GB2305961A - A releasable clip or rivet having a segmented leg expandable by an insertion pin - Google Patents

Abstract

A clip or rivet for releasably fastening plates i and j together, including a body 1 comprising a flange 3 and a hollow cylindrical leg 5 for receiving a pin 2, the leg being divided by slits 8 into segments 9 which expand outwardly when the pin is inserted into the body, each segment being formed with a projection 12 which engages with a catch 18 on the pin shaft 14, is modified in that each slit 8 has wider portions 10 at the end near the flange 3. Also the shaft is provided with axial ribs 19 widened at their upper ends for insertion into the wide portions 10 of the slits. The clip is able to withstand a shearing force in the direction F in the mounting of a bumper on a vehicle.

Description

Clip This invention relates to a clip suitable for use in connecting two plates or the like, more particularly to a clip which includes a clip body constituted as a leg projecting from the bottom surface of a flange and a pin whose shaft portion projects from the bottom surface of a head and which can be used to fasten two plates together by forming a through hole in each of the two plates, overlaying the plates with the two through holes aligned, inserting the leg of the clip body into the through holes and forcing the shaft of the pin into the leg so as to expand the tip of the leg of the clip body.

Description of the Prior Art: In mounting a bumper on an automobile body, it is a common practice to fix the bumper fasciae to retainers on the body panels using synthetic resin clips.

One type of clip used for this purpose consists of a clip body constituted as a substantially cylindrical leg projecting from the bottom surface of a flange and a pin whose shaft portion projects from the bottom surface of a head.

This clip is used to fasten two plates together by forming a through hole in each of the two plates to be fixed together, overlaying one plate on the other with the two through holes aligned, inserting the leg of the clip body into the through holes and forcing the shaft of the pin into the leg so as to expand the tip of the leg of the clip body and thus clamp the two plates between the bottom surface of the flange of the clip body and the expanded tip of the leg.

A clip of this type disclosed in Japanese Utility Model Public Disclosure Sho 55-120818 is illustrated in FIGS.

12 and 13. As shown in these figures, the clip has clip body 31 consisting of a flange 33 with a central pin insertion hole and a substantially cylindrical leg 34 which is provided on the bottom surface of the flange 33 with its hollow interior in communication with the insertion hole and which is divided into four segments by four regularly spaced slits 35 formed in the wall of the leg 34 in parallel with the leg axis, and further has a pin 32 consisting of a shaft 37 extending from the bottom surface of a head 36 and four ribs 38 formed axially on the periphery of the shaft 37 in correspondence to the slits 35 of the clip body 31.

When the clip is used to fasten together two plates i and j formed with through holes k and 1, the plates are overlaid with the through holes aligned and the leg 34 of the clip body 31 is inserted into the through holes (FIG. 12).

The shaft 37 of the pin 32 is then forced into the interior of the clip body 31. As shown in FIG. 13, the tip of the leg 34 has a small inner diameter and is pushed outward by the invasion of the shaft 37 so that the segments of the leg 34 flex outward, causing the tip of the leg 34 to expand into pressure contact with the wall of the through hole 1 and clamping the plates i, j together between the expanded tip of the leg 34 and the flange 33. When the shaft 37 has been pushed all the way in, catch projections 40 formed on the inner walls of the segments of the leg 34 engage with a catch dent 39 formed on the shaft 37 of the pin 32, whereby the expanded state of the leg 34 is maintained, and the ribs 38 formed on the shaft 37 of the pin 32 come to rest in the slits 35 of the clip body 31.

However, this clip has insufficient strength against shearing force. When a strong force acts on the plate i in the direction of the arrow F in FIG. 13, for example, the plates are liable to become unfastened owing to breakage of the clip. When clips of this type are used for mounting a heavy bumper on an automobile body, therefore, there is a danger of the bumper falling off owing to breakage of the clips. It is therefore desirable to increase the strength of such clips without incurring increased cost or other disadvantages.

The present invention was accomplished in light of these circumstances and has as its object to provide a clip with high strength against shearing force that is easy to use and no more expensive to manufacture than prior art clips of the same type.

