed by lifting the battery with a lift and placing the battery at the bottom of the floor panel. However, this method is not only inconvenient for the operator but also dangerous and difficult to apply to a vehicle assembly line where the space between the floor panel and the floor is not large.

The present invention has been proposed based on the recognition of the problems of the prior art as described above, and an object thereof is to provide a vehicle battery mounting structure and method that can be easily mounted on a vehicle.

The vehicle battery mounting structure according to the present invention for achieving the above object, the floor panel is disposed in the side member extending in the longitudinal direction on the left and right; A battery mounted to the bottom of the floor panel between the left and right side members; A snap fastening element provided at two or more different positions on the floor panel and the battery so as to snap the battery to the floor panel bottom; And a fastening element that penetrates the side members in a horizontal direction from the outside of the side members to fix the battery to the side members.

At least one of the snap fastening elements provided at the two or more different positions may be configured to allow the front and rear movement of the battery.

The snap fastening element allowing the forward and backward movement may include an annular striker and a latch engageable therein.

In addition, the snap fastening element other than the snap fastening element allowing the forward and backward movement may include a bar striker and a latch which can be fastened thereto.

In addition, at least one of the snap-type fastening elements provided at two or more different positions may be fastened in the vertical direction, and the other snap-fastening elements may be fastened in the horizontal direction.

In addition, in order to guide the battery to a fixed position, the guide panel may be further provided on the floor panel and the battery.

Further, the snap fastening element and the guide element may be configured such that the fastening by the at least one snap fastening element can be completed together at the time when the guidance of the battery to the fixed position by the guide element is completed. have.

In addition, the side member has a center floor side member on the front side and a rear floor side member disposed behind the battery, and the battery is formed on the front body disposed in the center floor side member area and the rear side member is extended to the rear floor side member. At least one pair of snap fastening elements may be provided on the upper surface of each of the front body and the rear body.

The apparatus may further include a hollow shaft installed inside the side member to surround the fastening element penetrating the inside of the side member, and a support member provided inside the side member to support the shaft under the hollow shaft.

On the other hand, the vehicle battery mounting method according to the present invention, by lifting the battery so as to be disposed between the side members extending in the longitudinal direction on the left and right sides of the vehicle floor panel, respectively, to fix the battery to the bottom of the floor panel with a snap fastening element And a second process of fixing the battery to the side member by penetrating the fastening element to the side member in the horizontal direction from the outside of the side member.

The snap fastening element in the first process is provided in at least two different positions, the snap fastening element of at least one of the two or more snap fastening elements is allowed to move forward and backward of the battery, but the left and right movements And the other snap fastening element is allowed to move the battery in the left and right, but the forward and backward movement can be limited.

In addition, in the first process, a guide element may be provided in the floor panel and the battery, so that the battery may be guided to a target fixing position during the snap fastening process.

In addition, in the first process, at the time when the guidance of the battery to the fixed position by the guide element is finished, the fixing by at least one snap-type fixing element can be completed together.

According to the vehicle battery mounting structure and method according to the present invention as described above, the mounting of the battery to the vehicle is easy and safe.

1 is a view according to an embodiment of the present invention, before the battery is mounted on the floor panel,
Figure 2 is a bottom view of the floor panel shown in Figure 1,
3 is a view showing that the battery is mounted on the floor panel shown in FIG.
4 is a view showing the arrangement position of the snap-in fixing element in FIG.
FIG. 5A is a schematic cross sectional view along line AA in FIG. 4, FIG.
5B is a schematic cross-sectional view along the a1-a1 line in FIG. 4;
5C is a cross sectional view along line BB of FIG. 4;
Figure 6a is a view showing the arrangement position of the snap fastening element in Figure 3,
6B is a schematic cross-sectional view along the CC line of FIG. 6A;
FIG. 6C is an enlarged view of the region indicated by L1 in FIG. 6B,
FIG. 6D is an enlarged view of the region indicated by L2 in FIG. 6B,
7 is a perspective view of the latch shown in FIG. 6B;
8a is a view showing an arrangement position of a guide element in FIG.
FIG. 8B is a schematic cross-sectional view along the DD line of FIG. 8A;
FIG. 8C is an enlarged view of the region marked G1 in FIG. 8B,
FIG. 8D is an enlarged view of the region marked G2 in FIG. 8B,
9 is a view for explaining a mounting sequence of a vehicle battery according to the present invention.

