CN112744133A

CN112744133A - Integrated article of slide fastener and resin extruded profile

Info

Publication number: CN112744133A
Application number: CN202011180338.1A
Authority: CN
Inventors: 奥山光; 木户晶之; 樋口忠佑; 刀根大佑
Original assignee: Toyota Boshoku Corp; YKK Corp
Current assignee: Toyota Boshoku Corp; YKK Corp
Priority date: 2019-10-29
Filing date: 2020-10-29
Publication date: 2021-05-04
Anticipated expiration: 2040-10-29
Also published as: JP7235640B2; CN112744133B; JP2021070339A

Abstract

The invention provides an integrated body of a slide fastener and a resin extruded section. The chute shielding body (10) is provided with fastener stringers (61A, 61B) and side members (40A, 40B). The side members (40A, 40B) are formed from a resin extruded profile that is insert-molded together with the fastener stringers (61A, 61B). The side members (40A, 40B) have upper piece sections (43) and lower piece sections (44) that are fixed to the fastener stringers (61A, 61B).

Description

Integrated article of slide fastener and resin extruded profile

Technical Field

The present invention relates to a slide fastener and a resin extruded profile integrated body for covering a longitudinal groove portion.

Background

Conventionally, a slide rail device including a Lower rail (base) fixed to a vehicle body side of a vehicle and an Upper rail (Upper rail) fixed to a seat side is known (see document 1: international publication No. 2010/067437). The lower rail is formed with a guide groove (runner (groove)) that allows the upper rail to slidably move.

In this slide rail device, the opening of the guide groove is covered with a pair of left and right groove-blocking members (fastener stringers) that can be engaged with each other, and sliders connected to the pair of groove-blocking members are attached to both ends of the upper rail in the sliding movement direction. Further, the pair of groove shielding members are formed with step portions for preventing falling, respectively, and these step portions for preventing falling are respectively housed in housing portions of a protector (side member) fixed to the lower rail.

In the above-described slide rail device, the slider on the front side in the sliding movement direction of the upper rail releases the engagement of the pair of groove shielding members and opens the opening portion, and the slider on the rear side engages the pair of groove shielding members and shields the opening portion, as the upper rail moves. The opening of the guide groove is thus opened and closed, and therefore, the opening of the guide groove is kept in a shielded state where it is shielded by the pair of groove shielding members, at the front side and the rear side in the sliding movement direction of the upper rail.

However, in the slide rail device described in document 1, the falling step portions of the pair of slot shielding members are movably housed in the housing portion of the protector. Therefore, for example, when an external force is applied to the slot shielding member or the supporter by being stepped on, a force to pull out the slot shielding member from the housing section of the supporter is generated, and the supporter is bent, so that the slot shielding member may fall off from the supporter. Therefore, the following structure is required: the step for preventing the groove shielding member from falling off is formed to be large, or the protector is formed to be thick with a material having high rigidity so as to withstand an external force.

Disclosure of Invention

The invention aims to provide a zipper and an integrated object of resin extruded section, which can improve the holding force of a zipper strip for shielding a groove part.

The integrated article of a slide fastener and a resin extruded material according to the present invention includes a pair of right and left fastener stringers and a pair of right and left side members holding the pair of fastener stringers, the side members being formed of a resin extruded material insert-molded together with the fastener stringers, the side members including: an upper piece portion fixed to an upper surface of an outer edge portion of the fastener stringer; and a lower piece portion fixed to a lower surface of the outer side edge portion of the fastener stringer.

According to the integrated article of the slide fastener and the resin extruded material of the present invention, the side member is insert-molded together with the fastener stringer, and therefore, the upper piece portion and the lower piece portion of the side member are fixed to the upper surface and the lower surface of the outer edge portion of the fastener stringer. Therefore, as compared with the case where the receiving portion is formed in the side member and the step portion for preventing detachment is formed in the fastener stringer so as to be movably received in the receiving portion, the holding force of the side member to the fastener chain can be increased, and even if an external force is applied to the integrated object such as stepping on the integrated object, the shielded state of the groove portion can be appropriately maintained.

In the integrated article of the slide fastener and the resin extruded material of the present invention, the lower piece may have a width dimension of at least 8mm in the left-right direction.

