JP7215214B2 - Fuel tank mounting structure - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure for a fuel tank that is arranged below a floor panel and supported on a vehicle body using mounting bands.

Conventionally, in the floor structure of a vehicle, the rear floor panel is connected to the rear floor panel via a kick-up portion that rises upward from the rear end of the front floor panel. It is generally provided immediately after the part.

On the other hand, in a hybrid vehicle or the like, the battery pack may be provided from the front floor panel to the kick-up portion, or may be arranged close to the rear of the rear suspension.
In such a case, it is preferable to place the fuel tank as far forward as possible in consideration of rear collision. When the rear suspension is mounted on the vehicle body, if the fuel tank and the rear suspension come into contact with each other, the paint on the rear suspension is peeled off, resulting in a reduction in rust prevention effect.

In order to solve such problems, it is conceivable to form a recess in the fuel tank for the purpose of securing the distance between the rear suspension, but in this case the following problems occur. .
In other words, the fuel tank must be sealed to prevent vaporized fuel from leaking out when the engine is stopped. is concerned.

By the way, in Patent Document 1, in a structure in which the fuel tank is supported on the vehicle body via a mounting band, the fuel tank is attached to the front and rear of the vehicle in order to avoid interference with the adjacent floor functional parts such as cross members. Disclosed is a crank belt that forms a recess in the middle lower portion and pulls the mounting band upward along the recess.
However, the conventionally structured crank belt disclosed in Patent Document 1 is not a belt suspension for preventing expansion of the recessed portion of the fuel tank due to tank internal pressure.

JP-A-5-155258

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a fuel tank mounting structure capable of suppressing the expansion of the recessed portion of the fuel tank by utilizing the binding force of the mounting band.

A fuel tank mounting structure according to the present invention includes a fuel tank disposed below a floor panel and having a concave portion formed in a non-top surface of the fuel tank, and a fuel tank that restrains the fuel tank from below so that the fuel tank is mounted on the floor. a mounting band that supports the panel; and a restraining bracket that contacts the fuel tank from the outside along the shape of the recess of the fuel tank. A plurality of the mounting bands and the restraining brackets are provided so as to abut against the recesses of the tank and are spaced apart in the vehicle width direction. A recess is formed continuously between the restraint brackets, and a connection member is provided that bridges the restraint brackets in the vehicle width direction in correspondence with the most recessed portion of the recess while being close to the recess. is.
The above fuel tank non-top surface portion means a surface portion other than the top surface portion of the fuel tank. Further, the fuel tank described above is preferably made of synthetic resin for weight reduction.

According to the above configuration, since the restraining bracket is brought into contact with the concave portion of the fuel tank by the restraining force of the mounting band, the restraining bracket restrains the expansion of the concave portion of the fuel tank by utilizing the restraining force of the mounting band. Moreover, a general-purpose mounting band can be used as the mounting band without requiring a special band.

Furthermore , according to the above configuration, the recess of the fuel tank is reliably held down in the installation direction of the mounting band via the restraining bracket, and the most recessed portion of the recess, that is, the fuel tank, is most likely to swell between the restraining brackets. The portion can be reliably held down by the connecting member, and the weight of the restraining structure consisting of the restraining bracket, the connecting member, and the mounting band can also be reduced.

In one embodiment of the present invention, the attachment band abutment portion of the restraint bracket is formed with a guide portion for regulating the band position.
The guide portion described above may comprise a guide flange portion.

According to the above configuration, since the guide portion is formed at the predetermined portion of the restraint bracket, the restraint bracket can be sufficiently secured even when the internal pressure of the fuel tank rises, while securing the effect of improving the rigidity of the restraint bracket by the guide portion. It is possible to secure the yield strength, and to secure the effect of preventing the mounting band from being displaced by the guide portion.

In one embodiment of the present invention, a horizontal flange portion is formed in the vertical middle portion of the fuel tank, and the fuel tank is attached to the vehicle body via a mounting bracket attached to the horizontal flange portion, The mounting bracket, the mounting band, and the restraining bracket are fastened together to the horizontal flange portion.
According to the above configuration, the angular displacement between the portion of the restraining bracket that is fastened together with the horizontal flange portion and the portion that abuts on the recess is suppressed, and the restraining bracket ensures the expansion of the recess of the fuel tank. can be suppressed.

