JP3748922B2 - Anti-vibration clip - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In particular, the present invention relates to a two-piece type anti-vibration clip used for fixing various plate-like components and a predetermined panel while absorbing vibration.
[0002]
[Prior art]
For example, when a plate-like part such as a bracket is fixed to the body panel side of an automobile, it is usually not desirable to transmit the mechanical vibration generated on one side to the other. The above-mentioned mechanical vibration is absorbed by using a vibration absorber formed of synthetic rubber or the like and utilizing the elasticity of the vibration absorber.
[0003]
An example of the anti-vibration fixing structure is as follows. As shown in FIG. 14, a stud bolt B is erected on the panel P side, and a mounting hole 32 with a notch for mounting the vibration absorber 33 is opened on the component 31 side. On the other hand, the vibration absorber 33 is formed into a cylindrical body to form a through-hole 34 into which the metal collar 36 is fitted inside the vibration absorber 33, and the outer peripheral surface of the vibration absorber 33 is connected to the hole edge of the mounting hole 32. An annular groove 35 to be stopped is formed.
[0004]
When the component 31 is actually fixed to the panel P side, first, the vibration absorber 33 is first mounted in the mounting hole 32 of the component 31 through the annular concave groove 35 from the lateral direction, and then vibration absorption is performed. The metal collar 36 is inserted into the through-hole 34 of the body 33, the stud bolt B is inserted into the metal collar 36, and finally, the tip end portion of the stud bolt B protruding outward from the metal collar 36 is a nut 37. By tightening with, the component 31 is fixed to the panel P side at a certain interval under the state in which the vibration absorber 33 is interposed.
Therefore, under such an anti-vibration fixed state, the vibration absorber 33 is interposed between the component 31 and the panel P, so that mechanical vibration generated on the component 31 side or the panel P side is caused by the other side. It is a translation that can be prevented from being transmitted to.
[0005]
[Problems to be solved by the invention]
However, in the conventional anti-vibration fixing structure, the mechanical vibration can be effectively absorbed by utilizing the elasticity of the vibration absorber 33 interposed between the component 31 and the panel P. However, for this purpose, not only the number of members used is increased, but particularly when the vibration absorber 33 is assembled on the component 31 side, the component 31 is deformed while the vibration absorber 33 is deformed. The mounting hole 32 is forcibly pushed into the mounting hole 32 to lock the annular groove 35 of the vibration absorber 33 on the edge of the mounting hole 32, and then tightened in the through hole 34 of the vibration absorber 33. Since the metal collar 36 that regulates the amount has to be forcibly inserted, there is a serious problem that the workability is remarkably lowered.
In addition, when the work of assembling the vibration absorber 33 on the part 31 side is required at a plurality of locations, the problem of such workability becomes more remarkable.
[0006]
Contrary to the conventional structure shown in the figure, there is a structure in which a nut is welded to the panel side, and the tip of a bolt inserted from above in the metal collar is screwed to the weld nut. In this case, in addition to the above-described problems, if the parts are relatively small, there is a possibility that the parts may rotate together when the bolts are tightened and screwed, so that workability is further regarded as a problem.
[0007]
[Means for Solving the Problems]
The anti-vibration clip of the present invention was developed in order to effectively solve the problems of the conventional anti-vibration fixing structure, and the anti-vibration clip according to claim 1 absorbs vibration between the component and the panel. On the premise of the vibration-proof clip to be fixed, it consists of a pin-shaped male member and a cylindrical female member, the male member has an enlarged head and a shaft portion inserted into the female member, A flange portion and a shaft portion of the male member that have a barrel portion that expands outward and engages with the mounting hole on the panel side, and that is in contact with the peripheral surface of the mounting hole on the panel side in the middle of the barrel portion A plurality of vibration-absorbing arms that can be bent at the flange portion and are spaced apart from the flange portion, and the tip of each vibration-absorbing arm is connected to the edge of the mounting hole on the component side While holding the part elastically locked to the body, the body part below the collar part is expanded outward, and the collar part and its Characterized by clamping the panel between the body portion and flared at the side.