The invention provides a clip comprising a clip body and a pin; the clip body having a flange formed with an insertion hole for the pin and a substantially cylindrical leg projecting from the bottom surface of the flange, having a hollow interior communicating with the pin insertion hole and divided by a plurality of slits formed in the axial direction of the peripheral wall thereof into a plurality of segments each formed on the inner side of the tip thereof with a catch projection; the pin having a head and a shaft projecting from the bottom surface of the head and adapted for insertion through the pin insertion hole into the hollow interior of the leg; the shaft being formed with a catch for engaging with the catch projections of the leg and expanding the leg; the clip being characterized in that each slit is formed wide at the end near the flange and narrow near the tip and that the peripheral surface of the shaft is provided with a plurality of ribs extending in the axial direction of the leg for insertion into at least the wide portions of the slits in the leg.

In a preferred aspect of the invention, a plurality of retaining recesses having tapered upper floor portions are formed on the tip portion of the pin shaft adjacent to the catch.

The clip according to the present invention is suitable, for example, for fastening a plurality of plates together. Plates formed with through holes for clip fastening are stacked with their through holes in alignment, the leg of the clip body is inserted into the through holes, and the shaft of the pin is forced into the interior of the leg. As a result, the tip of the leg expands and the plates are fastened between the flange of the clip body and the expanded tip of the leg.

More specifically, the leg of the clip body is inserted into the through holes of the stacked plates until the tip thereof projects from the opposite side of the stacked plates and the bottom surface of the flange of the clip body comes into abutment with the uppermost plate. Then when the shaft of the pin is forced into the interior of the leg of the clip body through the pin insertion hole in the flange, the force of the pin shaft on the leg segments flexes the tips of the segments outward, causing the tip of the leg to expand, while, at the same time, the catch projections on the inner surfaces of the segments and the catch formed on the shaft engage to maintain the tip of the leg in the expanded state.

As a result, the expanded tip of the leg presses onto the inner walls of the plate through holes to fix the clip therein and the plates are clamped between the bottom surface of the flange of the clip body and the expanded tip of the leg. In addition, the ribs formed on the surface of the pin shaft come to rest in the slits of the clip body leg.

In this type of clip in which the tip of a clip body leg is expanded by forcing a pin shaft into the interior of the leg, the flexing performance of the segments of the clip body leg has to be good for ensuring smooth expansion of the leg tip. The permissible rigidity of the leg is therefore limited. In the invention clip, however, the width of the slits for dividing the leg into a plurality of segments are made wide at the end near the flange, and the pin shaft ribs, which can be of high rigidity, come to rest in these wide slit portions. This makes it possible to increase the rigidity of the clip at the base portion of the leg and thus to greatly increase the strength of the clip against shearing force.

Moreover, since the large width of the slits at the end of the leg near the flange makes the width of the individual leg segments narrow in this region, the flexibility of the segments is increased, making it easier to expand the tip of the leg by insertion of the pin shaft. Since the amount of force required for inserting the pin when the clip is employed for fastening is therefore reduced, the clip becomes easier to use. In addition, since the narrow width of the slits near the tip of the leg makes the width of the individual leg segments large in this region, it is possible to form the catch projections to a width sufficient for maintaining the expanded state of the leg tip and for the expanded state of the tip to be securely maintained by reliable engagement between the catch projections and the catch on the pin shaft.

Thus, without raising production cost or causing any other disadvantage and without changing the ease with which the clip can be used, the invention makes it possible to increase the strength of the clip against shearing force and to easily enhance the strength of the clip simply by adjusting the width of the slits in the leg of the clip body and forming the ribs on the shaft of the pin to match the size of the slits.

The above and other features of the present invention will become apparent from the following description made with reference to the drawings, in which FIG. 1 is a front view of a clip that is an embodiment of the invention.

FIG. 2 is a front view, partially broken away, showing the clip of FIG. 1 with the shaft of a pin thereof forced into the leg of a clip body thereof.

FIG. 3 is a plan view of the clip body of the clip of FIG. 1.

FIG. 4 is a front view of the clip body of FIG. 3.

