TECHNICAL FIELD
[0001] The present invention relates to a securing structure for an FRP plate in which a
metal grommet is fixed to an FRP plate and the FRP plate is secured to a secured member
by screwing a nut onto a bolt extending through the metal grommet and the secured
member.
BACKGROUND ART
[0002] An arrangement in which, at the same time as producing a metal grommet having a pair
of washer portions connected to opposite ends of a collar portion, in order to mount
the metal grommet on an FRP plate, a metal plate and the FRP plate are bored using
a rotating tool having a sharp extremity in a state in which the metal plate is superimposed
on one surface of the FRP plate, part of the metal plate is thereby deformed into
a collar shape and made to project from the other surface of the FRP plate, and subsequently
the projecting portion is press formed into a flat washer shape is known from Patent
Document 1 below.
RELATED ART DOCUMENTS
PATENT DOCUMENTS
SUMMARY OF THE INVENTION
PROBLEMS TO BE SOLVED BY THE INVENTION
[0004] However, in the above arrangement, part of the metal plate that has been deformed
into a collar shape with the rotating tool becomes thin, and when the projecting portion
at the extremity of the thin portion is press formed into a washer shape, the thickness
further decreases, a crack occurs, the tightening force of a bolt extending through
the metal grommet cannot be supported by the collar portion and the washer portion,
which are thin, deformation occurs, and there is a possibility that this will cause
damage to the FRP plate.
[0005] The present invention has been accomplished in light of the above circumstances,
and it is an object thereof to provide a metal grommet that can easily be produced
and can strongly fix an FRP plate.
MEANS FOR SOLVING THE PROBLEMS
[0006] In order to attain the above object, according to a first aspect of the present invention,
there is provided a securing structure for an FRP plate in which a metal grommet is
fixed to an FRP plate, and the FRP plate is secured to a secured member by screwing
a nut onto a bolt extending through the metal grommet and the secured member, wherein
the metal grommet comprises a grommet main body and a washer, the grommet main body
comprises a washer portion that abuts against one surface of the FRP plate and a collar
portion that is formed integrally with the washer portion and is fitted into a through
hole of the FRP plate, and the washer is latched onto an extremity of the collar portion
and abuts against the other surface of the FRP plate.
[0007] Further, according to a second aspect of the present invention, in addition to the
first aspect, the washer is latched by means of a swaged portion formed by swaging
the extremity of the collar portion.
[0008] Furthermore, according to a third aspect of the present invention, in addition to
the second aspect, a thickness of the swaged portion is substantially the same as
a thickness of the collar portion.
[0009] Moreover, according to a fourth aspect of the present invention, in addition to the
second or third aspect, a taper portion is formed in advance on an inner periphery
of the washer, the taper portion increasing in diameter in a direction going away
from the grommet main body.
[0010] Further, according to a fifth aspect of the present invention, in addition to any
one of the second to fourth aspects, a swaging tool for swaging the collar portion
comprises a flat portion that abuts against the washer and a taper portion that protrudes
from the flat portion so as to be tapered and fits within the collar portion.
[0011] Furthermore, according to a sixth aspect of the present invention, in addition to
any one of the first to fifth aspects, the grommet main body is formed by extending
a rotating tool having a sharp extremity through a metal plate and the FRP plate in
a state in which the metal plate is superimposed on one surface of the FRP plate.
[0012] Moreover, according to a seventh aspect of the present invention, in addition to
the sixth aspect, a pilot hole is formed in advance in the metal plate, and the extremity
of the rotating tool is pressed against the center of the pilot hole and extended
therethrough.
[0013] Further, according to an eighth aspect of the present invention, in addition to the
sixth or seventh aspect, an excess portion that protrudes from the extremity of the
collar portion due to the rotating tool being extended therethrough is cut off prior
to a swaging step.
[0014] Furthermore, according to a ninth aspect of the present invention, in addition to
any one of the first to eighth aspects, the washer portion and the washer have an
annular form.