According to this configuration, the fastener stringer can be fixed to the width region of the lower portion corresponding to the width dimension, and the holding force of the side member to the fastener chain can be increased to such an extent that the side member can sufficiently withstand an external force applied thereto, for example, when the integrated object is stepped on.

In the integrated article of the slide fastener and the resin extruded material according to the present invention, the fastener stringer may include a fastener tape having the side member fixed to an outer edge portion thereof and fastener elements attached to an inner edge portion of the fastener tape, and at least a part of the fastener elements may be arranged so as to protrude downward with respect to the fastener tape.

According to this configuration, at least a part of the fastener elements projecting downward can be used as a guide when the fastener stringer is conveyed in the extrusion direction when the side member is insert-molded together with the fastener stringer.

In the integrated slide fastener and resin extruded material according to the present invention, the side member may have a plate-shaped side body portion and a fixing piece portion extending downward from the side body portion, the side body portion may have the upper piece portion and the lower piece portion, and a reinforcing member for reinforcing the fixing piece portion may be embedded in the fixing piece portion.

According to this configuration, since the reinforcing member is embedded in the fixing piece portion, the fixing strength when the fixing piece portion of the side member is fixed to the base body in which the groove portion is formed can be improved.

In the integrated article of the slide fastener and the resin extruded material of the present invention, a width dimension in the left-right direction of the lower piece portion starting from the outer edge surface of the outer edge portion of the fastener stringer may be larger than a width dimension in the left-right direction of the upper piece portion starting from the outer edge surface.

According to this configuration, the fixing region in which the lower piece portion is fixed to the fastener stringer can be set to a region wider than the fixing region in which the upper piece portion is fixed to the fastener stringer, and in addition, the side edge of the lower piece portion along the groove portion can be arranged at a position closer to the inner edge portion of the fastener stringer than the side edge of the upper piece portion along the groove portion, and the fixing portion between the lower side edge of the upper piece portion and the fastener stringer can be supported from below by the lower piece portion. Therefore, even if an external force (external force of a shoe or the like) is applied from above, for example, by the fastener stringer being stepped on, the separation of the fixed portion between the upper piece portion and the fastener stringer can be suppressed.

According to the present invention, it is possible to provide an integrated body of a slide fastener and a resin extruded material, which can improve the holding force of a fastener stringer which shields a groove portion.

Drawings

Fig. 1 is a perspective view showing a slide rail device according to an embodiment of the present invention.

Fig. 2 is a sectional view showing the slide rail device shown in fig. 1.

Fig. 3 is a schematic view showing a main part of the slide rail device shown in fig. 1.

Detailed Description

[ Structure of the present embodiment ]

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

In fig. 1 and 2, a slide rail device 1 as a movement guide device including a chute shield 10 according to the present embodiment is used to guide a car seat (seat) as a moving body in the front-rear direction. The chute shielding body 10 is an integral body of the slide fastener 60 and the first side cover 40A and the second side cover 40B as the resin extruded material. Although not shown, the vehicle seat includes: a seat cushion forming a seat portion; a seat back forming a back portion; and a headrest that supports a head of the rider.

In the following description, the front-back direction (sliding movement direction) of the slide rail device 1 is defined as the X-axis direction, the left-right direction of the slide rail device 1 is defined as the Y-axis direction, and the height direction (vertical direction) of the slide rail device 1 is defined as the Z-axis direction. Note that the chute shielding body 10 is marked X, Y, Z in the axial direction with reference to the state of being attached to the slide rail device 1. X, Y, Z the axes are orthogonal to each other.

The slide rail device 1 includes: a Lower rail 20(Lower rail) as a base body, which is formed with a slide groove 21 (guide groove); an Upper rail 30(Upper rail) as a moving body, which is disposed so as to be movable along the chute 21; a first side cover 40A and a second side cover 40B as a pair of left and right side members, which are disposed with the opening 211 of the chute 21 interposed therebetween; and a zipper 60 held to the first side cover 40A and the second side cover 40B.

