Interengaging fastener member and fastener having same

A fastener member 10 has a generally planar base section 12 and a plurality of engaging strips 14 projecting from one surface of the base section 12 and extending parallel to each other in the longitudinal direction. Each of the engaging strips 14 has a vertical portion 16 adjoining the base section 12, and a head portion 18 formed at the end of the vertical portion 16. The head portion 18 of the engaging strip 14 is provided with a plurality of slots 20 extending transversely through the head portions 18. The slots 20 may be inclined with respect to the base section 12. The slots 20 guide headed stems of the opposed fastener member, and reduce the pressure necessary for interengagement. Even when the compressive force is applied in the direction inclined to the base section 12 of the fastener member 10, the interengagement can be easily obtained without bending the headed stems of the opposed fastener member by the guiding effect of the slots 20.

TECHNICAL FIELD 
The present invention relates to an interengaging fastener member, and to a 
fastener including the fastener member. 
BACKGROUND OF THE INVENTION 
Fasteners including a pair of cooperative fastener members that may be 
interengaged to attach one object to another object are known. For 
example, hook and loop fasteners generally comprise a first fabric 
fastener member having a plurality of hooks extending from a generally 
planar base section, and a second fabric fastener member having a 
plurality of loops extending from a generally planar base section. The 
hooks and loops of the respective members may be interengaged to attach 
the fastener members to each other. For purposes of this invention, each 
of two fastening components will be designated a "fastener member," and 
two cooperative fastener members will together be designated a "fastener." 
Another conventional type of interengaging fastener, shown in FIG. 7(a), 
includes first fastener member 1 and second fastener member 2. Each 
fastener member has a generally planar base section 3 and 4, respectively, 
and an arranged plurality of headed stems 5 projecting from the respective 
base sections. The opposed first and second fastener members 1, 2, which 
are typically made of a molded polymeric material, are interengaged by 
bringing the heads of the stems 5 into contact with each other such that 
the base sections 3, 4 of the fastener members are parallel. When a 
predetermined compressive force F is applied to the fastener members 1, 2, 
the heads of the stems 5 bypass each other to fasten the fastener members 
1, 2 together due to interference between adjacent heads. Such a fastener 
has utility in a variety of applications, and is referred to herein as a 
"headed stem fastener." Examples of such a fastener are shown in U.S. Pat. 
Nos. 4,216,257, 4,290,174, and 5,077,870, and are available from Sumitomo 
3M Limited of Tokyo, Japan under the designation "Dual Lock" brand 
fasteners. 
Headed stem fasteners may be used in conjunction with a fixed pane window 
in, for example, the manufacturing process of an automobile. A fixed pane 
window typically is affixed to a window frame of the automobile body with 
an adhesive around the periphery of the window. However, during the time 
that the adhesive is hardening, it is necessary to hold the window 
securely, so that the window is not moved and the adhesion is not damaged. 
When a headed stem fastener is used to secure the window to the window 
frame, the first and second fastener members are affixed to the window and 
to the window frame, respectively, and are brought into opposite contact 
with each other. The fastener members may be interconnected with each 
other by a predetermined compressive force, after the window has been 
arranged at the correct position. After the window is positioned in the 
window frame in this way, the adhesive will harden, and a window molding 
may be mounted about the periphery of the window for protection and 
decoration. The molding is generally made of an extruded resin material. 
In the foregoing application, difficulty may arise in interengaging the 
fastener members if the direction of the compressive force F is inclined 
with respect to the orientation of headed stems of a fastener member. For 
example, the first fastener member 1 may be adhered to inclined surface 6, 
and the second fastener member 2 may be positioned for interengagement 
with the fastener member 1, as shown in FIG. 7(b). Force F' is applied to 
the second fastener member 2 at force angle .alpha. with respect to the 
headed stems 5 of the second fastener member 2. Because force F' is 
inclined with respect to the headed stems 5, the headed stems 5 of the two 
fastener members 1, 2 may bend sideways when force F' is applied, as shown 
in FIG. 7(c). If the headed stems 5' bend sufficiently, the heads will not 
bypass each other, and the fastener members 1, 2 will not engage. Thus, 
the window may not be properly affixed to the automobile, which can result 
in leaking or window replacement costs. 
