WO2014006773A1 - スライダー及びスライドファスナーの修理方法 - Google Patents
スライダー及びスライドファスナーの修理方法 Download PDFInfo
- Publication number
- WO2014006773A1 WO2014006773A1 PCT/JP2012/078211 JP2012078211W WO2014006773A1 WO 2014006773 A1 WO2014006773 A1 WO 2014006773A1 JP 2012078211 W JP2012078211 W JP 2012078211W WO 2014006773 A1 WO2014006773 A1 WO 2014006773A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- slider
- main
- blade
- sub
- wing plate
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/24—Details
- A44B19/26—Sliders
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B19/00—Slide fasteners
- A44B19/42—Making by processes not fully provided for in one other class, e.g. B21D53/50, B21F45/18, B22D17/16, B29D5/00
- A44B19/62—Assembling sliders in position on stringer tapes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D53/00—Making other particular articles
- B21D53/46—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples
- B21D53/50—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts
- B21D53/52—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts fastener elements; Attaching such elements so far as this procedure is combined with the process for making the elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D53/00—Making other particular articles
- B21D53/46—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples
- B21D53/50—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts
- B21D53/54—Making other particular articles haberdashery, e.g. buckles, combs; pronged fasteners, e.g. staples metal slide-fastener parts slides
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T24/00—Buckles, buttons, clasps, etc.
- Y10T24/25—Zipper or required component thereof
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T24/00—Buckles, buttons, clasps, etc.
- Y10T24/25—Zipper or required component thereof
- Y10T24/2561—Slider having specific configuration, construction, adaptation, or material
- Y10T24/2582—Slider having specific configuration, construction, adaptation, or material having specific contour or arrangement of converging channel, separator island, or wing
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T24/00—Buckles, buttons, clasps, etc.
- Y10T24/25—Zipper or required component thereof
- Y10T24/2561—Slider having specific configuration, construction, adaptation, or material
- Y10T24/2582—Slider having specific configuration, construction, adaptation, or material having specific contour or arrangement of converging channel, separator island, or wing
- Y10T24/2584—Spaced segments of each wall of channel supported by different wings
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49718—Repairing
- Y10T29/49721—Repairing with disassembling
- Y10T29/4973—Replacing of defective part
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49782—Method of mechanical manufacture of a slide fastener
- Y10T29/49785—Method of mechanical manufacture of a slide fastener of interlocking element
Definitions
- the present invention relates to a slider constituted by assembling at least two slider members, and in particular, by assembling a slider body by inserting an element row of a slide fastener into its element guide path, It relates to a slider that can be attached.
- a slide fastener is used by being attached to an opening of an article such as clothing or a bag, and by sliding a slider disposed on the slide fastener along the element row, the left and right element rows are meshed.
- the opening of the article is opened and closed by separation.
- a slider used in a slide fastener has a slider body in which upper and lower blades are connected by a guide post, and a handle that is rotatably held with respect to the slider body.
- a substantially Y-shaped element guide path is formed between the left and right element rows.
- a first slider member having a first blade for example, a lower blade
- a second slider member having a second blade for example, an upper blade
- a type of slider also referred to as a divided slider which is formed by separately molding and connecting a first slider member and a second slider member to each other.
- the split type slider composed of a plurality of slider members is easy for the element chain of the fastener chain after members such as stoppers and opening / closing inserts are provided at both ends of the element chain of the fastener chain, for example. It becomes possible to attach to.
- a divided type slider composed of a plurality of slider members for example, Japanese Patent Laid-Open No. 5-95807 (Patent Document 1) and US Pat. No. 3,149,927 (Patent Document 2). And the like.
- the slider described in Patent Document 1 is configured by attaching a handle to the slider body.
- the slider body has upper and lower blades arranged in parallel to each other and connected by connecting columns, and a substantially Y-shaped element guide path is formed between the upper and lower blades.
- the slider body 100 in Patent Document 1 includes a first slider member 101 and a second slider member 102 which are separately molded, and these The first slider member 101 and the second slider member 102 are coupled to each other at the position of the connecting column 103.
- the first slider member 101 of Patent Document 1 has a lower wing plate 101a and a first divided connecting column 101b arranged at the shoulder opening side end of the lower wing plate 101a. Is formed with a coupling hole 101c penetrating in the vertical direction.
- the second slider member 102 includes an upper wing plate 102a, a second divided connecting column 102b suspended from the shoulder opening side end portion of the upper wing plate 102a, and a cross section suspended from the lower end surface of the second divided connecting column 102b. And a circular coupling protrusion 102c. Further, a concave groove portion 102d is provided on the outer peripheral surface of the distal end portion of the coupling protrusion portion 102c.
- first and second slider members 101, 102 are positioned on the upper end surface of the first divided connecting column 101b of the first slider member 101 and the lower end surface of the second divided connecting column 102b of the second slider member 102.