As shown in fig. 2, the lower rail 20 is buried in a floor in an automobile, and includes: a lower sheet portion 22; a pair of

side pieces

23 and 24 extending upward from both side edges of the lower piece 22 in the X-axis direction; a pair of

upper pieces

25 and 26 bent in the Y-axis direction from upper edges of the

side pieces

23 and 24; and a pair of

rail portions

27, 28 extending downward from the inner edges of the

upper sheet portions

25, 26. The

side pieces

23 and 24 have the same height dimension in the Z-axis direction, and the

upper pieces

25 and 26 have the same width dimension in the Y-axis direction. The lower piece 22, the

side pieces

23 and 24, and the

upper pieces

25 and 26 form a chute 21, and an opening 211 of the chute 21 is formed between the

upper pieces

25 and 26.

End members 11 shown in fig. 1 are attached to both ends of the lower rail 20 in the X-axis direction. The end member 11 is formed with an engagement piece 111 that engages with a fixing piece 42 described later of the first side cover 40A and the second side cover 40B.

As shown in fig. 2, the upper rail 30 has a mounting portion 31 to which a seat cushion of the car seat is mounted, and a rail portion 32 continuous with a lower surface of the mounting portion 31. As shown in fig. 1, a first slider 70A and a second slider 70B, which will be described later, are attached to both ends of the attachment portion 31 in the X-axis direction. The rail portion 32 is disposed in the chute 21 of the lower rail 20, and is fitted to the

rail portions

27 and 28 of the lower rail 20 so as to be movable in the X-axis direction.

As shown in fig. 2, the first side cover 40A includes a plate-shaped side body 41 extending in the X-axis direction and a fixing piece 42 extending downward from the side body 41, and the first side cover 40A is formed in a substantially T-shaped cross section.

The side body portion 41 has a width dimension in the Y axis direction that covers the left and right sides of the slide groove 21 of the lower rail 20 from above, an upper piece portion 43 and a lower piece portion 44 are formed in a portion thereof on the slide groove 21 side, an anchor portion of a fastener tape 62 described later is disposed between the upper piece portion 43 and the lower piece portion 44, a lower surface 431 of the upper piece portion 43 is anchored to an upper surface 622A of an outer edge portion 622 of the fastener tape 62, and an upper surface 441 of the lower piece portion 44 is anchored to a lower surface 622B of the outer edge portion 622 of the fastener tape 62.

The lower edge 421 of the fixed piece 42 bulges outward in the Y-axis direction. The fixed piece 42 is inserted between the side piece 23 of the lower rail 20 and the engagement piece 111 of the end member 11, and is engaged with the engagement piece 111 as shown in fig. 2, whereby the fixed piece 42 is fixed to the lower rail 20. Further, the fixing piece portion 42 is reinforced by embedding the reinforcing member 422 made of a metal sheet in the Z-axis direction in the fixing piece portion 42, and thus the fixing strength when fixing the fixing piece portion 42 to the lower rail 20 can be improved.

The first side cover 40A thus configured is formed of a resin extruded material insert-molded together with the reinforcing member 422 and a first fastener stringer 61A described later. Since the first side cover 40A is insert-molded in this manner, the reinforcing member 422 can be easily embedded, and the upper piece portion 43 and the lower piece portion 44 can be easily fixed to the first fastener stringer 61A with high strength.

The second side cover 40B is configured in the same manner as the first side cover 40A, is disposed in the left-right direction, and is fixed to a second fastener stringer 61B described later, and therefore, the same reference numerals are given as appropriate in the drawings, and detailed description thereof will be omitted.

As shown in fig. 1 and 2, the slide fastener 60 includes: a first fastener stringer 61A and a second fastener stringer 61B as a pair of right and left fastener stringers, which are respectively held to the first side cover 40A and the second side cover 40B; a first slider 70A attached to an end portion on one side in the X-axis direction of the upper rail 30; and a second slider 70B attached to an end portion of the other side of the upper rail 30 in the X-axis direction. The first slider 70A and the second slider 70B are configured similarly to each other, and are arranged in pairs in the X-axis direction.