A fastener member having headed projection strips may be used for solving 
the above problem. The faster member may be constructed, for example, as 
an intermediate step in the manufacturing process for the headed stem 
fastener, as disclosed in Japanese Examined Patent Publication (Kokoku) 
No. 53-22889. Each fastener member has a plurality of engaging strips 
projecting from and extending mutually parallel and longitudinally of a 
generally flat base section. Each of the engaging strips has a vertical 
portion adjoining the base section, a head portion adjoining the vertical 
portion, and two end faces. When a pair of fastener members is used, the 
engaging strips of each fastener member are opposed to and parallel with 
each other, and the head portions thereof may be engaged with each other 
by a predetermined compressive force. Thus, if the compressive force is 
applied in an inclined direction with respect to the longitudinal 
direction of the engaging strips, the engaging strips may be engaged with 
each other due to rigidity thereof, without being bent. 
However, in a fastener comprising a pair of the above fastener members with 
engaging strips, it is necessary that the longitudinal direction of the 
engaging strips coincide with each other when the fastener members are 
interengaged. Thus, it becomes difficult to move the fastener members 
relative to each other for positioning, which negates some of the 
advantages described above for using the fastener members as the fastening 
assist member for a vehicle window. This problem may be solved by 
replacing one of the fastener members by a headed stem fastener member, 
but difficulty with bending the headed stems may arise again. 
Another difficulty with conventional interengaging fasteners, such as hook 
and loop fasteners or headed stem fasteners, is that the fasteners 
typically cannot be engaged by parallel sliding of the fastener members. 
Hook and loop fasteners tend to engage upon contact, and it is therefore 
difficult to contact the fastener members and then slide one relative to 
the other. Headed stem fastener members cannot be engaged with each other 
by parallel sliding because the individual headed stems would be bent. In 
the fastener members mentioned above having engaging strips, end faces of 
the engaging strips extend vertically from the base section, and thus tend 
to collide with each other upon sliding engagement. Therefore, it is 
difficult to interconnect the fastener members by sliding engagement. 
Further, when both the interengaging fastener for fastening a window and 
the molding fastener for fastening a window molding are arranged on the 
window frame of the vehicle body, the operation for attaching these 
independent fastener members to the window frame has heretofore been 
performed by different processes, and thus the number of steps and the 
labor of operators in a production line has been increased. Also, it is 
necessary for operators to be skilled because of the requirement for rapid 
and accurate positioning and correct attachment in a relatively restricted 
space. 
It is therefore desirable to provide an interengaging fastener member that 
can be easily engaged with an opposed fastener member by applying a 
compressive force in a direction that is inclined with respect to a base 
section of the fastener member. It is also desirable to provide an 
interengaging fastener member that allows a pair of fastener members to be 
slidingly engaged with each other. Further, it is desirable to provide an 
interengaging fastener member that facilitates a reduction in the time 
required for affixing a vehicle window to a frame. 
SUMMARY OF THE INVENTION 
The present invention provides an interengaging fastener member comprising 
a base section and a plurality of parallel engaging strips projecting from 
and extending longitudinally of the base section. The engaging strips each 
have a vertical portion adjoining the base section, a head portion 
adjoining the vertical portion, and two end faces. The engaging strips are 
adapted for engagement with a projecting head portion of an opposed 
fastener member, and the head portion of at least one of the engaging 
strips has a plurality of transverse slots formed therein. The slots 
formed through the head portion of the engaging strips guide the 
projecting head portion of the opposed fastener member and facilitate the 
interengagement of the head portions. Therefore, when interengaging the 
fastener members, the fastener members can be easily joined to each other 
by applying a relatively small force. In the case when the opposed 
fastener member has a plurality of headed stems, the fastener member of 
the present invention acts in the same manner. 
The present invention further provides an interengaging fastener member 
comprising a base section and a plurality of parallel engaging strips 
projecting from and extending longitudinally of the base section. The 
engaging strips each have a vertical portion adjoining the base section, a 
head portion adjoining the vertical portion, and two end faces. The 
engaging strips are adapted for engagement with a projecting head portion 
of an opposed fastener member, and the end faces are inclined with respect 
to the base section to facilitate sliding engagement of the fastener 
member with an opposed fastener member. The inclined end faces of the 
engaging strips, soften a collision between the engaging strips and the 
projecting head portion of the opposed fastener member and facilitate 
engagement of the projecting head portion with the engaging strips, thus 
facilitating sliding engagement of the fastener members. In the case when 
one fastener member has a plurality of headed stems and the other fastener 
member has a plurality of engaging strips, the inclined end faces of the 
latter acts in the same manner. 