Hereinafter, a vehicle battery mounting structure and method according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 3, the structure of the floor panel 10 and the battery 50 according to the embodiment will be described.

Referring to FIG. 1, the floor panel 10 is provided with side members extending along a length direction on left and right sides. This side member includes a center floor side member 20 on the front side and a rear floor side member 30 disposed behind it. In the center floor, a tunnel 40 protruding in the shape of a hat extends in the longitudinal direction.

Referring to FIGS. 2 and 3 together with FIG. 1, the battery 50 extends in the rear of the front body 51 disposed in an area between the left and right pairs of center floor side members 20, It includes a rear body 53 disposed in the area between the rear floor side member 30.

The battery 50 is formed to correspond to the shape of the floor panel 10, in particular the bottom shape of the floor panel 10. The front body 52 disposed on the center floor is formed long in the front and rear direction, and the rear body 53 disposed on the rear floor is formed long in the width direction. On the front body 51, a hat-shaped protrusion 52 corresponding to the tunnel 40 of the floor panel 10 extends in the longitudinal direction.

As shown in FIGS. 2 and 3, the battery 50 is mounted at the bottom of the floor panel 10. The battery 50 has a structure in which a plurality of battery cells are stacked in a casing as is conventional.

4 to 9, a structure and a method of mounting the battery 50 on the floor panel 10 will be described.

4, the battery 50 is fixed to the side member by the through-type fastening element. 4 points (F1, F2) between the center floor side member 20 and the front body 51, 1 point left and right, 2 points (F3), 1 point each left and right between the rear floor side member 30 and the rear body 53, 6 points in total It is fixed in the horizontal direction by the fastening element at the point.

Referring to FIG. 5A, the fastening elements of the fixing points F1 and F2, for example, the bolt B, penetrate horizontally through the center floor side member 20 from the outside of the center floor side member 20, and the front end thereof is a battery. It is screwed into the casing 50a of the front body. According to this, since the worker does not have to work under the floor panel 10, the battery assembly to the vehicle is convenient.

Referring to FIG. 5B, the center floor side member 20 through which the bolt B penetrates is provided with a hollow shaft 22 so that the bolt B is surrounded, and the shaft 22 is below the shaft 22. Support member 21 for supporting the is provided.

The shaft 22 allows the shear force applied to the bolt B due to the weight of the battery 50 to be evenly transmitted to the entire bolt (B), the support member 21 is the entire shaft 22 Grooves are formed in a semicircle in cross section along the longitudinal direction on the contact surface with the shaft 22 so as to be uniformly and stably supported over the length.

On the other hand, the hollow sheet 52 made of a metal material is insert-molded in the casing 50a to which the front end of the bolt B is coupled to reinforce the fastening rigidity.

Figure 5c shows the fastening element at the F3 fixed point, for example bolt B passes horizontally through the rear floor side member 30 from the outside of the rear floor side member 30, the tip of which is the battery. It is screwed into the casing 50a of the front body.

Inside the rear floor side member 30 through which the bolt B penetrates, a hollow shaft 32 and a support member 31 are provided, and a sheet 52 is provided in the casing 50a. .

The battery 50 is lifted upward by a lift in an assembly line and snapped to the bottom of the floor panel 10, and then fixed in a horizontal direction by the above fastening element. With reference to Figures 6a to 7 will be described with respect to the snap fastening structure.

In FIG. 6A, a position at which the battery 50 is snapped to the floor panel 10 is displayed, and two points L1 and left and right sides of the front body 51 and left and right sides of the rear body 53 are shown. Two points (L2), one point at a time, all four points are fixed snap. F1 to F3 are horizontal fixed points, while L1 to L2 are vertical fixed points.

Looking at the snap fastening element at the L1 fixing point with reference to FIGS. 6B and 6C, the snap fastening element disposed on the front body 51 is disposed on the floor panel 10.

A rod striker 60a, the rod striker 60a, and a latch 70 disposed on an upper surface of the battery 50 so as to be fastened horizontally with the rod striker 60a.

6C and 7, the latch 70 is laid down so that the ring member 71 faces in the rearward direction and is fixed to the battery 50. Therefore, the battery 50 may be fastened to the latch 70 by the rod-shaped striker 60a by slightly moving from the front to the rear. The stopper 61 provided at the tip of the bar striker 60a is larger than the opening 72 defined by the loop member 71, so that the inserted bar striker 60a cannot escape from the loop member 71.