- an engaging projection and an engaging groove (not shown) that are engaged with each other are formed.
- the first is made using the engagement protrusion and the engagement groove. While aligning the relative positions of the slider member 101 and the second slider member 102, the coupling protrusion 102c of the second slider member 102 is fitted into the coupling hole 101c of the first slider member 101, and the fitting state is determined with a jig or the like. Hold on.
- the punch 104 is driven into the periphery of the coupling hole 101c on the lower surface of the lower blade plate 101a of the first slider member 101.
- the punch 104 is driven into the lower wing plate 101a in this way, a part of the inner peripheral surface of the coupling hole 101c in the lower wing plate 101a flows, and the coupling protrusion 102c of the first slider member 101 flows. It penetrates into the concave groove portion 102d provided in the.
- the coupling protrusion 102c is fixed in the coupling hole 101c, and the slider body 100 of Patent Document 1 in which the first slider member 101 and the second slider member 102 are assembled and fixed is configured.
- Such a slider body 100 of Patent Document 1 uses the plastic deformation of the lower blade 101a to fix the second slider member 102 to the first slider member 101. Therefore, the first slider member 101 and the second slider member 102 are used. Are firmly bonded.
- punch marks (concave grooves) generated by driving the punch 104 are formed, but the punch marks are formed on the lower surface of the lower wing plate 101a and are externally used when the slide fastener is used. Since it is not directly exposed, deterioration in appearance quality is suppressed.
- the slider described in Patent Document 2 is configured by attaching a handle to the slider body.
- the slider body has upper and lower blades arranged in parallel to each other by connecting columns, and a substantially Y-shaped element guide path is formed between the upper and lower blades.
- the slider body of Patent Document 2 has a first slider member and a second slider member that are separately molded, and these first and second slider members are coupled by a connecting column. It is configured.
- the first slider member of Patent Document 2 has a lower wing plate and a first divided connecting column erected on the shoulder opening side end portion of the lower wing plate. A plurality of holes are formed along the vertical direction.
- the second slider member of Patent Document 2 includes an upper wing plate, a second divided connecting column that is suspended from the shoulder opening side end of the upper wing plate, and a plurality of studs that protrude from the lower end surface of the second divided connecting column. have.
- the positions of the plurality of holes formed in the first divided connecting column of the first slider member and the positions of the plurality of studs protruding from the second divided connecting column of the second slider member correspond to each other. Is set.
- the guide column for connecting the upper and lower blades is divided into a first divided connecting column and a second divided connecting column, and one of the first slider members
- the first blade plate (lower blade plate) and the first divided connecting column are arranged, and the second blade plate (upper blade plate) and the second divided connecting column are arranged on the other second slider member.
- the first divided connecting column and the second divided connecting column are joined to form a single guide column, whereby the first slider member, the second slider member, Adopts a structure that is assembled and fixed together.
- the element guide between the upper and lower blades may be used when sliding the slider to engage the left and right element rows.
- the posture and movement of the fastener elements in the road are not stable, and there is a possibility that the left and right element rows cannot be smoothly meshed with each other, and there is a possibility that the slidability and operability of the slider may be reduced.
- the left and right element rows are positioned with respect to the lower blade plate of the first slider member and the upper blade plate of the second slider member, respectively. Since it is necessary to couple the slider member and the second slider member to each other, the assembly work of the slider body is complicated and the work efficiency is lowered.
- the slider body 100 of Patent Document 1 has a lack of practicality because the contents of the assembly work are very fine and complicated. Further, since the slider body 100 is assembled using plastic deformation of the lower blade 101a due to the punch 104 being driven, depending on the position of the punch 104 and the like, the coupling strength between the first slider member 101 and the second slider member 102 ( There was also a possibility that variations in the fixing strength) occurred.
- the plurality of studs of the first slider member are inserted into the plurality of holes of the first slider member, and further, the first divided connecting pillar of the first slider member is inserted. And the second divided connecting column of the second slider member are assembled by pressing the first and second slider members so that they are in close contact with each other.
- the slider body of Patent Document 2 basically includes the first slider member and the second slider member. Since it is fixed only by the stud, there are cases where the coupling strength (fixing strength) between the first and second slider members cannot be sufficiently obtained.
- the present invention has been made in view of the above-described conventional problems, and a specific object thereof is to form a slider body by firmly attaching a plurality of slider members to each other, and an assembly operation of the slider body is performed.
- a slider for a slide fastener that is simple and easy and that is less likely to cause variations in the dimension between the first blade plate and the second blade plate in the slider body, and further uses the slider. It is in providing the repair method of a slide fastener.
- a slider for a slide fastener has, as a basic configuration, a first blade plate, a second blade plate disposed to face the first blade plate, A pair of guide pillars that connect between shoulder-edge ends of the first and second blades, and a left and right edge of the first blade, and extend toward the left and right edges of the second blade.
- a slider body having at least a first flange portion, and a handle disposed on at least one of the first and second blades.