The first fastener stringer 61A includes: a fastener tape 62 disposed so as to cover the opening 211 of the slide groove 21; and a fastener element 65 attached to an inner edge 621 of the fastener tape 62 in the X axis direction and coupled to the first slider 70A and the second slider 70B so that the first slider 70A and the second slider 70B can slide. In the present embodiment, the fastener tape 62 is formed in a band shape along the X-axis direction from a mesh structure woven with a resin thread, and the fastener element 65 is formed from a spiral element that is spirally continuous in the X-axis direction.

The fastener element 65 is disposed so that at least a part thereof protrudes downward from the fastener tape 62. Therefore, when the first side cover 40A and the second side cover 40B are insert-molded together with the first fastener stringer 61A and the second fastener stringer 61B, at least a part of the fastener element 65 protruding downward can be used as a guide when the first fastener stringer 61A and the second fastener stringer 61B are conveyed in the extrusion direction.

An upper surface 622A and a lower surface 622B of an outer side edge portion 622 of the fastener tape 62 located on the outer side in the Y axis direction with respect to the inner side edge portion 621 are fixed to a lower surface 431 of the upper panel portion 43 and an upper surface 441 of the lower panel portion 44. In the present embodiment, the outer edge surface 622C of the outer edge portion 622 of the fastener tape 62 is fixed to the bottom surface 46 of the fixing groove 45 formed between the upper piece portion 43 and the lower piece portion 44.

In the slide rail device 1 described above, the slide groove shielding body 10 is configured by a pair of left and right first fastener stringers 61A and second fastener stringers 61B, and a pair of left and right first side covers 40A and second side covers 40B that hold the first fastener stringers 61A and the second fastener stringers 61B, respectively.

The form of the first side cover 40A in the chute shielding body 10 will be described below with reference to fig. 3. The second side cover 40B may be configured similarly to the first side cover 40A.

In fig. 3 (a), the width dimensions in the Y-axis direction of the upper piece portion 43 and the lower piece portion 44 of the first side cover 40A, here, the width dimensions W1, W2 starting from the outer edge surface 622C of the first fastener stringer 61A, are the same as each other. Therefore, the side edges 432 and 442 of the upper sheet 43 and the lower sheet 44 along the X-axis direction are arranged along an imaginary plane defined by the X-axis direction and the Z-axis direction. The thickness dimensions T1, T2 in the Z-axis direction of the upper piece 43 and the lower piece 44 are the same as each other. Further, since the width dimensions W1 and W2 are set to 8mm here, the holding force of the first side cover 40A and the second side cover 40B against the first fastener stringer 61A and the second fastener stringer 61B can be increased to such an extent that the slide blocking body 10 can sufficiently withstand an external force applied from above even when the slide blocking body 10 is stepped on.

Here, a corner 433 where the lower surface 431 and the side edge 432 of the upper piece portion 43 are continuous is chamfered (here, R-chamfered), and a corner 443 where the upper surface 441 and the side edge 442 of the lower piece portion 44 are continuous is also chamfered (here, R-chamfered). Further, a portion P1 located on the side closest to the inner edge 621 in the fixed portion where the upper surface 441 of the lower sheet 44 is fixed to the first fastener stringer 61A is located on the side closer to the inner edge 621 than a portion P2 located on the side closest to the inner edge 621 in the fixed portion where the lower surface 431 of the upper sheet 43 is fixed to the first fastener stringer 61A, and the portion P1 and the portion P2 have a difference C in the Y-axis direction. Therefore, the fixing region in which the lower sheet portion 44 is fixed to the first fastener stringer 61A can be set to a wider region than the fixing region in which the upper sheet portion 43 is fixed to the first fastener stringer 61A. Further, since the portion P1 is positioned closer to the inner edge 621 of the first fastener stringer 61A than the portion P2, the portion P2 can be supported from below by the lower portion 44. Therefore, even if an external force (external force such as a shoe for a thin heel) is applied from above by, for example, the first fastener stringer 61A and the second fastener stringer 61B being stepped on, the stress applied to the fixing surface between the first fastener stringer 61A and the second fastener stringer 61B and the upper sheet portion 43 can be changed from "peeling" to "shearing" to increase the fixing strength while preventing the first fastener stringer 61A and the second fastener stringer 61B from peeling downward from the upper sheet portion 43. Thus, the peeling of the fixed portion between the upper piece 43 of the first side cover 40A and the first fastener stringer 61A can be suppressed, and the peeling of the fixed portion between the upper piece 43 of the second side cover 40B and the second fastener stringer 61B can be suppressed.