[0008]
The anti-vibration clip according to claim 2 includes a pin-shaped male member and a cylindrical female member on the premise of the anti-vibration clip that fixes the component and the panel while absorbing vibration, and the male member has an enlarged head. And a shaft part inserted into the female member, the female member has a body part that expands outward at the shaft part of the flange part and the male member and engages with the mounting hole on the panel side, A plurality of flexible vibration-absorbing arms that elastically contact the peripheral surface of the mounting hole on the component side are suspended from the enlarged head of the male member, and a plurality of flexible vibration-absorbing arms that can be bent are erected on the flange portion of the female member. Thus, the tip of each vibration absorbing arm erected on the flange is elastically locked to the hole edge of the mounting hole on the component side to hold the component, while the flange of the female member contacts the panel surface. The parts are moved up and down with the vibration absorbing arm on the enlarged head side of the male member and the vibration absorbing arm on the flange side of the female member. Characterized by sandwiching to absorb the vibration from.
[0009]
The anti-vibration clip according to claim 3 includes a pin-shaped male member and a cylindrical female member on the premise of the anti-vibration clip that fixes the component and the panel while absorbing vibration, and the male member has an enlarged head. And a shaft part inserted into the female member, the female member has a body part that expands outward at the shaft part of the flange part and the male member and engages with the mounting hole on the panel side, A plurality of deflectable vibration absorbing pieces extending radially in a curved manner are provided in the body portion, and ring bodies each having an annular groove are integrally provided at the front end edge of each vibration absorbing piece. The annular groove is elastically locked to the hole edge of the mounting hole on the component side to hold the component.
[0011]
Therefore, under the anti-vibration clip according to each claim, the male member shaft is inserted into the female member, the male member is temporarily fixed to the female member, and the male and female members are previously opened on the component side. After mounting in the mounting hole, the body part of the female member is inserted into the mounting hole provided in advance on the panel side in this state, and the shaft part of the male member is completely inserted into the female member. When inserted, the body portion of the female member is forcibly expanded outward, so that the components are easily fixed to the panel side at a constant interval.
[0012]
In the fixed state of this part, the vibration absorbing arm erected on the buttocks of the female member as the vibration absorbing means, the vibration absorbing arm suspended from the enlarged head of the male member, and the flange portion of the female member The vibration absorbing arm and the vibration absorbing piece formed on the body portion of the female member and the ring body connected thereto are transmitted to the other side mechanical vibration generated on the component side or panel side. It can be effectively prevented.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on each embodiment shown in the drawings.
As shown in FIG. 1, the anti-vibration clip according to the first embodiment includes a pin-shaped male member 1 and a cylindrical female member 11, and organically utilizes the male and female members 1 and 11, The component and the panel are fixed at a predetermined interval while absorbing vibration.
[0014]
More specifically, the former male member 1 is formed of a synthetic resin and has an enlarged head 2 formed with an operation groove 3 and a screw surface 5 formed in part to hang from the enlarged head 2. It has the structure which has the axial part 4 to do.
The latter female member 11 is also formed of a synthetic resin, and as shown in FIG. 2, a disk-shaped flange portion 12 having an opening at the center portion and a cylindrical body portion depending from the flange portion 12. 13, the body portion 13 has a ring-closed bifurcated shape in which the front end side can be expanded, and an overhang portion 14 is formed on the opposing inner surface.
[0015]
Therefore, the relationship between the male member 1 and the female member 11 in the first embodiment is that when the shaft portion 4 of the male member 1 is inserted partway into the body portion 13 of the female member 11, both members 1 and 11 are temporarily fixed. When the shaft portion 4 of the male member 1 is completely inserted into the body portion 13, the distal end side of the body portion 13 is closed and bifurcated by the action of the shaft portion 4 of the male member 1 and the overhanging portion 14. It will be forcibly expanded outward.