FIG. 5 is a sectional view taken along line V-V of FIG. 3.

FIG. 6 is a bottom view of the clip body of FIG. 3.

FIG. 7 is a partial enlarged view showing catch projections formed on the leg of the clip body of FIG. 3.

FIG. 8 is a front view of the pin of the clip of FIG. 1.

FIG. 9 is a bottom view of the pin of FIG. 8.

FIG. 10 is an explanatory view showing the leg of the clip of FIG. 1 inserted into through holes of two plates to be fastened together by the clip.

FIG. 11 is an explanatory view showing two plates fastened together by the clip of FIG. 1.

FIG. 12 is an explanatory view showing the leg of a prior art clip inserted into through holes of two plates.

FIG. 13 is an explanatory view showing two plates fastened together by the clip of FIG. 12.

FIGS. 1 - 11 show a clip that is an embodiment of the invention. As shown in FIGS. 1 and 2, the clip consists of a clip body 1 and a pin 2.

As shown in FIGS. 3 - 6, the clip body 1 has a disklike flange 3 with a central pin insertion hole 4 and a hollow, substantially cylindrical leg 5 projecting from the center of the bottom surface of the flange 3 with its hollow interior in communication with the pin insertion hole 4.

The central portion of the top surface of the flange 3 is countersunk to form a circular pin head seat 6 and is further provided with a relatively wide tool insert ion slot 7 extending across the flange.

The wall of the leg 5 is formed with four regularly spaced slits 8 running parallel to the leg's longitudinal axis. The slits 8 divide the pin insertion hole 4 into four segments 9. Each slit 8 is formed of an upper wide portion 10 and a lower narrow portion 11. The wide portions 10 pass through the flange 3 and open at the top surface thereof.

The segments 9 formed by the slits 8 are formed on the inner surfaces of their tips with catch projections 12 which reduce the inner diameter at the tip of the leg 5. The tip of the leg 5 is chamfered to reduce its outer diameter.

As shown in FIGS. 8 and 9, the pin 2 has a disk-like head 13 and a solid, substantially cylindrical shaft 14 projecting from the center of the bottom surface of the head 13. The periphery of the shaft 14 tip is formed with four regularly spaced retaining recesses 15 (only two visible in the drawings). The upper portion of the floor of each retaining recess 15 is defined by a tapered surface 16 which gradually reduces the depth of the retaining recess 15 toward the top. An annular catch dent 18 is formed above the retaining recesses 15 and is partitioned therefrom by a catch step 17. The periphery of the shaft 14 is further provided with four ribs 19 running parallel to the shaft axis from under the head 13 to the catch step 17. The ribs have upper wide portions 20 and lower narrow portions 21 configured to match the slits 8 formed in the leg 5 of the clip body 1.The narrow portion 21 of each rib gradually decreases in height toward the bottom, finally meeting with the surface of shaft 14 at the catch step 17. The tip of the shaft 14 is chamfered to reduce its outer diameter.

The clip according to this embodiment is obtained by coupling the clip body 1 and the pin 2. As will be understood from FIG. 1, the clip body 1 and the pin 2 can be provisionally coupled by inserting the shaft 14 of the pin 2 into the pin insertion hole 4 from the side of the flange 3 of the clip body 1 and pressing it inward until the catch projections 12 protruding inward from the tips of the segments 9 of the leg 5 of the clip body 1 engage with the four retaining recesses 15 formed on the tip of the shaft 14 of the pin 2. In this provisionally coupled state, the head 13 and the proximal portion of the shaft 14 of the pin 2 project above the top surface of the flange 3 of the clip body 1 (see FIG. 1).