[0015] Moreover, according to a tenth aspect of the present invention, in addition to any
one of the first to ninth aspects, the FRP plate is an automobile part made of FRP,
and the secured member is an automobile frame made of metal.
EFFECTS OF THE INVENTION
[0016] In accordance with the first aspect of the present invention, the metal grommet is
fixed to the FRP plate, and the FRP plate is secured to the secured member by screwing
the nut onto the bolt extending through the metal grommet and the secured member.
Since the metal grommet includes the grommet main body and the washer, the grommet
main body includes the washer portion abutting against one surface of the FRP plate
and the collar portion formed integrally with the washer portion and fitted into the
through hole of the FRP plate, and the washer is latched onto the extremity of the
collar portion and abuts against the other surface of the FRP plate, it is unnecessary
to integrally mold the washer by stretching the collar portion of the grommet main
body, the thickness of the collar portion can be maintained by an amount corresponding
thereto, thus enhancing the strength, and it is possible to prevent the thickness
of the portion corresponding to the washer from decreasing, a crack from occurring,
and the strength from deteriorating. Moreover, the area around the through hole of
the FRP plate is sandwiched between the washer portion of the grommet main body and
the washer, which is a separate member, and it is thus possible to suppress the progress
of detachment of fibers of the FRP plate and enhance the durability.
[0017] Furthermore, in accordance with the second aspect of the present invention, since
the washer is latched by means of the swaged portion formed by swaging the extremity
of the collar portion, it is possible to strongly integrate, by means of a simple
structure, the grommet main body and the washer, which are formed from separate members.
[0018] Moreover, in accordance with the third aspect of the present invention, since the
thickness of the swaged portion is substantially the same as the thickness of the
collar portion, it is possible to ensure the strength of the swaged portion and support
the tightening force of the bolt.
[0019] Furthermore, in accordance with the fourth aspect of the present invention, since
the taper portion, which increases in diameter in a direction going away from the
grommet main body, is formed in advance on the inner periphery of the washer, it is
possible to enhance the strength of the swaged portion joining the extremity of the
collar portion of the grommet main body and the washer.
[0020] Moreover, in accordance with the fifth aspect of the present invention, since the
swaging tool for swaging the collar portion includes the flat portion abutting against
the washer and the taper portion protruding from the flat portion so as to be tapered
and fitting within the collar portion, not only is it possible to swage effectively
the extremity of the collar portion by means of the taper portion, but it is also
possible to finish the latching part between the washer and the collar portion so
that it is flat by means of the flat portion, thus enhancing the precision of machining.
[0021] Furthermore, in accordance with the sixth aspect of the present invention, since
the grommet main body is formed by extending the rotating tool having a sharp extremity
through the metal plate and the FRP plate in a state in which the metal plate is superimposed
on one surface of the FRP plate, not only is it possible to simply produce the grommet
main body integrally including the washer portion and the collar portion from the
metal plate, but it is also possible to machine the through hole of the FRP plate
at the same time, and moreover it is not necessary to employ a step of assembling
the grommet main body to the FRP plate.
[0022] Moreover, in accordance with the seventh aspect of the present invention, since the
pilot hole is formed in advance in the metal plate, and the tip of the rotating tool
is pressed against the center of the pilot hole and extended therethrough, it is possible
to prevent excessive stress from acting on the metal plate, which causes cracks, thereby
enabling the grommet main body to be machined with good precision.
[0023] Furthermore, in accordance with the eighth aspect of the present invention, since
the excess portion protruding from the extremity of the collar portion due to the
rotating tool being extended therethrough is cut off prior to the swaging step, it
is possible to finish the swaged portion, via which the washer and the collar portion
latch, with good precision.
[0024] Moreover, in accordance with the ninth aspect of the present invention, since the
washer portion and the washer have an annular form, it is possible to evenly disperse
the tightening force of the bolt throughout the FRP plate.
[0025] Furthermore, in accordance with the tenth aspect of the present invention, since
the FRP plate is an automobile part made of an FRP, and the secured member is an automobile
frame made of metal, it is possible to strongly secure the part made of an FRP to
the frame made of metal while lightening the weight by replacing a conventional metal
part with an FRP part.