[0016]
In addition to this, as shown in FIG. 2, the female member 11 is formed with an annular flange 15 at substantially the middle of the trunk portion 13, and a plurality of rising upwards on the upper edge of the annular flange 15. The vibration absorbing arms 16A are erected at equal intervals, and a recess 17 is formed on the outer surface of the tip of each vibration absorbing arm 16A. The recess 17 of each vibration absorbing arm 16A is opened in advance on the component side. In addition, a structure that is elastically locked to the hole edge of the mounting hole is employed.
[0017]
Therefore, when the plate-like component P1 is fixed to the panel P2 side using the male member 1 and the female member 11 having such a configuration, first, the shaft portion 4 of the male member 1 is moved from the opening of the flange portion 12 to the female portion. When the male member 1 is temporarily fixed to the female member 11 after being inserted into the body portion 13 of the member 11 and then directly inserted into the mounting hole H1 on the component P1 side, each vibration absorbing arm 16A is bent while inward, and the mounting is performed. Since each recess 17 is elastically locked to the hole edge of the mounting hole H1 through the hole H1, the male member 1 and the female member 11 are thus temporarily fixed as shown in FIG. It is attached to the part P1 side as it is.
[0018]
Therefore, this time, until the flange portion 15 of the female member 11 comes into contact with the surface of the panel P2, the body portion 13 of the female member 11 is inserted into the mounting hole H2 that is opened in advance on the panel P2 side. When the shaft portion 4 of the male member 1 is completely inserted into the body portion 13 of the female member 11, as shown in FIG. 4, the insertion of the shaft portion 4 of the male member 1 and the action of the overhanging portion 14 of the body portion 13 Since the tip end side having the 13-ring closed bifurcated shape is forcibly expanded outward, the component P1 is reliably and easily fixed to the panel P2 side at a constant interval.
[0019]
Therefore, under the first embodiment, compared with the conventional anti-vibration fixing structure, there is an advantage that it is easy to fix the component P1 to the panel P2 while reducing the number of members used, and that In the fixed state, mechanical vibration generated on the component P1 side or the panel P2 side is transmitted to the other due to the presence of each vibration absorbing arm 16A that is elastically locked to the hole edge of the mounting hole H1 of the component P1. Can be effectively prevented. Basically, in the mechanical vibration, the lateral vibration is absorbed by the bending of each vibration absorbing arm 16A in the inner and outer directions, and the vertical vibration is absorbed in the vertical direction of each vibration absorbing arm 16A. However, the expanded shape of the body portion 13 is also auxiliary but is involved in vibration absorption in the vertical direction.
[0020]
Further, when it becomes necessary to release the fixed state of the component P1, a tool tip (not shown) is fitted into the operation groove 3 formed in the enlarged head 2 of the male member 1. Then, if the shaft portion 4 of the male member 1 is rotated in a predetermined direction, the expanded state of the body portion 13 of the female member 11 can be released, and thereafter, the body portion of the female member 11 can be removed from the mounting hole H2 on the panel P2 side. If 13 is pulled out, the component P1 can be easily removed from the panel P2 side.
[0021]
Next, the vibration-proof clip according to the second embodiment will be described. The vibration-proof clip is also composed of only the pin-shaped male member 1 and the tubular female member 11 as shown in FIG. The feature is that the following configuration is adopted.
[0022]
As shown in FIGS. 6A and 6B, the male member 1 has a substantially L-shape that elastically contacts the peripheral surface of the mounting hole H1 on the component P1 side at the opposed lower edge of the enlarged head 2 thereof. While the pair of vibration absorbing arms 6 are vertically provided, a tapered small width dimension L1 is formed by chamfering the distal end side of the shaft portion 4, and the temporary widths having different depths are vertically increased on both side surfaces of the distal end of the small width dimension L1. The structure which forms the step part 7a for a stop and the step part 7b for a final stop with a paired relationship is employ | adopted.