- the slider body includes at least the first blade, A slider for a slide fastener comprising an element guide path surrounded by an element guide surface composed of inner walls of a second blade and a pair of first flange portions, wherein the slider body includes a slider main member and the slider From main parts A slider sub-member formed upright, wherein the slider main member includes a portion including an element guide surface of at least a shoulder opening side end portion of the first blade and at least a shoulder opening end portion of the second blade. And a portion including the element guide surface are connected and integrated through the guide pillar, and the slider sub-member has the pair of first flange portions and is assembled and fixed to the slider main member. Is the main feature.
- the slider main member is continuous from the shoulder opening side edge to the rear opening side edge, the first vane side element guide surface, and from the shoulder opening side edge to the rear opening side edge. And an element guide surface on the second blade plate side.
- the first blade is disposed on the slider main member, the first main body having the element guide surface, and the pair of first members disposed on the slider sub member. It is preferable to have a 2nd main body part which connects between flange parts and is assembled
- the slider sub-member may be attached to the slider main member by fitting a fitting portion provided in the second main portion to a fitting portion provided in the first main portion. It is preferable that it is assembled and fixed.
- the fitting portion of the slider main member includes a concave first fitting portion disposed on a shoulder opening side end portion of the first main portion, and left and right side edge portions of the first main portion.
- a second fitting portion projecting outward in the slider width direction, the second main body portion being disposed on the left and right side edge portions of the base portion and supporting the first flange portion;
- an elastically deformable extending portion and the fitting portion of the slider sub member is erected at a tip end portion of the extending portion, and the first cover
- a hook-shaped first fitting portion that fits into the fitting portion
- a concave groove-shaped second fitting portion that is recessed in the base portion and fits into the second fitting portion. It is particularly preferable.
- the fitting portion of the slider main member includes a concave groove-like first fitting portion disposed on a shoulder-side end portion of the first main body portion, and a rear-mouth side end of the first main portion.
- a second groove-shaped second fitting portion disposed in the portion, and the second main body portion is disposed at a shoulder-side end portion of the second main body portion and is fitted into the first fitting portion.
- a hook-like first fitting portion that can be worn; and a hook-like second fitting portion that is arranged at the rear-portion-side end portion of the second main body portion and can be fitted to the second fitting portion. You may have.
- the second main body portion includes a base, a pair of cut portions formed at the rear end portion of the base portion, and a tongue piece portion sandwiched between the pair of cut portions and elastically deformable.
- the said 1st fitting part is standingly arranged by the shoulder opening side edge part of the said base, and the said 2nd fitting part is standingly arranged by the rear opening side edge part of the said tongue piece part.
- the slider sub member may be fixed to the slider main member by bonding or welding, or the slider sub member may be fixed using a fixing member. It may be assembled and fixed.
- a pair of second flange portions extending toward the first blade plate are disposed on left and right side edge portions of the second blade plate, and the slider body includes the slider main member and the slider.
- the slider further includes a slider second sub member formed independently from the sub member.
- the slider second sub member includes the pair of second flange portions and is assembled and fixed to the slider main member. It is preferable.
- a slide fastener repair method for repairing the slide fastener by replacing the slider attached to the slide fastener with a slider having the above-described configuration.
- the slider body in which the first and second blades are connected by the connecting pillar has a slider main member and a slider sub member that can be assembled to each other.
- the first blade of the slider body is the blade on the side where the flange portion is disposed (in the present invention, the flange portion is also disposed on the second blade of the slider body as described later. Sometimes).
- the slider main member includes a portion including an element guide surface at least on the shoulder opening side end portion of the first blade plate and a portion including the element guide surface on at least the shoulder opening side end portion of the second blade plate via the guide column. It is configured to be connected and integrated by molding.
- the slider sub member has a pair of first flange portions and is assembled and fixed to the slider main member.
- the slider body in the present invention is formed with an element guide path surrounded by an element guide surface composed of at least the first blade plate, the second blade plate, and the inner wall surfaces of the pair of first flange portions.
- the inner wall surface of the slider body serving as the inner wall surface (element guiding surface) of the element guide path and the inner wall surfaces of the pair of first flange portions are at least a slider main member and a slider sub member. Consists of both. Therefore, the slider body can be assembled by inserting the element row of the slide fastener into the element guide path, and the slider body can be attached to the element row simultaneously with the assembly of the slider body.
- the entire slider main member is integrated by molding.
- the dimension (namely, 1st and 2nd) between the part containing the element guide surface of the shoulder opening side edge part of the 1st blade board, and the part containing the element guiding surface of the shoulder blade side edge part of the 2nd blade board.
- the dimension between the element guide surfaces at the end of the wing plate on the shoulder opening side has a predetermined size stably without being affected by the assembly accuracy when the slider body is assembled from the slider main member and the slider sub member. Therefore, it is possible to prevent the variation (error) from occurring in the dimensions.