BRIEF DESCRIPTION OF DRAWINGS
[0026]
[FIG. 1] FIG. 1 is a diagram showing a state in which an FRP plate having a metal
grommet fitted thereinto is secured to a secured member. (first embodiment)
[FIG. 2] FIG. 2 is a diagram for explaining a step of boring a metal plate and an
FRP plate. (first embodiment)
[FIG. 3] FIG. 3 is a diagram for explaining a step of cutting off the metal grommet.
(first embodiment)
[FIG. 4] FIG. 4 is a diagram for explaining a step of swaging the metal grommet. (first
embodiment)
[FIG. 5] FIG. 5 is a diagram showing an example in which the present invention is
applied to an automobile vehicle body. (first embodiment)
[FIG. 6] FIG. 6 is a sectional view along line 6-6 in FIG. 5. (first embodiment)
EXPLANATION OF REFERENCE NUMERALS AND SYMBOLS
[0027]
- 13
- FRP plate
- 13a
- Through hole
- 14
- Metal grommet
- 15
- Secured member
- 16
- Bolt
- 17
- Nut
- 18
- Grommet main body
- 18a
- Washer portion
- 18b
- Collar portion
- 18c
- Swaged portion
- 18e
- Excess portion
- 19
- Washer
- 19a
- Taper portion
- 20
- Metal plate
- 20a
- Pilot hole
- 21
- Rotating tool
- 23
- Swaging tool
- 23a
- Flat portion
- 23b
- Taper portion
BEST MODE FOR CARRYING OUT THE INVENTION
[0028] An embodiment of the present invention is explained below by reference to FIG. 1
to FIG. 6.
FIRST EMBODIMENT
[0029] As shown in FIG. 1, a metal grommet 14 made of iron or an aluminum alloy is fitted
into an FRP (fiber-reinforced plastic) plate 13 formed by solidifying continuous fibers
11 formed from carbon fibers or glass fibers aligned in one direction using a matrix
resin 12, and by screwing a nut 17 onto a bolt 16 extending through a secured member
15 such as a steel plate, for example, and the metal grommet 14, the FRP plate 13
is secured to the metal plate 15.
[0030] The metal grommet 14 is formed by joining two members, that is, a grommet main body
18 and a washer 19; the grommet main body 18 includes a collar portion 18b extending
cylindrically from the center of an annular washer portion 18a, and in a state in
which the washer portion 18a abuts against one surface of the FRP plate 13 the collar
portion 18b extends through a circular through hole 13a of the FRP plate 13 and the
extremity thereof projects from the other surface of the FRP plate 13. The washer
19 is an annular member having substantially the same shape as that of the washer
portion 18a of the grommet main body 18, and a taper portion 19a that increases in
diameter in a direction going away from the grommet main body 18 is formed on the
inner periphery of the washer 19. The washer 19 is fitted onto the extremity of the
collar portion 18b of the grommet main body 18 in a state in which it abuts against
the other surface of the FRP plate 13, and is integrally joined by means of a swaged
portion 18c.
[0031] A method for producing the metal grommet 14 is now explained by reference to FIG.
2 to FIG. 4.
[0032] As shown in FIG. 2 (A), a disk-shaped metal plate 20, which is a material for the
grommet main body 18, is superimposed on one surface of the FRP plate 13. In this
process, a circular pilot hole 20a is concentrically formed in advance in the metal
plate 20. Subsequently, when a rotating tool 21 having a conical sharp extremity is
inserted into the center of the pilot hole 20a while rotating, as shown in FIG. 2
(B) the metal plate 20 around the pilot hole 20a is bored and pushed and widened in
a cylindrical shape to thus form the collar portion 18b, and the washer portion 18a
is formed in the remaining portion of the metal plate 20. At the same time as this,
the FRP plate 13 that has been bored by means of the rotating tool 21 is pushed and
widened by means of the collar portion 18b, and the through hole 13a into which the
collar portion 18b is fitted is thus formed. A thin excess portion 18e projects from
the extremity of the collar portion 18b extending through the FRP plate 13.