As shown in the figure, the vibration absorbing arm 6 can be easily removed from the mold as shown in FIG. 6C, for example, in addition to being suspended in an arc shape along the periphery of the head 2. Depending on the implementation, the pair of vibration-absorbing arms 6 may be suspended so as to be linearly opposed.
[0023]
For the female member 11, the flange portion 12 is not formed at the opening edge of the body portion 13, but is formed at a position slightly lowered below, and is slit at a portion protruding downward from the flange portion 12. A pair of divided body pieces 13a divided by 18 are defined, and a locking claw 19 is formed on the inner surface of the lower end of each divided body piece 13a so as to be removably engaged with the stepped portions 7a and 7b. On the other hand, a pair of vibration absorbing arms 16B that are curved in a substantially C shape are erected on the opposing upper edges of the flange portion 12, and the tip end portions of the vibration absorbing arms 16B are placed in the mounting holes H1 on the component P1 side. The structure which each attaches the protrusion 20 which engages and exhibits the positioning effect | action is employ | adopted.
[0024]
In the second embodiment, the interval width L2 between the locking claws 19 of each divided body piece 13a is set to be larger than the tip width L1 of the shaft portion 4 of the male member 1. Therefore, the relationship between the male member 1 and the female member 11 is that the shaft portion 4 of the male member 1 is aligned with the female member while the stepped portions 7a and 7b on the shaft portion 4 side and the locking claws 19 of the split barrel piece 13a are aligned. 11, firstly, the respective locking claws 19 of the pair of opposed divided barrel pieces 13 a are engaged with the temporary fixing step 7 a on the shaft portion 4 side, and both members 1, 11 are inserted. Can be set in a temporarily fixed state, and when the shaft portion 4 of the male member 1 is completely inserted into the body portion 13, each locking claw 19 of the divided body piece 13 a is now connected to the step portion for main fastening on the shaft portion 4 side. The pair of split barrel pieces 13a are forced to expand outwardly by engaging with 7b.
[0025]
Further, when the male member 1 is rotated by 90 ° using the operation groove 3 of the enlarged head 2 in such a state, the locking claw 19 of the divided body piece 13a is moved to the shaft portion 4 due to the above-described dimensional difference. The shaft portion 4 of the male member 1 can be easily pulled out from the body portion 13 of the female member 11 by detaching from the main fixing step 7b on the side.
[0026]
Therefore, when the plate-like component P1 is fixed to the panel P2 side using the male member 1 and the female member 11 having such a configuration, first, the pair of vibrations is inserted into the mounting hole H1 on the component P1 side from below. While inserting the protrusion 20 of the absorbing arm 16B and positioning the female member 11 in the mounting hole H1, the shaft portion 4 of the male member 1 is inserted into the body portion 13 of the female member 11 from above, and each divided body piece 13a is inserted. When the locking claw 19 is engaged with the temporary fixing step 7a of the shaft portion 4, the male member 1 and the female member 11 are attached to the component P1 side while being temporarily fixed as shown in FIG. It is done.
[0027]
Therefore, this time, until the flange portion 12 on the female member 11 side comes into contact with the panel P2 surface, the divided body piece 13a of the female member 11 is inserted into the mounting hole H2 on the panel P2 side, and the shaft portion of the male member 1 is inserted. 4 is completely inserted into the body portion 13 of the female member 11, as shown in FIG. 8, the locking claws 19 of the respective divided body pieces 13 a are now engaged with the main fastening step portions 7 b of the shaft portion 4. Thus, each divided body piece 13a is forcibly expanded outward, so that the component P1 is reliably and easily fixed to the panel P2 side at a constant interval.