The present invention further provides a fastener comprising first and 
second fastener members adapted for cooperative interengagement, the 
fastener members each including a base section and a plurality of parallel 
engaging strips projecting from and extending longitudinally of the base 
section. The engaging strips each have a vertical portion adjoining the 
base section, a head portion adjoining the vertical portion, and two end 
faces. The end faces of at least one fastener member are inclined with 
respect to the base section of that fastener member to facilitate sliding 
engagement of the fastener members. 
The present invention further provides a fastener comprising first and 
second fastener members adapted for cooperative interengagement, the first 
fastener member including a base section and a plurality of parallel 
engaging strips projecting from and extending longitudinally of the base 
section. The engaging strips each have a vertical portion adjoining the 
base section, a head portion adjoining the vertical portion, and two end 
faces. The second fastener member includes a base section and a plurality 
of headed stems projecting from the base section. The head portions of the 
first fastener member have a plurality of transverse slots formed therein. 
The present invention further provides a fastener comprising first and 
second fastener members adapted for cooperative interengagement, the first 
fastener member including a base section and a plurality of parallel 
engaging strips projecting from and extending longitudinally of the base 
section. The engaging strips each have a vertical portion adjoining the 
base section, a head portion adjoining the vertical portion, and two end 
faces. The second fastener member includes a base section and a plurality 
of headed stems projecting from the base section. The end faces of the 
first fastener member are inclined with respect to the base section, to 
facilitate sliding engagement of the fastener members.

DETAILED DESCRIPTION OF THE INVENTION 
The present invention will be described in more detail based on the 
embodiments shown in the attached drawings. 
Referring to FIG. 1, a fastener member 10, according to one embodiment of 
the present invention, has a generally planar base section 12 and a 
plurality of engaging strips 14 projecting from one surface of the base 
section 12 and being adapted to be engaged with another fastener member. 
With suitable modifications, the fastener member of the present invention 
may comprise an arcuate or non-planar base section, although only a planar 
base section 12 is illustrated herein. The engaging strips 14 have 
substantially constant vertical sectional shapes and extend parallel to 
each other and longitudinally along the base section 12. Each engaging 
strip 14 includes a vertical portion 16 that adjoins the base section 12, 
and a head portion 18 that adjoins the vertical portion 16, preferably at 
the distal end of the vertical portion 16. The head portion 18 is wider 
than the vertical portion 16, such that an opposed head portion from an 
opposed fastener member may interengage between adjacent engaging strips 
14 and be retained by the head portions thereof. The head portions 18 
should be adapted for sliding engagement with opposed heads, and may be, 
for example, circular, semicircular, or triangular in cross-section, as 
shown in FIG. 2. The fastener member having the above construction is 
referred to herein as a "rail fastener member." 
The fastener member 10 also includes a plurality of slots 20 which are 
formed on the head portions 18 of the engaging strips 14 and which extend 
transversely through the head portions 18. The slots 20 guide a plurality 
of opposed head portions of an opposed fastener member, and reduce the 
pressure necessary for interengagement so as to facilitate interengagement 
of the fastener members. The slots 20 are inclined with respect to the 
base section 12, as illustrated, but they may be vertical. The inclination 
angle of the slots 20 is preferably matched to the expected force angle 
.alpha. applied during interengagement of the opposed fastener members. 
The slots 20 can be formed by, for example, a machining process after the 
fastener member 10 is formed. The slots 20 are preferably formed in all 
engaging strips, and the width of each of the slots may be selected as 
desired. 
The fastener member 10 has utility in a variety of applications. For 
example, an interengaging fastener can be constructed by using a pair of 
fastener members 10. In this case, when the engaging strips 14 of each 
fastener members are arranged opposite to each other while aligning the 
longitudinal direction thereof, and the predetermined pressure is applied 
to the each base section 12, the head portions 18 of the engaging strips 
14 can be easily interengaged with each other due to the relatively high 
rigidity of the engaging strips 14, and thus the fastener members 10 may 
be interengaged. 
In another application, the fastener member 10 can be interengaged with a 
headed stem fastener member, as shown in FIG. 7. In this case, the 
vertical portions 16 and head portions 18 of the engaging strips 14 of the 
fastener member 10, and the headed stems of the headed stem fastener 
member should be sized and spaced so as to permit interengagement. The 
head portions 18 of the engaging strips 14 of the fastener member 10 
interengage with the head portions of the headed stems under a 
predetermined compressive force, thus interengaging the fastener members. 