- the slider body of the present invention has a slider body as compared with a slider body in which the first blade plate and the second blade plate are respectively arranged on separate slider members as in Patent Document 1 and Patent Document 2, for example. It is possible to prevent variations (errors) from occurring in the dimension between the first blade plate and the second blade plate after assembly of the fuselage (particularly, the dimension between the element guide surfaces at the shoulder opening side end), thereby The size and form of the element guide path formed between the first and second blades of the slider can be stabilized.
- the slider according to the present invention when the slider according to the present invention is attached to the slide fastener and slid along the element row, the posture and movement of the fastener element in the element guide path of the slider can be stabilized. For this reason, the left and right element rows can be smoothly meshed, and good slidability and operability of the slider can be ensured.
- a part of the first blade plate and a part of the second blade plate are integrally disposed on the slider main member via the guide column. For this reason, for example, when assembling the slider body and attaching the slider body to the element row of the fastener chain, the left and right element rows can be easily positioned and held between the first and second blades of the slider main member, Thereafter, the slider sub member can be stably assembled and fixed to the slider main member holding the left and right element rows. Therefore, according to the present invention, the operation of attaching the slider body to the element row can be performed easily and efficiently as compared with, for example, Patent Document 1 and Patent Document 2.
- the slider main member includes an element guide surface on the first blade plate continuous from the shoulder opening side edge to the rear opening edge, and from the shoulder opening edge to the rear opening edge. And an element guide surface on the second blade plate side.
- the first blade is disposed on the slider main member, and is connected to the first main body portion having the element guide surface and the slider sub member between the pair of first flange portions. And a second main body part assembled to the first main body part.
- the slider sub member is assembled and fixed to the slider main member by fitting the fitting portion provided in the second main portion to the fitting portion provided in the first main portion. Yes. Thereby, the assembly of the slider body can be performed more easily and easily.
- the fitted portion of the slider main member includes a concave first fitted portion disposed on the shoulder opening side end portion of the first main body portion and the left and right side edge portions of the first main body portion in the slider width direction. And a second fitting portion protruding outward.
- the second main body has a base, a base portion that supports the first flange portion, and is provided on the left and right side edges of the base.
- the second main body extends from the base toward the shoulder opening and is elastically deformable.
- the slider sub-member fitting portion is erected on the tip of the extension portion, and is hooked to the first fitting portion, and is recessed in the base portion. 2 It has a ditch-like 2nd fitting part fitted on a fitting part.
- the slider main member and the slider sub member are configured in this manner, the slider main member and the slider sub member can be provided with the fitted portion and the fitted portion with a simple structure, and the slider main member. And the slider sub member can be firmly fixed to each other.
- the fitted portion of the slider main member includes a recessed groove-shaped first fitted portion disposed at the shoulder opening side end portion of the first main portion, and a rear portion of the first main portion.
- a second groove-like second fitting portion arranged at the mouth side end portion, and the second main body portion is arranged at the shoulder mouth side end portion of the second main body portion.
- the second main body portion includes a base, a pair of cut portions formed at the rear opening side end of the base portion, and a tongue piece portion sandwiched between the pair of cut portions and elastically deformable.
- the first fitting portion is erected on the shoulder opening side end portion of the base portion of the second main body portion, and the second fitting portion is erected on the rear mouth side end portion of the tongue piece portion of the second main body portion.
- the slider main member and the slider sub member By configuring the slider main member and the slider sub member in this manner, the slider main member and the slider sub member can be provided with the fitted portion and the fitted portion with a simple structure, respectively, and the slider main member.
- the member and the slider sub member can be firmly fixed to each other.
- the slider sub member may be assembled and fixed to the slider main member by adhesion or welding. Accordingly, the slider main member and the slider sub member can be firmly fixed to each other, and the slider body can be assembled easily and easily.
- the slider sub member may be assembled and fixed to the slider main member using a fixing member. Accordingly, the slider main member and the slider sub member can be firmly fixed to each other, and the slider body can be assembled easily and easily.
- the slider body when the pair of second flange portions extending toward the first blade plate are disposed on the left and right side edge portions of the second blade plate, the slider body includes the slider main member and The slider further includes a slider second sub member formed independently of the slider sub member.
- the slider second sub member has a pair of second flange portions and is assembled and fixed to the slider main member.
- the slider fuselage is assembled into the element chain of the fastener chain at the same time as assembling the slider fuselage even when the flange portions are arranged on both the first blade and the second blade. Can be easily and efficiently attached.
- the slide fastener is repaired by replacing the slider attached to the slide fastener with a slider having the above-described configuration.
- the repair method of the present invention for example, when a slider is damaged when using a slide fastener, the damaged slider is removed from the element row, and then the slider according to the present invention is simply attached to the element row. can do. For this reason, repair of a slide fastener can be performed efficiently. As a result, even if the slider is damaged, it is not necessary to replace the entire slide fastener, so that the life of the slide fastener can be extended.