[0028]
Therefore, even under the second embodiment, the work for fixing the component P1 to the panel P2 can be easily performed while reducing the number of members used, as compared with the conventional vibration-proof fixing structure. In the fixed state, mechanical vibration generated on the part P1 side or the panel P2 side is transmitted to the other side due to the presence of the vibration absorbing arm 16B on the female member 11 side interposed between the part P1 and the panel P2. Can be effectively prevented.
[0029]
However, in particular, under this second embodiment, the vibration in the lateral direction is absorbed by the bending inward and outward of the vibration absorbing arm 16B on the female member 11 side as in the first embodiment. However, since the vibration in the vertical direction is effectively absorbed by the vertical bending of the vibration absorbing arm 6 on the male member 1 side described above in addition to the vertical bending of each vibration absorbing arm 16B. In addition, the anti-vibration effect is further increased.
[0030]
Further, when it is necessary to release the fixed state of the component P1, as described above, when the male member 1 is rotated by 90 °, as shown in FIG. 9, the locking claws 19 of the split barrel piece 13a are obtained. Can be easily removed from the body 13 of the female member 11 by removing the shaft 4 of the male member 1 from the main fastening step 7b on the side of the shaft 4, so that the part P1 is removed from the panel P2. Even easier.
[0031]
In the second embodiment, as described above, two vibration absorbing arms 6 on the male member 1 side and two vibration absorbing arms 16B on the female member 11 side are provided in pairs. However, the present invention is not limited to this, and it is possible to provide two or more vibration absorbing arms 6 and 16B at equal intervals with respect to the male member 1 and the female member 11. is there.
[0032]
Finally, the vibration-proof clip according to the third embodiment will be described. The vibration-proof clip is also composed of only the pin-shaped male member 1 and the cylindrical female member 11, as shown in FIG. The feature is that the following configuration is adopted.
[0033]
For the male member 1, a temporary fastening annular small-diameter portion 8 a and a permanent fastening annular large-diameter portion 8 b are formed in the vertical direction of the tip end of the shaft portion 4. The structure which forms the diameter difference part 9 is employ | adopted.
[0034]
As shown in FIG. 11, the female member 11 is provided with a plurality of vibration absorbing pieces 16C extending in a radially curved manner on the upper outer peripheral surface of the body portion 13, and the distal end edges of the respective vibration absorbing pieces 16C. A ring body 21 having a U-shaped cross section having an annular groove 22 is integrally connected to the ring body 21, and the annular groove 22 of the ring body 21 is elastically locked to the hole edge of the mounting hole H1 on the part P1 side. On the other hand, the upper wall 21a of the ring body 21 has a round shape, but the lower wall 21b has a slightly smaller diameter than the upper wall 21a, and a part thereof (in the range of about 45 °) is cut out 23. Thus, a configuration is adopted in which a guide portion 24 protruding outward is provided on one notch side edge.
[0035]
Further, an edge portion 25 that contacts the peripheral surface of the mounting hole H2 on the panel P2 side is formed on the intermediate outer peripheral surface of the body portion 13, and a stopper portion 26 of the diameter difference portion 9 is formed on the inner peripheral surface. The lower side of the body part 13 is divided through a plurality of slits 18, and a locking claw 19 is formed on the inner surface of the lower end of each divided body piece 13a to engage with the annular small diameter part 8a and the annular large diameter part 8b. It has a configuration to do.
[0036]
Therefore, the relationship between the male member 1 and the female member 11 in the third embodiment is that when the shaft portion 4 of the male member 1 is inserted into the trunk portion 13 of the female member 11, first, the locking of each divided barrel piece 13a is performed. The claw 19 is engaged with the temporarily fixing annular small diameter portion 8a on the shaft portion 4 side, so that both the members 1 and 11 can be set in a temporarily fixed state, and the shaft portion 4 of the male member 1 is completely inserted into the body portion 13. And this time, the latching claw 19 of each divided body piece 13a rides on the main locking annular large diameter portion 8b on the shaft portion 4 side, and forcibly expands each divided body piece 13a outward. Become.