In this application, the slots formed in the head portions 18 guide the 
head portions of the headed stem fastener member, so that the compressive 
force required for the interengagement is reduced. Further, even when the 
compressive force is applied in the direction inclined to the base section 
12 of the fastener member 10, the interengagement can he easily obtained 
without bending the headed stems of the headed stem fastener member by the 
guiding effect of the slots 20. 
FIG. 3 shows a fastener member 22 according to the another embodiment of 
the present invention. The fastener member 22 is a rail fastener member 
similar to fastener member 10 shown in FIG. 1, and includes end faces 28 
inclined at an acute angle in the projecting direction with respect to the 
base section 26 at each longitudinal end of a plurality of engaging strips 
24, instead of the slots 20 formed in the engaging strips 14 of the 
fastener member 10. The end faces 28 can be formed by, for example, a 
machining process after the fastener member 22 is formed. The inclined end 
faces 28 facilitate sliding interengagement between the fastener member 22 
and an opposed fastener member. It should be noted that the inclination 
angle may be anything other than 90.degree. (measured relative to the base 
section), and the end faces may slant toward or away from the center of 
the fastener member. 
The fastener member 22 has utility in a variety of applications. When using 
a pair of fastener members 22 for constituting an interengaging fastener, 
the two fastener members 22 can be slidably engaged with each other by 
inserting the engaging strips 24 of one fastener member 22 between the 
adjacent engaging strips 24 of the other fastener member 22, and inducing 
the sliding relative motion between the two fastener members 22. The 
inclined end faces 28 tend to ease the impact between the opposed engaging 
strips 22 and to facilitate the sliding interengagement. Also, when the 
fastener member 22 is interengaged with a headed stem fastener member, the 
impact between the engaging strips 22 and headed stems is reduced, thus 
facilitating the sliding interengagement. Of course, a fastener member 
including both the slots 20 and the inclined end faces 28 may be provided 
according to the present invention. 
The fastener members 10 and 22 may be formed in one of several different 
ways. In the preferred embodiment, the fastener members 10 and 22 are 
integrally formed as extruded products of a polymeric material, such as 
polypropylene, nylon, polyester, or vinyl chloride. 
The fastener members 10 and 22 may also have an attaching portion 30 on the 
back surface, which is the reverse side of the side on which engaging 
strips 14, 24 are provided of the fastener members 10, 22 to enable 
attachment thereof to a surface, as shown in FIG. 3. The attaching portion 
30 may include screw threads. Alternately, a pressure sensitive adhesive 
layer could be applied to the back surface of the base section 12. In this 
case, a removable liner could be applied over the pressure sensitive 
adhesive layer to protect the adhesive prior to application. 
The interengaging fastener member according to the present invention is 
advantageously used for affixing a window to the window frame of a car. As 
shown in FIG. 4, a window 34 may be arranged on a window frame 32 of a Car 
body for permanent affixation to the window frame 32 by, for example, a 
urethane adhesive. The foregoing fastener member 10 can be used to assist 
in retaining the window 34 until the urethane adhesive has hardened. As 
illustrated in FIG. 4, when a curved portion of a rear window of a car 
must be fixedly retained by the fastener member 10, the direction (shown 
by an arrow) of pressure between the fastener member 10 and the opposed 
headed stem fastener member fixed on the window 34 is inclined by an angle 
e with respect to the projecting direction of the engaging strips 14 and 
the headed stems 38. In this case, the interengagement between the 
inventive fastener members 10 and 36 can be easily accomplished, as 
described above. Further, when the opposed fastener member is also a rail 
fastener member, the similar effect can be obtained. 
FIG. 5 shows a fastener member 40 for affixing a window to a window frame, 
according to the other embodiment of the present invention. The fastener 
member 40 has a generally planarbase section 42, an engaging section 44, 
and a molding fastening section 46 integrally formed on the base section 
42. The engaging projecting section 44 includes a plurality of engaging 
strips 48, which extend longitudinally with substantially constant 
vertical sectional shapes. Each engaging strip 48 includes a vertical 
portion 50 adjoining the base section 42, and a head portion 52 formed 
with a broadened cross section at the end of the vertical portion 50. The 
molding fastening section 46 includes an inner lip 56 which extends 
parallel to the engaging projecting section 44, a fastening portion 54 at 
the tip end thereof, and an outer lip 58 which is brought into contact 
with a car body panel at the tip end thereof. The fastener member 40 is 
integrally formed as an extrusion molded product from polymeric material. 