In one embodiment of the present invention, a torsion beam of a rear suspension is arranged in front of and close to the lower part of the fuel tank, and the recess is formed in a portion facing the torsion beam.
According to the above configuration, since the recess is provided at a portion facing the torsion beam, when the rear suspension is mounted on the vehicle body after the fuel tank is mounted on the vehicle body, the torsion beam and the fuel tank are separated from each other by the recess. In addition, expansion of the recessed portion of the fuel tank can be suppressed by the restraint bracket described above.

According to the present invention, expansion of the recessed portion of the fuel tank can be restrained by the restraining bracket by utilizing the restraining force of the mounting band.

1 is a perspective view showing a mounting structure for a fuel tank according to the present invention; FIG. Sectional view showing the structure related to the fuel tank and the rear suspension Sectional view showing the mounting structure of the fuel tank to the vehicle body AA cross-sectional view of FIG. 3 FIG. 4 is a perspective view showing another embodiment of the fuel tank mounting structure; Sectional view showing the structure related to the fuel tank and the rear suspension Sectional view showing the mounting structure of the fuel tank to the vehicle body (a) is a cross-sectional view taken along the line BB in FIG. 7, and (b) is an enlarged cross-sectional view of the main part along the line CC in FIG.

For the purpose of suppressing the expansion of the concave portion of the fuel tank by utilizing the restraining force of the mounting band, a fuel tank mounting structure is provided below the floor panel and the concave portion is formed on the non-upper surface of the fuel tank. and a mounting band that restrains the fuel tank from below and supports the fuel tank on the floor panel, the fuel tank extending outward along the shape of the recess of the fuel tank. A restraining bracket is provided that abuts from the side, and the restraining bracket is brought into contact with the recessed portion of the fuel tank by the restraining force of the mounting band.

An embodiment of the invention will be described in detail below with reference to the drawings.
The drawings show the mounting structure of the fuel tank, FIG. 1 is a perspective view showing the mounting structure of the fuel tank of this embodiment, FIG. 2 is a sectional view showing the structure related to the fuel tank and the rear suspension, and FIG. 4 is a cross-sectional view taken along the line A--A in FIG. 3, showing the structure for attachment to the vehicle body.

In FIG. 3, a rear floor panel 10 is provided as a floor panel forming the bottom surface of the luggage compartment, and a cross member 11 (so-called No. 4 cross member) having an inverted hat shape in cross section is joined to the front lower surface of the rear floor panel 10. A closed cross section 12 extending in the vehicle width direction is formed between the rear floor panel 10 and the cross member 11 by fixing them.

A rear cross member 13 (so-called No. 4/5 cross member) having an inverted hat shape in cross section is joined to the rear lower surface of the rear floor panel 10 at a position spaced rearward in the vehicle front-rear direction from the cross member 11. A closed cross-section 14 extending in the vehicle width direction is formed between the rear floor panel 10 and the rear cross member 13 by fixing them.
Both the cross member 11 and the rear cross member 13 described above are vehicle body strength members.

As shown in FIGS. 2 and 3, a torsion beam type rear suspension 15 as a rear suspension is provided below the rear floor panel 10 described above.
The torsion beam type rear suspension 15 includes a pair of left and right trailing arms 16, 16, a torsion beam 17 as a torsion bar spring connecting the pair of left and right trailing arms 16, 16 in the vehicle width direction, and the torsion beam 17. and a lower spring seat 18 provided to straddle between the torsion beam 17 and the trailing arm 16 at the intersection where the trailing arm 16 intersects, and the lower spring seat 18 is provided on the vehicle front end side of the trailing arm 16. The pivot portion 16a is swingably pivoted with respect to the rear vehicle body, and is configured to support the rear wheel on the rear end side of the vehicle.

As shown in FIGS. 2 and 3, a fuel tank 20 is located below the rear floor panel 10 between the cross member 11 and the rear cross member 13 and in the vicinity of the torsion beam 17 of the torsion beam type rear suspension 15. are arranged.
In this embodiment, the fuel tank 20 described above is disposed in the intermediate portion between the trailing arms 16, 16 in the vehicle width direction. 2, the torsion beam type rear suspension 15 is shown in its neutral position.