[0037]
Therefore, when the plate-like component P1 is fixed to the panel P2 side using the male member 1 and the female member 11 having such a configuration, first, the shaft portion 4 of the male member 1 is connected to the body portion 13 of the female member 11. After inserting into the inside and engaging the locking claw 19 of each divided barrel piece 13a with the annular small diameter portion 8a for temporary fixing on the side of the shaft portion 4 to temporarily fix the male member 1 to the female member 11, each vibration absorption When the ring body 21 is gradually rotated while inserting the guide portion 24 applied to the lower wall 21b of the ring body 21 into the mounting hole H1 on the part P1 side while obtaining the flexible deflection of the piece 16C, the ring Since the annular concave groove 22 of the body 21 is elastically locked to the hole edge of the mounting hole H1, as shown in FIG. 12, the male member 1 and the female member 11 remain in the temporarily fixed state on the component P1 side. It is attached.
[0038]
Therefore, this time, the divided body piece 13a of the female member 11 is inserted into the mounting hole H2 on the panel P2 side until the edge portion 25 formed on the body portion 13 of the female member 11 comes into contact with the panel P2 surface. When the shaft portion 4 of the male member 1 is completely inserted into the body portion 13 of the female member 11, as shown in FIG. 13, the locking claws 19 of the divided body pieces 13a are now fixed to the main portion on the shaft portion 4 side. Each of the divided body pieces 13a is forced to expand outward by riding on the annular large-diameter portion 8b, so that the component P1 is reliably and easily fixed to the panel P2 side at a certain interval. .
[0039]
Accordingly, even under the third embodiment, as in the previous embodiments, the work of fixing the component P1 to the panel P2 is facilitated while reducing the number of members used, and the fixed state is maintained. In this case, the presence of the plurality of vibration absorbing pieces 16C interposed between the ring body 21 and the body portion 13 of the female member 11 effectively transmits the mechanical vibration generated on the part P1 side or the panel P2 side to the other side. Can be prevented.
In addition, since the vibration absorbing piece 16C is guaranteed to bend freely in each direction, it is possible to effectively absorb both horizontal vibration and vertical vibration. However, when it becomes necessary to release the fixed state of the component P1, the shaft portion 4 of the male member 1 is forcibly pulled out from the body portion 13 of the female member 11 under the third embodiment. It will be.
[0041]
In each of the above-described embodiments, the pin-shaped male member 1 and the cylindrical female member 11 are illustrated as examples, but this point is also limited to these. The two-piece type clip having any structure can be used as long as the vibration absorbing arms 16A and 16B and the vibration absorbing piece 16C can be attached under the same principle. .
[0042]
【The invention's effect】
As described above, the anti-vibration clip according to the present invention adopts the above-described configuration, and unlike the conventional anti-vibration fixing structure, the work for fixing the parts to the panel is greatly simplified while reducing the number of members used. Became possible.
In addition, a vibration absorbing arm erected on the buttocks of the female member as vibration absorbing means, a vibration absorbing arm suspended from the enlarged head of the male member, and a vibration absorbing arm erected on the flange of the female member The vibration-absorbing piece provided on the body part of the female member and the ring body connected to the vibration-absorbing piece can surely prevent the mechanical vibration generated on the component side or panel side from being transmitted to the other side. Improvements can also be expected.
Also, the mounting hole opened on the component side is not limited to the conventional one having a notch, so that the rigidity of the component itself can be increased and the use range can be expected to be expanded.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing an anti-vibration clip according to a first embodiment of the present invention.
FIG. 2 is a sectional view of a female member constituting the vibration-proof clip.
FIG. 3 is a cross-sectional view of a main part showing a state in which a vibration-proof clip is attached to the component side.
FIG. 4 is a cross-sectional view of a main part showing a state in which a component is fixed to a panel.
FIG. 5 is an exploded perspective view showing an anti-vibration clip according to a second embodiment of the present invention.