[0033] When the metal plate 20 and the FRP plate 13 are subjected to boring with the rotating
tool 21, the matrix resin of the FRP plate 13 is softened by the frictional heat generated,
and the continuous fibers 11 aligned in one direction move so as to bypass the outer
periphery of the grommet main body 18, thus enabling the through hole 13a to be formed
in the FRP plate 13 without degrading the strength by breaking the continuous fibers
11 (see FIG. 2 (B)).
[0034] Subsequently, as shown in FIG. 3 (A), after the thin excess portion 18e projecting
from the extremity of the collar portion 18b extending through the FRP plate 13 is
cut off, as shown in FIG. 3 (B), the washer 19, which is a separate member, is fitted
onto the extremity of the collar portion 18b of the grommet main body 18.
[0035] Subsequently, as shown in FIG. 4 (A), in a state in which the washer portion 18a
of the grommet main body 18 is supported on a receiving member 22, the extremity of
the collar portion 18b is swaged by means of a swaging tool 23. Formed on the extremity
of the swaging tool 23 are a flat portion 23a and a frustoconical taper portion 23b
projecting from the flat portion 23a; the flat portion 23a abuts against the washer
19, and the taper portion 23b abuts against and swages the extremity of the collar
portion 18b of the grommet main body 18, thus forming the swaged portion 18c, which
is plastically deformed, on the radially outer side of the extremity of the collar
portion 18b, and thereby integrally joining the washer 19 to the grommet main body
18. In a state in which swaging is completed, a thickness t of the collar portion
18b of the grommet main body 18 coincides substantially with a thickness t of the
swaged portion 18c (see FIG. 1).
[0036] The operation of the embodiment of the present invention having the above arrangement
is now explained.
[0037] When the FRP plate 13 is secured to the secured member 15 by means of the bolt 16
and the nut 17, since the metal grommet 14 mounted on the FRP plate 13 and having
the bolt 16 extending therethrough is formed from the grommet main body 18 and the
washer 19, the grommet main body 18 is formed from the washer portion 18a abutting
against one surface of the FRP plate 13 and the collar portion 18b formed integrally
with the washer portion 18a and fitted into the through hole 13b of the FRP plate
13, and the washer 19 is latched onto the extremity of the collar portion 18b and
abuts against the other surface of the FRP plate 13, the area around the through hole
13a of the FRP plate 13 is sandwiched between the washer portion 18a of the grommet
main body 18 and the washer 19, which is a separate member, thereby suppressing the
progress of detachment of the continuous fibers 11 of the FRP plate 13 and enhancing
the durability. In this process, since the washer portion 18a of the grommet main
body 18 and the washer 19 have an annular shape, it is possible to disperse the tightening
force of the bolt 16 evenly throughout the FRP plate 13.
[0038] Moreover, since the grommet main body 18 and the washer 19 are formed from separate
members, when the grommet main body 18 is shaped by means of the rotating tool 21,
it is not necessary to stretch the collar portion 18b and mold the washer 19 as a
unit, and not only is it possible to enhance the strength by ensuring the thickness
of the collar portion 18b by an amount corresponding thereto, but it is also possible
to prevent cracks from occurring and the strength from deteriorating due to the thickness
of the portion corresponding to the washer 19 becoming small.
[0039] Furthermore, since the washer 19 is latched onto the extremity of the collar portion
18b by swaging, it is possible to strongly integrate the grommet main body 18 and
the washer 19, which are formed from separate members, with a simple structure. Moreover,
since the thickness t of the swaged extremity of the collar portion 18b is substantially
equal to the thickness t of the washer 19 (see FIG. 1), the strength of the swaged
portion 18c is ensured, and the tightening force of the bolt 16 can be supported.
In this process, since the taper portion 19a, which increases in diameter in a direction
going away from the grommet main body 18, is formed in advance on the inner periphery
of the washer 19, it is possible to enhance the strength of the swaged portion 18c
joining the extremity of the collar portion 18b and the washer 19.