As shown in FIGS. 1 to 4, the fuel tank 20 described above is made of synthetic resin. Further, the fuel tank 20 is integrally formed with a front surface portion 20F, a rear surface portion 20R, an upper surface portion 20U, a bottom surface portion 20B, a vehicle left side portion 20LE, and a vehicle right side portion 20RI. be.

As shown in FIGS. 2 and 3, a horizontal flange portion 21 projecting forward of the vehicle from the front surface portion 20F of the fuel tank 20 is integrally formed at an intermediate portion in the vertical direction of the front surface portion 20F. As shown in the figure, a horizontal flange portion 22 is also integrally formed in the vertical middle portion of the rear surface portion 20R of the fuel tank 20 so as to protrude rearward of the vehicle from the rear surface portion 20R.
As shown in FIGS. 2 and 3, in this embodiment, the vertical height position of the front horizontal flange portion 21 is higher than the vertical height position of the rear horizontal flange portion 22. It is formed like this.
Further, as shown in FIG. 1 , an inlet port 23 for supplying fuel to the fuel tank 20 is provided on a side portion 20LE of the fuel tank 20 on the left side of the vehicle.

As shown in FIGS. 2 and 3, the fuel tank 20 arranged close to the torsion beam 17 is provided as a non-upper surface portion of the fuel tank 20 for the purpose of avoiding interference with the torsion beam 17 when the rear suspension 15 swings. A concave portion 24 is formed in the front surface portion 20F.

As shown in FIG. 1, the recessed portion 24 is formed across the entire width of the front portion 20F of the fuel tank 20 in the vehicle width direction, and as shown in FIG. 3 from directly below the horizontal flange portion 21 of the fuel tank 20 to the upper end of the curved front lower corner portion 20a connecting the front surface portion 20F and the bottom surface portion 20B of the fuel tank 20. The recessed portion 24 is formed so as to be recessed toward the rear side of the vehicle, as shown in FIG.

As shown in FIGS. 1 to 3, the fuel tank 20 is attached to the cross member 11 and the rear cross member 13 via a pair of left and right mounting bands 30, 30 spaced apart in the vehicle width direction and a mounting bracket 31. Supported.
The mounting band 30 includes a front surface portion 30F, a rear surface portion 30R, a bottom surface portion 30B, a flange portion 30C extending forward of the vehicle from the upper end of the front surface portion 30F, and a flange portion 30D extending rearward of the vehicle from the upper end of the rear surface portion 30R. and is a metal tank band integrally formed.
The mounting bracket 31 described above is a metal bracket integrally formed with a body-side flange portion 31a, a tank-side flange portion 31b, and a connecting portion 31c that connects the two flange portions 31a and 31b.

As shown in FIG. 3, on the front side of the fuel tank 20, bolts 25 and nuts 26 are used for the horizontal flange portion 21 to connect the tank side flange portion 31b of the mounting bracket 31 and the flange portion 30C of the mounting band 30 together. is fastened.
Similarly, on the rear side of the fuel tank 20, bolts 27 and nuts 28 are used on the horizontal flange portion 22 to fasten and fix the tank side flange portion 31b of the mounting bracket 31 and the flange portion 30D of the mounting band 30. there is

Further, the mounting bracket 31 attached to the horizontal flange portion 21 on the front side has its body side flange portion 31a fastened and fixed to the lower surface portion of the cross member 11 using bolts 32 and weld nuts 33. The mounting bracket 31 attached to the horizontal flange portion 22 of the rear cross member 13 is fastened and fixed at the body-side flange portion 31 a thereof to the lower surface portion of the rear cross member 13 using bolts 34 and weld nuts 35 .

Although schematically illustrated in FIGS. 2 and 3, flanges 30a are integrally formed over the entire length of the band in the longitudinal direction on both sides of the mounting band 30 in the band width direction, as shown in FIGS. The flange 30a improves the rigidity of the mounting band 30 and prevents the band from shifting in the left-right direction (vehicle width direction).
As shown in FIG. 2, downwardly extending flanges 31d are integrally formed on both sides of the mounting bracket 31 in the vehicle width direction. .