Next, as will be understood from FIG. 2, if the head 13 of the pin 2 of the provisionally assembled clip is pressed down to drive the shaft 14 of the pin 2 deeper into the leg 5 of the clip body 1, the catch projections 12 protruding inward from the tips of the segments 9 of the leg 5 are pushed outward by the tapered surfaces 16 of the retaining recesses 15 formed on the tip of the shaft 14 of the pin 2, causing the segments 9 to flex outward'and expand the tip of the leg 5, whereafter the catch projections 12 ride over the catch step 17 provided above the retaining recesses 15 and engage with the catch dent 18. As a result, the catch projections 12 are retained in the catch dent 18 by the catch step 17 so that the tip of the leg 5 is maintained in its expanded state.At this time, moreover, the ribs 19 of the pin 2 are located in the slits 8 of the leg 5 of the clip body 1, with the wide portions 20 of the ribs 19 fitted in the wide portions 10 of the slits 8 and the narrow portions 21 of the ribs 19 fitted in the narrow portions 11 of the slits 8. In addition, the head 13 of the pin 2 fits into the pin head seat 6 formed in the top surface of the flange 3 of the clip body 1 and thus does not project above the flange 3.

The method of using the clip and its operation will now be explained.

When the clip is used for fastening two plates i, j, as shown in FIG. 10, the plates are overlaid and positioned to bring through holes k, 1 drilled therein beforehand into alignment, the clip is provisionally assembled by inserting the shaft 14 of the pin 2 into the leg 5 of the clip body 1, and the provisionally assembled clip is inserted through the through holes k, 1 until the bottom surface of the flange 3 of the clip body 1 is flush with the upper surface of the upper plate (plate i in the drawing).

Next, as can be seen in FIG. 11, force is applied to the head 13 of the pin 2 in the direction of the arrow P to drive the shaft 14 of the pin 2 deeper into the leg 5. The tip of the leg 5 is therefore expanded by the aforesaid action of the tapered surfaces 16 of the retaining recesses 15 of the pin 2, and the catch projections 12 of the segments 9 of the leg 5 engage with the catch dent 18 of the shaft 14 of the pin 2. The tip of the leg 5 is maintained in this expanded state since the catch projections 12 are retained in the catch dent 18 by the catch step 17.

The expanded tip of the leg 5 presses onto the inner walls of the through holes k, 1 of the plates i, j to fix the clip therein and the plates i, j are clamped between the bottom surface of the flange 3 of the clip body 1 and the expanded tip of the leg 5. In addition, the ribs 19 formed on the surface of the shaft 14 of the pin 2 come to rest in the slits 8 of the leg 5 of the clip body 1.

In this embodiment of the clip, the width of the slits 8 dividing the leg 5 into the segments 9 are made wide at the end near the flange 3, and the ribs 19 on the shaft 14 of the pin 2, which can be given high rigidity, come to rest in these wide slit portions. This makes it possible to increase the rigidity of the clip at the base portion of the leg 5 and thus to greatly increase the strength of the clip against shearing force. The plates i, j can therefore be maintained securely fastened even if, as shown by way of example in FIG. 11, a strong shearing force should act on one of them (plate i in the example) in the direction of the arrow F.Moreover, since the large width of the slits 8 at the end of the leg 5 near the flange 3 makes the width of the individual leg segments 9 narrow in this region, the flexibility of the segments 9 is increased, making it easier to expand the tip of the leg 5 by insertion of the shaft 14 of the pin 2. Since the amount of force required for inserting the pin 2 during a fastening operation using the clip is therefore reduced, the clip becomes easier to use.

Thus without making the clip any more complex to operate and without increasing production cost or causing any other disadvantage, this embodiment of the invention provides increased strength against shearing force and also enables the strength of the clip to be easily enhanced simply by adjusting the width of the slits 8 in the leg 5 of the clip body 1 and forming the ribs 19 on the shaft 14 of the pin 2 to match the size of the slits.

In addition, since the narrow width of the slits 8 near the tip of the leg 5 makes the width of the individual leg segments 9 large in this region, it is possible to form the catch projections 12 to a width sufficient for maintaining the expanded state of the leg tip and for the expanded state of the tip of the leg 5 to be securely maintained by reliable engagement between the catch projections 12 and the catch step 17 on the shaft 14 of the pin 2. More specifically, as shown in FIG. 7, since in this embodiment of the clip the slits 8 formed in the leg 5 are made narrow near the tip (bottom), the tips of the catch projections 12 can be given a considerably large width W.Although the increased strength against shearing force provided by this embodiment of the clip can be secured even if the slits 8 are made wide throughout, this would give the tips of the catch projections 12 a very small width .~, as indicated by the chain lines 30 in FIG. 7. The engagement force between the catch projections 12 and the catch step 17 would therefore become insufficient owing to the small engagement width therebetween, increasing the likelihood of undesired loss of the expanded state of the leg 5 and possibly leading to progressive weakening of the engagement force owing to wear caused by slipping between the catch projections 12 and the shaft 14.