As shown in Figure 6c, the rod-shaped striker (60a) is installed on the center floor 11 using the bracket (11a), the latch 70 is also a seating portion provided on the battery 50 using the bracket (71a) It is installed in 53a. Naturally, the bracket 71a is formed in a shape that does not interfere with the detachable operation between the rod-shaped striker 60a and the latch 70.

6D shows the snap fastening element at the L2 anchor point. As shown in this figure, the snap fastening element disposed on the rear body 53 is capable of being fastened vertically with the annular striker 60b disposed on the rear floor 12 and the annular striker 60b. A latch 70 disposed at 50.

Unlike the L1 fixing point, the latch 70 is erected so that the ring member 71 faces upward and is fixed to the battery 50. Therefore, the ring striker 60b and the latch 70 may be coupled to each other in the process of lifting the battery 50 upward. It should be noted here that, due to the shape of the annular striker 60b, the battery 50 can be moved to a certain degree in the front-rear direction even in a fastened state. Reference numerals 13a and 71b are brackets, respectively.

The specific configuration of the latch 70 can be designed by applying a variety of well-known, conventional or known techniques.

The battery 50 and the floor panel 10 are provided with a guide element for guiding the battery 50 to a target fixed position during the snap fastening process. The guide element will be described with reference to FIGS. 8A to 8D.

In FIG. 8A, the arrangement positions of the guide elements are shown. Two points G1 of left and right points on the front body 51 side and two points G2 of left and right points on the rear body 53 side of the battery 50 are both present. It is arranged at four points. These four guide element arrangement positions G1 and G2 are disposed somewhat inward of the snap-type fixing positions L1 to L3 so as not to overlap with the snap-type fixing positions L1 to L3.

8B and 8C, a guide element, for example, a guide pin P, is installed on the front body 51 of the battery 50 so that its tip faces rearward. Guide pin (P) is installed on the seating portion (54a) of the upper surface of the front body 51 by using a bracket (55a), correspondingly through the center floor (11) can be inserted into the guide pin (P) distal end portion Guide brackets 11a and 11b having holes are installed.

8B and 8D, the rear body 53 of the battery 50 has a seating portion on the upper surface of the rear body 53 by using the bracket 55b so that the guide pin P is directed forward. It is provided on 54b, and correspondingly, the rear floor 12 is provided with guide brackets 12b and 12c having through-holes into which the tip of the guide pin P can be inserted. On the other hand, the nut (N) is fastened to the tip of the rear body 53, the guide pin (P).

9, the vehicle battery mounting method according to the embodiment will be described in more detail.

According to the embodiment, the battery 50 is a lift process for lifting the battery 50, the snap 50 is fixed to the bottom of the floor panel 10 so that the battery 50 is disposed between the side members (20, 30) The battery 50 is assembled to the vehicle in such a manner that the battery 50 is fixed to the side members 20 and 30 in a horizontal direction by using a process and a fastening element.

The lift process may be performed using various known lift devices. Of course, instead of lifting the battery 50, the floor panel 10 may be lowered and coupled to the battery 50 may be possible.

The snap fastening process may be completed by simply bringing the upwardly lifted battery 50 into close contact with the bottom of the floor panel 10. However, the battery 50 is guided to the target fixed position by the guide element during the snap fastening process so that the horizontal fastening using the following fastening elements can be made in the correct position.

According to an embodiment, the snap fastening is performed after the snap fastening element (snap fastening element in the L2 position in FIG. 6A) disposed on the rear body 53 side of the battery 50 is fastened, and then the front body 51. The snap fastening elements (side snap fastening elements in the L1 position in Fig. 6A) arranged on the side are made in the order of being fastened.

Specifically, the snap-in fastening is a first step in which the latch 70 of the L2 position is engaged with the annular striker 60b at a position slightly ahead of the target fixing position, and the battery 50 is moved backwards so that the latch of the L1 position ( 70 is made through a second step of engaging the rod-shaped striker 60a.

Then, the completion of the second step is performed at the time when the guidance of the battery 50 to the target fixed position by the guide element ends.