6A is a front view of a male member constituting the vibration-proof clip, FIG. 6B is a side view thereof, and FIG. 6C is a side view showing another example of the male member.
FIG. 7 is a cross-sectional view of a main part showing a state in which a vibration-proof clip is attached to the component side.
FIG. 8 is a cross-sectional view of the main part showing a state in which the component is fixed to the panel side.
FIG. 9 is a cross-sectional view of the main part showing a state in which the main fastening state of the male member and the female member is released.
FIG. 10 is an exploded perspective view showing an anti-vibration clip according to a third embodiment of the present invention.
11A is a cross-sectional view taken along line AA in FIG. 10, and FIG. 11B is a cross-sectional view taken along line BB in FIG.
FIG. 12 is a cross-sectional view of a main part showing a state in which a vibration-proof clip is attached to the component side.
FIG. 13 is a cross-sectional view of the main part showing a state in which the component is fixed to the panel.
FIG. 14 is an exploded perspective view showing an example of a conventional anti-vibration fixing structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Male member 2 Enlarged head 4 Shaft part 6 Vibration absorption arm 7a Temporary fixing step part 7b Temporary fixing step part 8a Temporary fixing annular small diameter part 8b Main fixing annular large diameter part 11 Female member 12 Flange part 13 Trunk part 13a Divided body piece 15 Gutter part 16A Vibration absorbing arm 16B Vibration absorbing arm 16C Vibration absorbing piece 17 Recess 18 Slit 19 Locking claw 20 Projection 21 Ring body 22 Annular groove 24 Guide part P1 Part H1 Part mounting hole P2 Panel H1 Panel Mounting holes

Claims (3)

  An anti-vibration clip that fixes a component and a panel while absorbing vibration, and includes a pin-shaped male member and a cylindrical female member, and the male member includes an enlarged head and a shaft portion that is inserted into the female member. The female member has a body portion that expands outward at the flange portion and the shaft portion of the male member and engages with the mounting hole on the panel side, and is attached to the panel side in the middle of the body portion. A flange portion that contacts the circumferential surface of the hole is formed, and a plurality of vibration-absorbing arms that can be bent on the flange portion are erected in a state of being spaced from the flange portion. While holding the part by elastically locking it to the hole edge of the mounting hole on the part side, the body part below the collar part is expanded outward to expand the collar part and its lower side. An anti-vibration clip characterized by holding the panel with the opened body.   An anti-vibration clip that fixes a component and a panel while absorbing vibration, and includes a pin-shaped male member and a cylindrical female member, and the male member includes an enlarged head and a shaft portion that is inserted into the female member. The female member has a body portion that expands outward at the flange portion and the shaft portion of the male member and engages with the mounting hole on the panel side. A plurality of bendable vibration absorbing arms that elastically contact the peripheral surface of the mounting hole are suspended, and a plurality of bendable vibration absorbing arms are erected on the flange portion of the female member, and are erected on the flange portion. The tip of each vibration absorbing arm is elastically locked to the hole edge of the mounting hole on the component side to hold the component, while the flange portion of the female member abuts the panel surface and the enlarged head side of the male member Hold the component so that it can absorb vibrations from above and below with the vibration absorbing arm of the female member and the vibration absorbing arm on the flange side of the female member. Anti-vibration clips and said Rukoto.   An anti-vibration clip that fixes a component and a panel while absorbing vibration, and includes a pin-shaped male member and a cylindrical female member, and the male member includes an enlarged head and a shaft portion that is inserted into the female member. The female member has a body portion that expands outward at the flange portion and the shaft portion of the male member and engages with the mounting hole on the panel side, and extends in a curved manner radially to the body portion. A plurality of deflectable vibration absorbing pieces are provided, and a ring body having an annular groove is integrally provided at the tip edge of each vibration absorbing piece, and the annular groove of the ring body is connected to the mounting hole on the component side. An anti-vibration clip that is elastically locked to a hole edge to hold a component.

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