- FIG. 5 is a sectional view taken along line VV shown in FIG. 4. It is a top view which shows the slide fastener repaired. It is a perspective view which shows the slider body of the slider which concerns on Example 2 of this invention. It is the disassembled perspective view which decomposed
- the slider handle is arranged on the upper blade side of the slider body.
- the handle may be attached to the lower blade side of the slider body.
- the slider body may be attached to both the upper blade side and the lower blade side.
- the slider described in each of the following embodiments is configured as a so-called free slider in which a pull handle is held by a pull handle mounting column and does not include a stop mechanism using a stop pawl.
- a slider that attaches a cover body to the upper surface of the upper wing plate instead of a pulling column or a slider that has a stop mechanism in which stop pawls can be moved back and forth in the element guide path It is possible to apply similarly.
- FIG. 1 is a perspective view showing a slider body of a slider for a slide fastener according to the first embodiment.
- FIG. 2 is an exploded perspective view in which the slider body is disassembled into a slider main member and a slider sub member, and
- FIG. 3 is an explanatory view for explaining the assembly of the slider main member and the slider sub member.
- the sliding direction of the slider is defined as the front-rear direction, and in particular, the direction in which the slider moves to mesh the element rows of the slide fastener is the front (shoulder side direction), and the element rows are separated. Therefore, the direction of movement (rear side direction) is the rear.
- the height direction of the slider is defined as the vertical direction, and in principle, the direction of the side exposed to the outside when the slide fastener is used (for example, the side where the handle is attached to the slider body) is the upward direction, The opposite direction is the downward direction.
- the width direction of the slider is defined as the left-right direction in a direction orthogonal to the sliding direction of the slider.
- the slider 1 a of the first embodiment includes a slider body 1 and a handle 9 that is rotatably held on the upper blade 11 side of the slider body 1.
- the slider 1a according to the first embodiment is used, for example, in a so-called reverse use type slide fastener 8a in which the left and right fastener stringer element rows are arranged on the lower surface side with respect to the fastener tape.
- the configuration of the handle 9 is not particularly limited.
- the slider fuselage 1 includes an upper wing plate 11, a lower wing plate 12, a guide column 13 that connects the shoulder blade side ends of the upper and lower wing plates 11 and 12, and an upper surface side of the upper wing plate 11. It has a handle attachment column 14 arranged, and a lower flange portion 15 erected along the left and right side edge portions of the lower blade 12.
- the lower blade 12 is disposed as the first blade of the present invention
- the upper blade 11 is disposed as the second blade of the present invention.
- a first raised portion 16 a arranged along the left and right side edge portions of the upper wing plate 11, and a rear end portion (rear end side end) from the guide pillar 13. And a central second raised portion 16b extending toward the (part) side.
- a third raised portion 16c for guiding the fastener element of the slide fastener 8a is formed on the upper surface (element guide surface) of the lower blade 12 so as to extend from the guide column 13 toward the rear side. .
- the entire upper wing plate (second wing plate) 11 of the first embodiment is formed of a single member.
- the lower wing plate (first wing plate) 12 includes a lower wing plate first main body portion (first wing plate first main body portion) 12a having an element guide surface, and a lower wing plate first main body portion 12a. And a lower wing plate second main body portion (first wing plate second main body portion) 12b attached to the lower surface (outer surface) side.
- left and right shoulder openings are formed at the front end of the slider body 1 with the guide column 13 interposed therebetween, and a rear opening is formed at the rear end of the slider body 1.
- a substantially Y-shaped element guide path that connects the left and right shoulder ports and the rear port is formed so as to be surrounded by the upper wing plate 11, the lower wing plate 12, and the pair of left and right lower flange portions 15.
- the inner wall surface (element guide surface) of the element guide path of the slider body 1 is constituted by the inner wall surface of the upper wing plate 11, the inner wall surface of the lower wing plate 12, and the inner wall surfaces of the pair of left and right lower flange portions 15.
- a tape insertion gap for inserting the fastener tape of the slide fastener 8a is formed between the upper wing plate 11 (particularly, the first raised portion 16a) and the lower flange portion 15.
- the slider body 1 in the first embodiment has a slider main member (first slider member) 21 and a slider sub member (second slider member) 22 that can be assembled to each other. is doing. Further, the slider main member 21 and the slider sub member 22 assemble the slider body 1, and at the same time, the element guide path of the slider body 1 so that the element row of the slide fastener 8a can be inserted into the element guide path of the slider body 1.
- the inner wall surface is formed by both the slider main member 21 and the slider sub member 22.
- the slider main member 21 includes the entire upper wing plate 11, the lower wing plate first main body portion 12 a of the lower wing plate 12, the guide column 13, and the pulling attachment column 14 of the slider body 1. And. Further, the slider main member 21 is integrally configured as a whole by, for example, injection molding or die casting.