Note that, the

diagonal portions

433 and 443 may be chamfered, or may not be chamfered. In this case, the first side cover 40A and the second side cover 40B are also insert-molded and fixed together with the first fastener stringer 61A and the second fastener stringer 61B, and therefore, a necessary and sufficient fixing strength can be obtained.

In fig. 3 (B), the width W2 of the lower panel 44 is greater than the width W1 of the upper panel 43. Therefore, the fixing region in which the lower sheet portion 44 is fixed to the first fastener stringer 61A can be set to a region wider than the fixing region in which the upper sheet portion 43 is fixed to the first fastener stringer 61A, and in addition, the side edge 442 of the lower sheet portion 44 in the X axis direction can be disposed at a position closer to the inner edge 621 of the first fastener stringer 61A than the side edge 432 of the upper sheet portion 43 in the X axis direction, and the fixing portion between the lower side edge 432 of the upper sheet portion 43 and the first fastener stringer 61A can be supported from below by the lower sheet portion 44. Thus, even if an external force (external force such as a shoe) is applied from above by, for example, the first fastener stringer 61A and the second fastener stringer 61B being stepped on, peeling of the fixed portion between the upper piece portion 43 of the first side cover 40A and the second side cover 40B and the first fastener stringer 61A and the second fastener stringer 61B can be suppressed.

The width W1 of the upper piece 43 is 6mm, the width W2 of the lower piece 44 is 10mm, and the thickness T1 and T2 are the same as those in fig. 3 (a). Therefore, the cross-sectional area of the upper sheet portion 43 in fig. 3 (B) that decreases by the amount by which the same width dimension W1 becomes smaller than the width dimension W1 of the upper sheet portion 43 in fig. 3 (a) is the same area as the cross-sectional area of the lower sheet portion 44 in fig. 3 (B) that increases by the amount by which the same width dimension W2 becomes larger than the width dimension W2 of the lower sheet portion 44 in fig. 3 (a). Therefore, when the width W2 is increased by the same amount as the width W1 is decreased as shown in fig. 3 (B), the increase in the cross-sectional area can be suppressed as compared with the case where the width W1 and the width W2 are the same.

In fig. 3C, the width W2 of the lower sheet portion 44 is the same as the width W2 shown in fig. 3B, the upper sheet portion 43 has a thickness T3 smaller than the thickness T1 in a region from the side edge 432 toward the bottom surface 46 (outer edge surface 622C), and the width W1 of the upper sheet portion 43 is larger than the width W1 shown in fig. 3B.

Even if the width W1 of the upper piece portion 43 is increased to increase the fastening region in this manner, the upper piece portion 43 is thinned by forming a portion having a thickness T3, and therefore, the increase in the cross-sectional area can be suppressed as compared with the first side cover 40A of fig. 3 (B). Further, by making the upper sheet portion 43 thin, the following property against bending deformation of the first fastener stringer 61A in the X-axis direction can be improved, and a structure that is difficult to peel can be provided.

In fig. 3 (D), the width W2 of the lower panel 44 is greater than the width W1 of the upper panel 43. The side edge 432 of the upper sheet portion 43 is an inclined surface (inclined surface) inclined obliquely downward with respect to the Y-axis direction from the bottom surface 46 side toward the inner edge 621 side. The side edge 442 of the lower sheet 44 is formed as an inclined surface (slope) inclined obliquely upward with respect to the Y-axis direction from the bottom surface 46 side toward the inner edge 621 side. By forming the side edges 432, 442 as inclined surfaces in this manner, the fastening region can be increased without increasing the cross-sectional area of the upper sheet portion 43 and the lower sheet portion 44.

[ Effect of the present embodiment ]

In the present embodiment, the first side cover 40A and the second side cover 40B of the chute shield 10 are formed of a resin extruded material that is insert-molded together with the first fastener stringer 61A and the second fastener stringer 61B, and the upper piece portion 43 and the lower piece portion 44 of the first side cover 40A and the second side cover 40B are fixed to the upper surface 622A and the lower surface 622B of the outer edge portion 622 of the first fastener stringer 61A and the second fastener stringer 61B.