On the other hand, according to another embodiment snap fastening, the front and rear movement of the battery 50 is allowed by the snap-type fastening element of the rear body 53 is limited to the horizontal movement of the front body 51, By the snap fastening element, the left and right movement of the battery 50 is allowed, but may be made in such a way that the forward and backward movement is limited.

Specifically, an annular striker 60b is used instead of the rod-shaped striker 60a installed at the front body 51 at the L1 position, but the pair of annular strikers 60b of the rear body 53 are as shown in FIG. 6B. A pair of annular strikers 60b of the front body 51 are to be placed in the left and right directions. In this case the need for the guide element is relatively less, and the snap fastening operation becomes simpler.

The horizontal fastening using the fastening element is made in such a manner that the front end of the fastening element penetrates the side members 20 and 30 in the horizontal direction from the outside of the side members 20 and 30 so that the front end thereof is fastened to the battery casing 50a. . According to this, the fastening work is convenient and accident risk can be avoided.

Although specific embodiments of the present invention have been shown and described, the present invention may be variously modified and changed without departing from the spirit of the invention as set forth in the claims below, and this is in the technical field of the present invention. It should be understood that it is self-evident to those of ordinary knowledge.

10: Floor Panel 11: Center Floor
12: rear plug 20: centerside member
21, 31: support member 22, 32: hollow shaft
30: rear side member 40: tunnel
50: battery 50a: battery casing
51: front body 53: rear body
60a, 60b: striker 70: latch

Claims (13)

A floor panel having side members extending in a length direction on left and right sides thereof;
A battery mounted to the bottom of the floor panel between the left and right side members;
A snap fastening element provided at two or more different positions on the floor panel and the battery so as to snap the battery to the floor panel bottom; And
Includes a fastening element for penetrating the side member in the horizontal direction from the outside of the side member to fix the battery to the side member,
At least one of the snap fastening elements provided in the two or more different positions of the snap fastening elements can be fastened in the vertical direction, the other snap fastening elements are vehicle battery mounting structure, characterized in that can be fastened in the horizontal direction. The vehicle battery mounting structure of claim 1, wherein at least one of the snap fixing elements provided at two or more different positions is configured to allow the battery to move forward and backward. The vehicle battery mounting structure according to claim 2, wherein the snap fastening element allowing the forward and backward movement includes an annular striker and a latch engageable therewith. 4. The vehicle battery mounting structure of claim 3, wherein the snap fastening elements other than the snap fastening elements allowing the forward and backward movement include a rod striker and a latch engageable therewith in a horizontal direction. delete The vehicle battery mounting structure according to any one of claims 1 to 4, further comprising a guide element provided in the floor panel and the battery for guiding the battery to a fixed position targeting the battery. The method according to claim 4, wherein the snap fastening element and the guide element,
And at the time when the guidance of the battery to the fixed position by the guide element is ended, the vehicle battery mounting structure, characterized in that the fixing by at least one snap-type fixing element can be completed together. The method according to claim 1,
The side member includes a center floor side member at the front side and a rear floor side member disposed at the rear thereof.
The battery includes a front body disposed in the center floor side member region and a rear body extending from the rear side and disposed in the rear floor side member region.
At least one pair of snap fastening elements are provided on the upper surface of each of the front body and the rear body vehicle battery mounting structure. The method according to claim 1,
The vehicle battery mounting further comprises a hollow shaft installed inside the side member to surround the fastening element penetrating the inside of the side member, and a support member provided inside the side member to support the shaft under the hollow shaft. rescue. In a vehicle battery mounting method in a vehicle assembly line,
A first process of lifting the battery and fixing the battery to the bottom of the floor panel with a snap fastening element so as to be disposed between the side members extending in the longitudinal direction on the left and right sides of the vehicle floor panel,
And a second process of fixing the battery to the side member by penetrating the fastening element to the side member in a horizontal direction from the outside of the side member,
In the first process,
Guide elements are provided on the floor panel and the battery, such that the battery is guided to a target fixing position during a snap fastening process.
At the time when the guidance of the battery to the fixed position by the guide element is finished, the fixing by at least one snap-type fixing element is completed together
Vehicle battery mounting method characterized in that. The method of claim 10, wherein the snap fastening element in the first process is provided in at least two different positions,
And at least one of the snap fastening elements provided at the two or more different positions allows the front and rear movement of the battery. delete delete

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