- the lower wing plate first main body portion 12a constitutes the lower wing plate 12 together with the lower wing plate second main body portion 12b by attaching the lower wing plate second main body portion 12b described later of the slider sub member 22. To do.
- the lower wing plate first main body portion 12a of the slider main member 21 includes a first base portion 21a that forms a flat element guide surface, and a concave first portion that is formed on a shoulder opening side end portion (front end portion) of the first base portion 21a.
- 1 fitting part (insertion recessed part) 21b, 2nd fitting part (protrusion part) 21c distribute
- the upper surface (inner wall surface) of the first base portion 21 a forms the entire element guide surface of the lower blade 12 in the slider body 1.
- the first base portion 21a of the lower wing plate first main portion (first wing plate first main portion) 12a of the slider main member 21 is at least the shoulder opening side end of the element guide surface of the lower wing plate 12. It suffices to include the entire region in the slider width direction of the portion (front end portion), and it is not necessary to include the entire region of the element guide surface of the lower blade 12 as in the first embodiment.
- the first fitted portion 21b of the lower wing plate first main body portion 12a is inserted by inserting a part of the slider sub member 22 (first fitted portion 22b).
- the lower wing plate first main body portion 12a is recessed backward so as to allow the rear wing plate first main portion 12a.
- the second fitting portion 21c is in a direction orthogonal to the vertical direction from the left and right side edge portions of the first base portion 21a in a region corresponding to a portion where the lower flange portion 15 is disposed when the slider body 1 is assembled. And a part of the slider sub-member 22 (second fitting portion 22c) is locked.
- the positioning portion 21d is formed corresponding to the shape of the front end edge of a second base portion 22a, which will be described later, in the slider sub member 22.
- the slider main member 21 is brought into contact with the positioning sub portion 22d by contacting the slider sub member 22 with the positioning portion 21d.
- the position of the slider sub member 22 with respect to the front-rear direction is adjusted.
- the slider sub member 22 includes a lower wing plate second main body portion 12b fitted to the lower wing plate first main body portion 12a of the slider main member 21, and a lower flange formed integrally with the lower wing plate second main body portion 12b.
- the entire slider sub member 22 is integrally formed by, for example, injection molding or die casting.
- the lower wing plate second main body portion 12b is disposed on the second base portion 22a assembled substantially parallel to the first base portion 21a of the lower wing plate first main body portion 12a, and the left and right side line portions of the second base portion 22a.
- the left and right base portions 22d that serve as the base of the flange portion 15, the extension portion 22e that extends forward (shoulder side) from the second base portion 22a, and is elastically deformable in the vertical direction, and the distal end portion of the extension portion 22e
- the second base portion 22a of the lower wing plate second main body portion 12b is arranged in the latter half of the lower wing plate second main body portion 12b and is formed in a flat plate shape.
- the front end edge of the second base portion 22 a has a shape corresponding to the shape of the positioning portion 21 d of the slider main member 21.
- the hook-like first fitting portion 22b is erected at the tip of the extending portion 22e, and is formed in a bowl-like shape with the upper end projecting rearward.
- the second fitting portion 22c is recessed on the inner surface side of the base portion 22d along the base portion 22d so that the second fitting portion 21c of the slider main member 21 can be fitted.
- the second fitting portion 21c of the slider main member 21 is constituted by a protruding ridge portion protruding from the left and right side edge portions of the first base portion 21a, and the second slider sub member 22 has a second portion.
- the fitting part 22c is comprised by the ditch
- the position, size, and form of the first and second fitted portions 21b and 21c of the slider main member 21, and the first and second fitted portions 22b and 22c of the slider sub member 22 are used.
- the first and second fitting portions 22b, 22c of the slider sub-member 22 are appropriately fitted to the first and second fitted portions 21b, 21c of the slider main member 21, respectively. Any change can be made as long as it can be fitted.
- the second fitting portion 21c of the slider main member 21 is constituted by concave groove portions provided in the left and right side surfaces of the first base portion 21a, and the second fitting portion 22c of the slider sub member 22 is formed in the base portion 22d. It is also possible to comprise a ridge protruding from the side surface.
- the second fitting of the slider sub member 22 is performed.
- the attaching portion 22c (concave groove portion) is fitted into the second fitted portion 21c (protruding portion) of the slider main member 21 from the rear opening side, and the slider sub member 22 is further placed on the shoulder opening side of the slider main member 21. Slide relatively.
- the second fitting portion 22 c of the slider sub member 22 is fitted to the second fitted portion 21 c of the slider main member 21.
- the extension portion 22e of the slider sub member 22 is elastically deformed so as to curve downward, and the hook-shaped first fitting portion 22b moves to the end portion of the slider main member 21 on the shoulder opening side. Further, after the second fitting portion 22c of the slider sub member 22 is fitted to the second fitting portion 21c of the slider main member 21, the slider sub member 22 is strongly pushed forward with respect to the slider main member 21. The hook-like first fitting portion 22b standing at the tip of the extending portion 22e is fitted to the first fitted portion 21b of the slider main member 21.