According to the thus configured chute shield 10, the upper piece portion 43 and the lower piece portion 44 of the first side cover 40A and the second side cover 40B are fixed to the first fastener stringer 61A and the second fastener stringer 61B by insert molding, and therefore, as compared with a case where, for example, a housing portion is formed in a side member and a stepped portion for preventing detachment is formed in the fastener stringer so as to be movably housed in the housing portion, the holding force of the first fastener stringer 61A and the second fastener stringer 61B by the first side cover 40A and the second side cover 40B can be increased, and even when, for example, an external force is applied by stepping on the chute shield 10, the shielded state of the chute 21 can be appropriately maintained.

[ modified examples ]

In the above embodiment, the fastener element 65 is formed so that at least a part thereof protrudes downward with respect to the fastener tape 62, but is not limited thereto, and may be formed so as to protrude upward without protruding downward.

In the above embodiment, the reinforcing member 422 is embedded in the fixed piece portion 42, but the reinforcing member 422 may be omitted when sufficient strength is obtained.

In the above embodiment, the first side cover 40A and the second side cover 40B have the fixing piece portions 42 fixed to the lower rail 20, but may have any shape and structure that can be fixed to a base such as the lower rail 20 without the fixing piece portions 42.

In the above embodiment, the chute shielding body 10 attached to the slide rail device 1 for moving and guiding the car seat has been described, and may be used for shielding a chute for guiding opening and closing of, for example, an automatic door or a door body of an elevator, and thus may be used as a chute shielding body for shielding various chutes.

In the above embodiment, the slide groove shielding body 10 for shielding the slide groove 21 for moving the movable body such as the upper rail 30 has been described as an integrated body of the slide fastener 60 and the first side cover 40A and the second side cover 40B as the resin extruded material, and the slide groove shielding body may be used as an integrated body for shielding a longitudinal groove portion for not disposing the movable body but not slidably moving the movable body. In this case, the groove portions can be opened and closed by sliding the first slider 70A and the second slider 70B.

Claims

1. An integrated body of a slide fastener and a resin extruded profile, characterized in that,

the integrated article of the zipper and the resin extruded section comprises a pair of left and right zipper strips (61A, 61B) and a pair of left and right side members (40A, 40B) for holding the pair of zipper strips (61A, 61B),

the side members (40A, 40B) are formed of a resin extruded profile insert-molded together with the fastener stringers (61A, 61B),

the side member (40A, 40B) has: an upper piece (43) that is fixed to the upper surface (622A) of the outer edge (622) of the fastener stringer (61A, 61B); and a lower piece (44) that is fixed to the lower surface (622B) of the outer edge (622) of the fastener stringer (61A, 61B).

2. The integrated article of a slide fastener and a resin extrusion molding according to claim 1,

the lower sheet portion (44) has a width dimension (W2) of at least 8mm in the left-right direction.

3. The integrated article of a slide fastener and a resin extrusion profile as set forth in claim 1 or 2,

the fastener stringer (61A, 61B) has a fastener tape (62) to which the side member (40A, 40B) is fixed at an outer side edge portion (622) and a fastener element (65) attached to an inner side edge portion (621) of the fastener tape (62),

the fastener element (65) is disposed so that at least a part thereof protrudes downward from the fastener tape (62).

4. The integrated article of a slide fastener and a resin extrusion profile as set forth in claim 1 or 2,

the side members (40A, 40B) have plate-shaped side main bodies (41) and fixing pieces (42) extending downward from the side main bodies (41),

the side body part (41) has the upper sheet part (43) and the lower sheet part (44),

a reinforcing member (422) for reinforcing the fixed piece section (42) is embedded in the fixed piece section (42).

5. The integrated article of a slide fastener and a resin extrusion profile as set forth in claim 1 or 2,

the width (W2) of the lower portion (44) in the left-right direction from the outer edge surface (622C) of the outer edge portion (622) of the fastener stringer (61A, 61B) is larger than the width (W1) of the upper portion (43) in the left-right direction from the outer edge surface (622C).