[0040] Moreover, since the swaging tool 23 for swaging the extremity of the collar portion
18b includes the flat portion 23a abutting against the washer 19 and the taper portion
23b protruding from the flat portion 23a so as to be tapered and fitting within the
collar portion 18b, not only is it possible to swage effectively the extremity of
the collar portion 18b by means of the taper portion 23b, but it is also possible
to finish the swaged portion 18c between the washer 19 and the collar portion 18b
so that it is flat by means of the flat portion 23a, thus enhancing the precision
of machining.
[0041] Furthermore, since in the step of producing the metal grommet 14, the grommet main
body 18 is formed by extending the rotating tool 21 having a sharp extremity through
the metal plate 20 and the FRP plate 13 in a state in which the metal plate 20 is
superimposed on one surface of the FRP plate 13, not only is it possible to simply
produce from the metal plate 20 the grommet main body 18 integrally having the washer
portion 18a and the collar portion 18b, but it is also possible to machine the through
hole 13 a of the FRP plate 13 at the same time and, moreover, it is unnecessary to
employ a step of assembling the grommet main body 18 to the FRP plate 13.
[0042] In this process, since the pilot hole 20a is formed in advance in the metal plate
20, and the extremity of the rotating tool 21 is pressed against and extended through
the center of the pilot hole 20a, it is possible to prevent excessive stress from
acting on the metal plate 20 to thus cause cracks, and the grommet main body 18 can
be machined with good precision. Furthermore, since the excess portion 18e (see FIG.
3 (A)), which is made to protrude from the extremity of the collar portion 18b by
extending the rotating tool 21 therethrough, is cut off before the swaging step, it
is possible to finish the latching portion 18c by swaging the washer 19 and the collar
portion 18b with good precision.
[0043] FIG. 5 and FIG. 6 show an example in which the present invention is applied to an
automobile vehicle body.
[0044] The secured member 15 formed from a flat metal plate is welded to front ends of a
pair of left and right front side frames 24 disposed in the fore-and-aft direction
in a front part of the vehicle body in order to support an engine or a transmission,
and the front end of a lower member 25 extending downward to the front from a front
pillar upper, which is not illustrated, is welded on the outside in the vehicle width
direction of the secured member 15. An FRP bumper beam extension 26 connecting an
end part in the vehicle width direction of a bumper beam, which is not illustrated,
and the secured member 15 includes front side flanges 26a and 26a connected to the
bumper beam and rear side flanges 26b and 26b connected to the secured member 15.
The rear side flanges 26b and 26b correspond to the FRP plate 13 of the present invention,
and six metal grommets 14 fitted thereinto are secured to the secured member 15 by
means of the bolts 16 and the nuts 17.
[0045] As described above, since the FRP plate 13 forming part of the FRP automobile bumper
beam extension 26 is secured to the secured member 15 forming part of the automobile
metal frame via the metal grommets 14, it is possible to strongly secure the FRP part
to the metal frame while achieving a light weight by replacing a conventional metal
part with an FRP part.
[0046] An embodiment of the present invention is explained above, but the present invention
may be modified in a variety of ways as long as the modifications do not depart from
the spirit and scope thereof.
[0047] For example, it is not always necessary to employ the pilot hole 20a of the metal
plate 20, and a metal plate 20 having no pilot hole 20a may be bored directly.
[0048] Furthermore, if the excess portion 18e formed when molding the grommet main body
18 by means of the rotating tool 21 is small, it is not always necessary to cut off
the excess portion 18e.
1. A securing structure for an FRP plate in which a metal grommet (14) is fixed to an
FRP plate (13), and the FRP plate (13) is secured to a secured member (15) by screwing
a nut (17) onto a bolt (16) extending through the metal grommet (14) and the secured
member (15), wherein
the metal grommet (14) comprises a grommet main body (18) and a washer (19), the grommet
main body (18) comprises a washer portion (18a) that abuts against one surface of
the FRP plate (13) and a collar portion (18b) that is formed integrally with the washer
portion (18a) and is fitted into a through hole (13a) of the FRP plate (13), and the
washer (19) is latched onto an extremity of the collar portion (18b) and abuts against
the other surface of the FRP plate (13).