- first and second fitting portions 22b and 22c of the slider sub member 22 are fitted to the first and second fitted portions 21b and 21c of the slider main member 21, respectively.
- 22 is assembled to the slider main member 21 to form the slider body 1 of the first embodiment as shown in FIG. 1 in which the slider main member 21 and the slider sub member 22 are stably fixed with a predetermined fixing strength.
- the slider body 1 of the first embodiment once assembled in this manner can be separated again into the slider main member 21 and the slider sub member 22.
- the first fitting portion 22b of the slider sub member 22 is used as the first fitting portion of the slider main member 21 by using a thin rod-like member or the like while pushing the slider sub member 22 strongly forward with respect to the slider main member 21.
- the slider sub-member 22 is slid relatively toward the rear opening side of the slider main member 21 while the extension portion 22e of the slider sub-member 22 is curved downward.
- the second fitting portion 22c of the slider sub member 22 is removed from the second fitting portion 21c of the slider main member 21, so that the slider main member 21 and the slider sub member 22 can be separated.
- the slider 1a according to the first embodiment assembled using the slider main member 21 and the slider sub member 22 as described above can be easily attached to, for example, a fastener chain in which a part of the left and right element rows is separated. Is possible.
- the left and right element rows are inserted between the lower wing plate first main body portion 12a of the slider main member 21 and the upper wing plate 11 at a portion where the left and right element rows of the fastener chain start to separate. Meanwhile, the element row is positioned with respect to the slider main member 21.
- the element row is connected to the lower wing plate first main body portion 12a. It can be easily inserted between the upper blade 11 and the element row can be positioned with respect to the slider main member 21 stably.
- the slider sub member 22 is fitted and assembled to the slider main member 21 in which the element row is inserted. Accordingly, as shown in FIG. 5, since the slider body 1 in the first embodiment is assembled, the element row can be inserted into the element guide path of the slider body 1, so that the slider body 1 is attached to the fastener chain. Easy and efficient installation.
- the method for removing the damaged slider from the element row of the slide fastener 8a is not particularly limited.
- the slider 1a can be easily detached from the element row by separating the slider main member 21 and the slider sub member 22 from each other. is there.
- the slider 1a of the first embodiment is not only suitably used when repairing the slide fastener 8a as described above, but is also suitable when exchanging the slider according to the user's hobbies, for example. Used for.
- the upper wing plate 11 and the lower wing plate first main body portion 12a are integrally formed on the slider main member 21 via the guide column 13. For this reason, the interval between the upper and lower blades 11 and 12 (particularly, the interval between the upper and lower blades 11 and 12 at the shoulder opening side end) is not affected by the assembly accuracy when the slider body 1 is assembled.
- a height dimension can be stably provided, and a dimensional error hardly occurs in the interval between the upper and lower blades 11 and 12 (that is, the height dimension in the vertical direction of the element guide path).
- the size and form of the element guide path formed between the upper and lower blades 11 and 12 are stabilized, and therefore, when the slider 1a is slid along the element row (particularly, When the slider is slid in the meshing direction of the element row), the posture and movement of the fastener element in the element guide path of the slider 1a can be stabilized. As a result, the left and right element rows can be smoothly engaged and separated, and good slidability and operability of the slider 1a can be ensured.
- the entire element guide surfaces of the upper blade 11 and the lower blade 12 are provided on the slider main member 21, and the shoulder side of the upper and lower blades 11, 12 of the slider body 1 is provided.
- a step is prevented from being formed on the element guide surface from the end edge to the rear opening side edge, and the element guide surface is formed flat.
- the entire element guide surface of the lower blade 12 is provided on the slider main member 21, while the lower flange portion 15 for the lower blade 12 is provided on the slider sub member 22. Is provided. Accordingly, the position of the boundary portion between the slider main member 21 and the slider sub member 22 is set between the lower blade 12 and the lower flange portion 15 constituting the element guide path.
- a part (inner part) including the element guide surface at the shoulder opening side end of the lower blade 12 is provided on the slider main member, and the remaining part (outer part) of the lower blade 12 and the lower
- the position of the boundary portion between the slider main member and the slider sub member may be set so as to divide the lower blade 12.
- a part (inner side part) including the element guide surface at the shoulder opening side end portion of the lower blade 12 arranged on the slider main member side is the remaining portion of the lower blade 12 arranged on the slider sub member side ( It is preferably larger than the outer part).
- a part (inner part) including the element guide surface of the shoulder blade side end of the lower blade 12” and “the remaining part (outer part) of the lower blade 12” are inner surfaces constituting the element guide path. (Element guide surface).
- the “size” is the size of the surface area of each element guide surface.
- FIG. 7 is a perspective view showing the slider body of the slider according to the second embodiment.