The left and right mounting bands 30 described above restrain the fuel tank 20 from below and support the fuel tank 20 on the rear floor panel 10 via the cross member 11 and the rear cross member 13 .
The fuel tank 20 of this embodiment is constructed to be attached to the cross member 11 and the rear cross member 13 as the vehicle body via attachment brackets 31, 31 attached to the horizontal flange portions 21, 22 described above.

As shown in FIG. 3, a restraint bracket 40 is provided along the shape of the concave portion 24 of the fuel tank 20 described above and contacts the fuel tank 20 from the outside (front side).
As shown in FIG. 3, the restraining bracket 40 is made of metal. The restraint bracket 40 includes an arc-shaped portion 40a projecting rearward along the recess 24, and an upper side portion provided on the upper portion of the arc-shaped portion 40a and in contact with the rear surface of the front surface portion 30F of the mounting band 30. 40b, a lower side portion 40c provided at the lower portion of the arc-shaped portion 40a and abutting on the rear surface of the front surface portion 30F of the mounting band 30, and a flange portion 40d extending from the upper end of the upper side portion 40b toward the front of the vehicle. It is formed.

A binding bracket 40 provided between the concave portion 24 of the fuel tank 20 and the front surface portion 30F of the mounting band 30 is configured to contact the concave portion 24 of the fuel tank 20 with the binding force of the mounting band 30 .
As a result, expansion of the recessed portion 24 of the fuel tank 20 due to an increase in tank internal pressure is suppressed by the restraining bracket 40 by utilizing the restraining force of the mounting band 30, and a special tank band is used as the mounting band 30. It is constructed so as to use a general-purpose tank band without requiring a tank band.

As shown in FIGS. 1 and 4, in this embodiment, a plurality of mounting bands 30 and restraint brackets 40 are provided spaced apart in the vehicle width direction. It is provided in the vertical direction, which is the installation direction of the front face portion 30</b>F of the mounting band 30 .

Further, as shown in FIG. 1, the recess 24 is formed continuously between at least the restraint brackets 40,40. In this embodiment, the recess 24 is formed not only between the restraining brackets 40, 40 but also over substantially the entire width of the front surface portion 20F as the non-upper surface portion of the fuel tank 20 in the vehicle width direction. A connecting member 41 made of a metal pipe is provided to bridge between the restraint brackets 40, 40 in the vehicle width direction corresponding to the most recessed portion of the recess 24. As shown in FIG.

Here, the connecting member 41 made of the metal pipe described above and the front surface portion 30F of the mounting band 30 made of metal are fixed by welding.
As a result, the recessed portion 24 of the fuel tank 20 is reliably held down in the installation direction (vertical direction) of the mounting band 30 via the restraining brackets 40 described above, and the most recessed portion of the recessed portion 24 between the plurality of restraining brackets 40 , 40 is provided. In other words, the portion where the fuel tank 20 is most likely to swell is securely held down by the connecting member 41, and the weight of the fuel tank restraining structure comprising the restraining bracket 40, the connecting member 41, and the mounting band 30 is reduced. be.

As shown in FIGS. 1 to 3, between the bottom surfaces 30B, 30B of the pair of left and right mounting bands 30 that are spaced apart in the vehicle width direction, connecting members made of metal pipes that extend in the vehicle width direction are also spaced in the front-rear direction. 42 and 43 are bridging. These connecting members 42 and 43 and the bottom portions 30B and 30B of the mounting band 30 are fixed by welding, thereby preventing the fuel tank 20 from swelling and the mounting band 30 from slipping. .

As shown in FIGS. 1 and 4, at the left end of the restraint bracket 40 on the left side of the vehicle, at least an upper side portion 40b and a lower side portion 40c, which are abutting portions with which the mounting band 30 abuts, are provided with guides for restricting the band position. A portion 40e is integrally formed by bending toward the front of the vehicle. In this embodiment, the guide portion 40e is formed integrally not only with the band contact portion but also over the entire length of the restraint bracket 40 in the longitudinal direction.

Similarly, as shown in FIGS. 1 and 4, at the right end portion of the restraint bracket 40 on the right side of the vehicle, at least the upper side portion 40b and the lower side portion 40c, which are contact portions with which the mounting band 30 abuts, have band positions. A restricting guide portion 40f is integrally formed by bending toward the front of the vehicle. In this embodiment, the guide portion 40f is formed integrally not only with the band contact portion but also over the entire length of the restraint bracket 40 in the longitudinal direction.