2. The securing structure for an FRP plate according to Claim 1, wherein the washer (19)
is latched by means of a swaged portion (18c) formed by swaging the extremity of the
collar portion (18b).
3. The securing structure for an FRP plate according to Claim 2, wherein a thickness
of the swaged portion (18c) is substantially the same as a thickness of the collar
portion (18b).
4. The securing structure for an FRP plate according to Claim 2 or Claim 3, wherein a
taper portion (19a) is formed in advance on an inner periphery of the washer (19),
the taper portion (19a) increasing in diameter in a direction going away from the
grommet main body (18).
5. The securing structure for an FRP plate according to any one of Claim 2 to Claim 4,
wherein a swaging tool (23) for swaging the collar portion (18b) comprises a flat
portion (23 a) that abuts against the washer (19) and a taper portion (23b) that protrudes
from the flat portion (23 a) so as to be tapered and fits within the collar portion
(18b).
6. The securing structure for an FRP plate according to any one of Claim 1 to Claim 5,
wherein the grommet main body (18) is formed by extending a rotating tool (21) having
a sharp extremity through a metal plate (20) and the FRP plate (13) in a state in
which the metal plate (20) is superimposed on one surface of the FRP plate (13).
7. The securing structure for an FRP plate according to Claim 6, wherein a pilot hole
(20a) is formed in advance in the metal plate (20), and the extremity of the rotating
tool (21) is pressed against the center of the pilot hole (20a) and extended therethrough.
8. The securing structure for an FRP plate according to Claim 6 or Claim 7, wherein an
excess portion (18e) that protrudes from the extremity of the collar portion (18b)
due to the rotating tool (21) being extended therethrough is cut off prior to a swaging
step.
9. The securing structure for an FRP plate according to any one of Claim 1 to Claim 8,
wherein the washer portion (18a) and the washer (19) have an annular form.
10. The securing structure for an FRP plate according to any one of Claim 1 to Claim 9,
wherein the FRP plate (13) is an automobile part made of FRP, and the secured member
(15) is an automobile frame made of metal.
Amended claims under Art. 19.1 PCT
Dear Sirs,
The applicant, who received the International Search Report and Opinion relating to
the above identified International Application, transmitted on 01.07.2014, hereby files Amendment under Article 19(1) as in the attached sheets.
the applicant hereby cancels sheets Nos. 11-12, and submits new sheets Nos. 11-12
& 12/1 for replacement, because the following amendments are made to claims on file:
Claims 1-10: these claims remain unchanged; and
Claim 11: this claim is added in an independent form.
In view of the invention claimed in Claims 1-10 being indicated as lacking inventive
steps in the International Seach Report and Opinion, based on the features of Claims1
and 6, Claim 11 directed to a process is added which is believed to more clearly define
the technical features of this invention.
The preamble portion of Claim 11 is substantially identical with the feature defined
in Claim 1, and its characterizing portion is based on the feature defined in Claim
5, and the descriptions of paragraphs [0032] & [0034] in the originally filed specification
and Figs. 2 & 3
Thze invention claimed in Claim 11 can provide the effects of Claims 1 & 6, that is,
the effects described in paragraphs [0016] & [0021] in the originally filed specification
and the effect indicated in the description of the mode for carrying out this invention,
that is, the effect described in paragraph [0033].
It is believed that Claim 11 should be patentable over the prior art cited in the
International Search REport and Opinion.