As shown in FIG. 6, the window frame 32 of a car is formed by joining outer 
and inner car body panels 60 to each other, and an urethane adhesive 64 is 
applied over the whole periphery of the inner surface of the window 34, 
which is opposed to the joint 62 of the car body panels 60. Further, the 
base section 42 of the fastener member 40 is attached by an adhesive 68 to 
the window frame between an upright wall portion 66 leading to the joint 
62 and the location of the urethane adhesive 64. In this respect, the 
fastener member 40 is positioned on the window frame 32 so that the end of 
the outer lip 58 of the molding fastening section 46 is elastically 
brought into contact with the upright wall portion 66. Also, the fastener 
member 40 need not extend over the whole periphery of the window frame 32, 
but a number of the fastener members 40 may be provided at positions 
required for fixedly retaining the window 34, such as at the four corners 
of the window frame 32. 
A headed stem fastener member 36 is attached on the periphery of the window 
34 by an adhesive 70 at a position permitting interengagement with the 
fastener member 40 attached to the window frame 32. The headed stem 
fastener member 36 has a plurality of headed stems 38 that can be engaged 
with the engaging strips 48 of the fastener member 40. To affix the window 
34 to the window frame 32, the window 34 is disposed on the window frame 
32 with the urethane adhesive 64 interposed therebetween, and is precisely 
positioned while being moved slightly under such a condition that the 
headed stems 38 of the fastener member 36 are in contact with the engaging 
strips 48 of the fastener member 40. Then, a predetermined pressure is 
applied to the periphery of the window 34, so as to interengage the 
fastener member 36 with the fastener member 40. A window molding 72 is 
arranged at the entire periphery of the window 34 thus fixed to the window 
frame 32, for protection and decoration. A groove 76 extending in the 
longitudinal direction is formed at a leg portion 74 of the window molding 
72. The fastening portion 54 of the inner lip 56 of the molding fastening 
section 46 of the fastener member 40 is brought into engagement with the 
groove 76, thereby the window molding 72 is fixed on the window frame 32. 
The fastener member 40 can be integrally formed as an extrusion molded 
product of a polymeric material, as described above. Thus, the fastener 
member 40 can be manufactured relatively easily and inexpensively, which 
reduces the number of parts and processes, and contributes to efficiency 
and the reduction of cost. In another embodiment, a two-stage molding 
process could be used to mold the engaging projecting section 44 and the 
molding fastening section 46 from different materials. In this case, it is 
preferable to use a relatively highly elastic material, particularly for 
the outer lip 58 of the molding fastening section 46. Note, the fastener 
member 40 can also be injection molded, although this is generally more 
expensive than extrusion molding. 
According to the foregoing fastener members 10 and 22, various new uses are 
given to conventional interengaging fasteners. For example, when a bumper 
must be attached to a car body, the fastener members 36 with headed stems 
38 may be attached to the both curved ends of the bumper, and the fastener 
members 10 may be correspondingly attached to the car body with their 
engaging strips 14 being oriented horizontally. Then, the opposed fastener 
members 36 and 10 are interengaged with each other to retain the bumper. 
In this case, although a pressure is generally applied in an inclined 
direction with respect to the base section 12, interengaging between the 
opposed fastener members is obtained, and a strong retaining force can be 
obtained by interengagement between the headed stems 38 and the engaging 
strips 14. Moreover, the headed stems 38 can slide between adjacent 
engaging strips 14, so that it becomes possible to maintain a fixed state 
against thermal deformation of a resinous bumper, and to absorb an impact 
in a collision if the fastener members have sufficient structural 
strength. 
Also, the foregoing fastener member 22 can be effectively used for the case 
where a fixing means that can be interengaged in a sliding manner is 
required because of limited space, such as in the case where a high-mount 
stop lamp is attached to a rear tray of a car interior. For example, when 
the fastener members 22 are attached to both the high-mount stop lamp and 
the rear tray to be used as a fixing means, the fixing position of the 
high-mount stop lamp can be freely chosen and moved, in such a range that 
the interengagement between the fastener members 22 can be obtained. 
Further, it becomes possible to interengage the fastener members 22 with 
each other without visually confirming them. Thus, when the fastener 
member 22 with inclined end faces 28 is used as an interengaging means at 
the position where the means are not easily confirmed visually, sliding 
interengagement without visual confirmation is easily carried out.