By forming the guide portions 40e and 40f described above, the effect of improving the rigidity of the restraint bracket 40 is ensured, and even when the internal pressure of the fuel tank 20 rises, the restraint bracket 40 is ensured to have a sufficient proof strength, and the guide portion 40e is secured. , 40f are configured to ensure the effect of preventing the mounting band 30 from being dislocated.

On the other hand, as shown in FIG. and are fixed together.

As a result, the flange portion 40d as a portion that is fastened together with the horizontal flange portion 21 of the restraining bracket 40 and the portions of the restraining bracket 40 other than the flange portion 40d (the upper side portion 40b, the arc-shaped portion 40a, and the lower side portion 40c). The restraint bracket 40 is configured to reliably restrain the expansion of the recessed portion 24 of the fuel tank 20 by restraining the angular displacement between them.

Furthermore, as shown in FIGS. 2 and 3, the torsion beam 17 of the rear suspension 15 is arranged near the front of the fuel tank 20 near the bottom, and the recess 24 is formed at a position facing the torsion beam 17. formed. As a result, when the rear suspension 15 is mounted on the vehicle body after the fuel tank 20 has been attached to the vehicle body using the mounting band 30 or the like, contact between the torsion beam 17 and the fuel tank 20 can be avoided by the concave portion 24. The restraint bracket 40 is configured to suppress the expansion of the recessed portion 24 of the fuel tank 20 .
Arrow F in the drawing indicates the front of the vehicle, and arrow R indicates the rear of the vehicle.

In this manner, the fuel tank mounting structure of the first embodiment shown in FIGS. 1 to 4 is arranged below the floor panel (see rear floor panel 10), and the fuel tank 20 non-upper surface portion (see front portion 20F). and a mounting band 30 that restrains the fuel tank 20 from below and supports the fuel tank 20 on the floor panel (see the rear floor panel 10). A restraining bracket 40 abutting from the outside of the fuel tank 20 along the shape of the recess 24 of the tank 20 is provided, and the restraining bracket 40 is attached to the recess 24 of the fuel tank 20 by the restraining force of the mounting band 30. It is intended to abut (see FIGS. 1 to 3).

According to this configuration, since the restraining bracket 40 is brought into contact with the recessed portion 24 of the fuel tank 20 by the restraining force of the mounting band 30 , the restraining force of the mounting band 30 is used to control the expansion of the recessed portion 24 of the fuel tank 20 . It can be restrained by the restraining bracket 40, and the mounting band 30 does not require a special tank band, and a general-purpose mounting band can be used.

In one embodiment of the present invention, a plurality of the mounting bands 30 and the restraining brackets 40 are provided spaced apart in the vehicle width direction. The recesses 24 are formed continuously between the restraint brackets 40, and are adjacent to the recesses 24 and correspond to the most recessed portions of the recesses 24. It has a connecting member 41 that bridges between the restraint brackets 40, 40 in the vehicle width direction (see FIGS. 1 to 3).

According to this configuration, the recessed portion 24 of the fuel tank 20 is securely held down in the installation direction of the mounting band 30 via the restraint bracket 40, and the most recessed portion of the recessed portion 24 between the plurality of restraint brackets 40, 40, that is, In addition, the portion of the fuel tank 20 that is most likely to swell can be reliably held down by the connecting member 41, and the weight of the restraining structure comprising the restraining bracket 40, the connecting member 41, and the mounting band 30 can be reduced.

Further, in one embodiment of the present invention, guide portions 40e and 40f for regulating the band position are formed at the contact portion of the restraining bracket 40 with the mounting band 30 (FIGS. 1 and 4). reference).
According to this configuration, since the guide portions 40e and 40f are formed at the predetermined portions of the restraining bracket 40, the effect of improving the rigidity of the restraining bracket 40 is ensured by the guide portions 40e and 40f, and when the internal pressure of the fuel tank 20 increases, In this case as well, it is possible to secure sufficient strength of the restraint bracket 40, and to secure the effect of preventing the mounting band 30 from being displaced by the guide portions 40e and 40f.