Statement under Art. 19.1 PCT
1. A securing structure for an FRP plate in which a metal grommet (14) is fixed to an
FRP plate (13), and the FRP plate (13) is secured to a secured member (15) by screwing
a nut (17) onto a bolt (16) extending through the metal grommet (14) and the secured
member (15), wherein
the metal grommet (14) comprises a grommet main body (18) and a washer (19), the grommet
main body (18) comprises a washer portion (18a) that abuts against one surface of
the FRP plate (13) and a collar portion (18b) that is formed integrally with the washer
portion (18a) and is fitted into a through hole (13a) of the FRP plate (13), and the
washer (19) is latched onto an extremity of the collar portion (18b) and abuts against
the other surface of the FRP plate (13).
2. The securing structure for an FRP plate according to Claim 1, wherein the washer
(19) is latched by means of a swaged portion (18c) formed by swaging the extremity
of the collar portion (18b).
3. The securing structure for an FRP plate according to Claim 2, wherein a thickness
of the swaged portion (18c) is substantially the same as a thickness of the collar
portion (18b).
4. The securing structure for an FRP plate according to Claim 2 or Claim 3, wherein
a taper portion (19a) is formed in advance on an inner periphery of the washer (19),
the taper portion (19a) increasing in diameter in a direction going away from the
grommet main body (18).
5. The securing structure for an FRP plate according to any one of Claim 2 to Claim
4, wherein a swaging tool (23) for swaging the collar portion (18b) comprises a flat
portion (23 a) that abuts against the washer (19) and a taper portion (23b) that protrudes
from the flat portion (23 a) so as to be tapered and fits within the collar portion
(18b).
6. The securing structure for an FRP plate according to any one of Claim 1 to Claim
5, wherein the grommet main body (18) is formed by extending a rotating tool (21)
having a sharp extremity through a metal plate (20) and the FRP plate (13) in a state
in which the metal plate (20) is superimposed on one surface of the FRP plate (13).
7. The securing structure for an FRP plate according to Claim 6, wherein a pilot hole
(20a) is formed in advance in the metal plate (20), and the extremity of the rotating
tool (21) is pressed against the center of the pilot hole (20a) and extended therethrough.
8. The securing structure for an FRP plate according to Claim 6 or Claim 7, wherein
an excess portion (18e) that protrudes from the extremity of the collar portion (18b)
due to the rotating tool (21) being extended therethrough is cut off prior to a swaging
step.
9. The securing structure for an FRP plate according to any one of Claim 1 to Claim
8, wherein the washer portion (18a) and the washer (19) have an annular form.
10. The securing structure for an FRP plate according to any one of Claim 1 to Claim
9, wherein the FRP plate (13) is an automobile part made of FRP, and the secured member
(15) is an automobile frame made of metal.
11. added) A method for producing a securing structure for an FRP plate in which a metal
grommet (14) is fixed to an FRP plate (13), the FRP plate (13) is secured to a securing
member (15) by screwing a nut (17) onto a bolt (16) extending through the metal grommet
(14) and the securing member (15), the metal grommet (14) comprises a grommet main
body (18) and a washer (19), the grommet main body (18) comprises a washer portion
(18a) that abuts against one surface of the FRP plate (13) and a collar portion (18b)
that is formed integrally with the washer portion (18a) and is fitted into a through
hole (13a) of the FRP plate (13), and the washer (19) is latched onto an extremity
of the collar portion (18b) and auts against the other surface of the FRP plate (13),
wherein
the method comprises steps of superimposing a disk-shaped metal plate (20) as a material
for the grommet main body (18) on one surface of the FRP plate (13) formed by solidifying
a continuous fiber (11) aligned in one direction with a matrix resin (12), subsequently
rotating a rotating tool (21) having a conical sharp tip part, making the rotating
tool (21) extend through the metal plate (20) and the FRP plate (13), forming the
collar portion (18b) by boring, pushing, and cylindrically widening the metal plate
(20), forming the washer portion (18a) with the remaining portion of the metal plate
(20), at the same time as this, forming the through hole (13a), into which the collar
portion (18b) is fitted, by pushing and widening the FRP plate (13), which has been
bored by the rotating tool (21), with the collar portion (18b), and subsequently fitting
the washer (19), which is a separate member from the grommet main body (18), onto
the extremity of the collar portion (18b) projecting outside the through hole (13a).