Moreover, since the clip of this embodiment is configured so that the head 13 of the pin 2 comes to rest in the pin head seat 6, there is almost no possibility of the expanded state of the leg 5 being lost because of something catching on the head 13 of the pin 2 and pulling the pin 2 upward. On the other hand, if it is desired to release the expanded state of the leg 5 by deliberately pulling the pin 2 upward, this can be easily accomplished by inserting the tip of an ordinary screwdriver through the tool insertion slot 7 and between the head 13 of the pin 2 and the upper surface of the pin head seat 6 and then prying the head 13 of the pin 2 upward.Once the pin 2 has been lifted to the point where the catch projections 12 provided on the segments 9 of the leg 5 have ridden over the catch step 17 of the shaft 14, the elastic force of the segments 9 of the leg 5 acting in conjunction with the tapered surfaces 16 of the retaining recesses 15 below the catch step 17 automatically raises the pin 2, so that expanded state of the leg 5 can be released with utmost ease by prying the pin 2 up only slightly.

The clip according to the invention is not limited to the embodiment described in the foregoing. For example, differently from the foregoing embodiment which is formed with the tool insertion slot 7 diametrically traversing the flange 3 in the form of a band so as to form two gaps for insertion of a tool at the periphery of the flange 3, it is possible instead to form only a single tool insertion gap by cutting away only one part of the periphery of the pin head seat 6 to open the outer edge of the flange 3 or to form three or more tool insertion gaps by cutting away the periphery of the pin head seat 6 at three or more places. It is also possible to omit the pin head seat 6 and the tool insertion slot 7.

Further, while the clip of the embodiment is designed so that prior to use the clip body 1 and the pin 2 are provisionally coupled by engagement of the catch projections 12 formed on the leg 5 of the clip body 1 with the retaining recesses 15 formed on the shaft 14 of the pin 2, it is alternatively possible to store the clip body and the pin separately and to join the clip body and pin and expand the leg of the clip body by inserting the pin into the clip body at the time of use. In addition, it is possible to omit the narrow portions 21 of the ribs 19 and to provide the shaft 14 of the pin 2 only with ribs for insertion into the wide portions 10 of the slits 8.

As explained in the foregoing1 the invention responds to the long-felt need for a clip with greater strength against shearing force without creating other problems such as increased production cost and, in addition, enhances the operability of the clip by making it easy to insert the pin and expand the leg with only a small force.

Claims (4)

Claims:

1. A clip comprising a clip body and a pin, the clip body having a flange formed with an insert ion hole for the pin and a substantially cylindrical leg projecting from the bottom surface of the flange, having a hollow interior communicating with the pin insert ion hole and divided by a plurality of slits formed in the axial direction of the peripheral wall thereof into a plurality of segments each formed on the inner side of the tip thereof with a catch projection the pin having a head and a shaft projecting from the bottom surface of the head and adapted for insertion through the pin insertion hole into the hollow interior of the leg, the shaft being formed with a catch for engaging with the catch projection of the leg and expanding the leg, said clip being characterized in that each slit is formed wide at the end near the flange and narrow near the tip and that the peripheral surface of the shaft is provide with a plurality of ribs extending in the axial direction of the leg for insertion into at lest the wide portions of the slits in the leg.

2. A clip according to claim 1, characterized in that a plurality of retaining recesses having tapered upper floor portions are formed on the tip portion of the pin shaft adjacent to the catch.

3. A clip according to claim 1, characterized in that the ribs have wide portions for insertion into the wide portions of the slits and narrow portions for insert ion into the narrow portions of the slits.

4. A clip substantially as hereinbefore described with reference to and as shown in the accompanying drawings.