Furthermore, in one embodiment of the present invention, a horizontal flange portion 21 is formed in the vertical middle portion of the fuel tank 20, and the fuel tank 20 is attached to the vehicle body via a mounting bracket 31 attached to the horizontal flange portion 21. The mounting bracket 31, the mounting band 30 and the restraining bracket 40 are fixed together by fastening to the horizontal flange portion 21 (see FIG. 3).

According to this configuration, the angular displacement between the portion of the restraint bracket 40 that is fastened together with the horizontal flange portion 21 (see the flange portion 40d) and the portion that contacts the recess 24 (see the arc-shaped portion 40a) is suppressed. In addition, expansion of the concave portion 24 of the fuel tank 20 can be reliably suppressed by the restraint bracket 40 .

In addition, in one embodiment of the present invention, the torsion beam 17 of the rear suspension 15 is arranged near the front of the fuel tank 20 near the bottom, and the concave portion 24 is formed in a portion facing the torsion beam 17 . formed (see FIG. 2).

According to this configuration, since the recessed portion 24 is provided at a portion facing the torsion beam 17, when the rear suspension 15 is mounted on the vehicle body after the fuel tank 20 is attached to the vehicle body, the recessed portion 24 provides Contact between the torsion beam 17 and the fuel tank 20 can be avoided, and expansion of the recessed portion 24 of the fuel tank 20 can be suppressed by the restraint bracket 40 described above.

FIG. 5 is a perspective view showing another embodiment of the mounting structure of the fuel tank, FIG. 6 is a cross-sectional view showing the related structure between the fuel tank and the rear suspension, and FIG. 7 is a cross-sectional view showing the mounting structure of the fuel tank to the vehicle body. 8(a) is a cross-sectional view taken along the line BB of FIG. 7, and FIG. 8(b) is an enlarged cross-sectional view of the main part along the line CC of FIG. In FIGS. 5 to 8, the same reference numerals are given to the same parts as in the previous embodiment.

In the first embodiment described above, a pair of left and right mounting bands 30 are provided spaced apart in the vehicle width direction, but in the second embodiment shown in FIGS. Only one is provided so as to restrain the central portion from below, and the structure is such that the connecting members 41, 42, 43 are not used.

In addition, in the second embodiment, a recess 24 (a recess that is recessed as a whole) is formed in the front surface portion 20F, which is the non-upper surface portion of the fuel tank 20, and a recess 24 , the most recessed portion 24A is formed one step deeper, and the restraining bracket 40 and the mounting band 30 are provided at positions corresponding to the most recessed portion 24A.
The restraining bracket 40 contacts the outermost recess 24A of the fuel tank 20 along the shape of the most recessed portion 24A. Configure.

As shown in FIGS. 5 and 8, the most recessed portion 24A is formed to be longer than the restraint bracket 40 in the vehicle width direction, and as shown in FIG. A formation range β shown in FIG. As shown in the figure, the most recessed portion 24A is formed so as to be recessed toward the vehicle rear side.

As shown in FIG. 8(b), guide portions 40g, 40g for restricting the position of the mounting band 30 are bent integrally along the entire length of the restraining bracket 40 including the mounting band abutting portion. formed.
As shown in FIG. 8B, the guide portions 40g, 40g are provided on both left and right sides of the restraint bracket 40 in the vehicle width direction. Thus, by forming the guide portion 40g at least in the mounting band contact portion (upper side portion 40b, lower side portion 40c, flange portion 40d) of the restraint bracket 40, the rigidity of the restraint bracket 40 is improved by the guide portion 40g. is ensured, even when the internal pressure of the fuel tank 20 rises, the above restraint bracket 40 is sufficiently resistant, and the guide portion 40g is configured to ensure the positional displacement prevention effect of the mounting band 30. are doing.

On the other hand, as shown in FIGS. 5 to 7, the upper portion 20U of the fuel tank 20 is provided with a metal tank cover 36. As shown in FIG. Flange portions 36a and 36b are integrally formed on both portions.
As shown in FIG. 7, the flange portion 36a of the tank cover 36, the tank-side flange portion 31b of the mounting bracket 31, the flange portion 40d of the restraining bracket 40, and the mounting band are attached to the horizontal flange portion 21 on the front side. 30 and the flange portion 30</b>C are fastened together using bolts 25 and nuts 26 .

Further, the flange portion 36b of the tank cover 36, the tank-side flange portion 31b of the mounting bracket 31, and the flange portion 30D of the mounting band 30 are connected to the horizontal flange portion 22 on the rear side using bolts 27 and nuts 28. are tightened together.

As a result, particularly on the front side of the fuel tank 20, the angular displacement between the flange portion 40d of the restraint bracket 40 and the elements of the upper side portion 40b, the arc-shaped portion 40a, and the lower side portion 40c is suppressed, and the restraint bracket 40 is , the expansion of the most recessed portion 24A of the fuel tank 20 is reliably suppressed.

As described above, the fuel tank mounting structure of the second embodiment shown in FIGS. A fuel tank 20 in which a recess (the most recessed portion 24A) is formed, and a mounting band 30 that restrains the fuel tank 20 from below and supports the fuel tank 20 on the floor panel (rear floor panel 10), A restraining bracket 40 abutting from the outside of the fuel tank 20 along the shape of the recess (most recess 24A) of the fuel tank 20 is provided. 20 (most recessed portion 24A) (see FIG. 7).

According to this configuration, the restraining bracket 40 is brought into contact with the recessed portion (most recessed portion 24A) of the fuel tank 20 by the restraining force of the mounting band 30, so that the expansion of the recessed portion (most recessed portion 24A) of the fuel tank 20 is prevented by The restraining force of 30 can be utilized for restraining with the restraining bracket 40, and the mounting band 30 does not require a special tank band, and a general-purpose mounting band can be used.
In the second embodiment shown in FIGS. 5 to 8, other configurations, actions, and effects are substantially the same as those in the first embodiment. Therefore, in FIGS. The same reference numerals are given to the parts, and the detailed description thereof is omitted.

In correspondence with the configuration of the present invention and the above-described embodiments,
The floor panel of the present invention corresponds to the rear floor panel 10 of the embodiment,
and so on,
The concave portion corresponds to the concave portion 24 of Example 1 and the most concave portion 24A of Example 2,
The rear suspension corresponds to the torsion beam type rear suspension 15,
Although the fuel tank non-top surface portion corresponds to the front surface portion 20F of the fuel tank 20,
The present invention is not limited to the configurations of the above embodiments.

INDUSTRIAL APPLICABILITY As described above, the present invention is useful for a fuel tank mounting structure that is disposed below a floor panel and supported on a vehicle body using mounting bands.

10... Rear floor panel (floor panel)
15... Rear suspension 17... Torsion beam 20... Fuel tank 20F... Front part (non-upper surface part of fuel tank)
21... Horizontal flange portion 24... Concave part 24A... Most concave part 30... Mounting band 31... Mounting bracket 40... Restraint brackets 40e, 40f, 40g... Guide part 41... Connecting member

Claims (4)

A fuel tank mounting structure,
a fuel tank disposed below the floor panel and having a concave portion formed on the non-top surface of the fuel tank;
a mounting band that restrains the fuel tank from below and supports the fuel tank on the floor panel;
a restraining bracket abutting from the outer side of the fuel tank along the shape of the recess of the fuel tank;
The binding bracket is brought into contact with the concave portion of the fuel tank by the binding force of the mounting band ,
A plurality of the mounting bands and the restraint brackets are provided spaced apart in the vehicle width direction,
The restraint bracket is provided in the installation direction of the mounting band over substantially the entirety of the recess, and
The recess is formed continuously between the restraint brackets,
A connecting member that bridges between the restraint brackets in the vehicle width direction corresponding to the most recessed portion of the recess while being close to the recess.
Fuel tank mounting structure. 2. The fuel tank mounting structure according to claim 1, wherein the mounting band abutting portion of the restraint bracket is formed with a guide portion for regulating the band position. A horizontal flange portion is formed in the vertical middle portion of the fuel tank,
A structure in which the fuel tank is attached to the vehicle body via a mounting bracket attached to the horizontal flange,
3. The fuel tank mounting structure according to claim 1, wherein said mounting bracket, said mounting band and said restraint bracket are fastened together to said horizontal flange portion. A torsion beam of the rear suspension is arranged near the front of the fuel tank near the bottom,
4. The fuel tank mounting structure according to any one of claims 1 to 3 , wherein the recess is formed in a portion facing the torsion beam.

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