- FIG. 8 is an exploded perspective view in which the slider body is disassembled into a slider main member and a slider sub member, and
- FIG. 9 is an explanatory view for explaining assembly of the slider main member and the slider sub member.
- FIG. 10 is a sectional view of the slider body in an assembled state.
- the slider of the second embodiment includes a slider body 2 and a handle (not shown) that is rotatably held on the upper blade 11 side of the slider body 2.
- the slider body 2 includes a lower wing plate (first wing plate) 17, an upper wing plate (second wing plate) 11, and a guide column 13 that connects between the shoulder opening side ends of the upper and lower wing plates 11 and 17.
- a handle attachment column 14 disposed on the upper surface side of the upper wing plate 11 and a lower flange portion 15 erected along the right and left side edge portions of the lower wing plate 17 are provided.
- a substantially Y-shaped element guide path is formed in the slider body 2 so as to be surrounded by the upper wing plate 11, the lower wing plate 17, and the pair of left and right lower flange portions 15.
- the inner wall surface is constituted by the inner wall surface of the upper wing plate 11, the inner wall surface of the lower wing plate 17, and the inner wall surfaces of the pair of left and right lower flange portions 15.
- the entire upper blade 11 serving as the second blade is composed of a single member.
- the lower wing plate 17 serving as the first wing plate includes a lower wing plate first main body portion (first wing plate first main body portion) 17a having an element guide surface, and a lower wing plate first main body portion 17a.
- the lower wing plate second main body portion (first wing plate second main body portion) 17b attached to the lower surface side is configured.
- the slider body 2 includes a slider main member (first slider member) 31 and a slider sub member (second slider member) 32 that can be assembled with each other. Further, the slider main member 31 and the slider sub member 32 assemble the inner surface of the element guide path (element guide surface) so that the element row can be inserted into the element guide path of the slider body 2 at the same time as the slider body 2 is assembled. ) Is formed by both the slider main member 31 and the slider sub member 32.
- the slider main member 31 includes the entire upper wing plate 11, the lower wing plate first main body portion 17 a of the lower wing plate 17, the guide column 13, and the pulling attachment column 14 of the slider body 2.
- the entire slider main member 31 is integrally formed by, for example, injection molding or die casting.
- the lower wing plate first main body portion 17a of the slider main member 31 includes a first base portion 31a that forms a flat element guide surface, and a shoulder-side end portion (front end portion) of the first base portion 31a. ) Formed in a groove-shaped first fitting portion (insertion recess) 31b, a stepped notch portion 31d formed at the rear end of the first base portion 31a, and a notch portion 31d. And a second groove-like second fitting portion (inserting concave portion) 31c formed.
- the upper surface (inner wall surface) of the first base portion 31 a forms the entire element guide surface of the lower blade 17 in the slider body 2.
- the slider sub member 32 includes a lower wing plate second main body portion 17b fitted to the lower wing plate first main body portion 17a of the slider main member 31, and a lower flange formed integrally with the lower wing plate second main body portion 17b.
- the entire slider sub-member 32 is integrally formed by, for example, injection molding or die casting.
- the lower wing plate second main body portion 17b is arranged on a flat plate-like second base portion 32a, left and right base portions 32d that serve as a base of the lower flange portion 15, and are arranged on the left and right side line portions of the second base portion 32a. And a positioning portion 32e which is erected on the rear opening side end portion and which can contact the notch portion 31d of the slider main member 31.
- a hook-like (hook-like) first fitting portion (first hook portion) that fits to the first fitting portion 31b on the front end portion side of the slider main member 31 is provided at the front end portion of the second base portion 32a. 32b is erected.
- a pair of left and right cut portions 32f extending forward from the rear end of the second base portion 32a are provided at the center in the width direction of the rear end portion of the second base portion 32a.
- the tongue piece 32g is arranged to be elastically deformed so as to be sandwiched.
- a hook-like (hook-like) second fitting portion (second shape) fitted to the second fitted portion 31c on the rear end side of the slider main member 31 is provided at the rear end portion of the tongue piece portion 32g.
- a heel part 32c is erected.
- the first and second fitting portions 32b and 32c of the slider sub member 32 are used as the first and second fitting portions 31b and 32b of the slider main member 31, respectively.
- the first and second slider sub-members 32 have first and second lower ends of the first and second fitted portions 31b and 31c of the slider main member 31, respectively.
- An inclined surface for guiding the second fitting portions 32b and 32c is formed.
- an inclined surface that is inclined downward toward the tip is also formed at the tip of the first and second fitting portions 32 b and 32 c of the slider sub member 32.
- the positions, sizes, and forms of the first and second fitting portions 31b and 31c of the slider main member 31 and the first and second fitting portions 32b of the slider sub member 32 are used.
- 32c, the first and second fitting portions 32b, 32c of the slider sub member 32 are respectively connected to the first and second fitting portions 31b, 31c of the slider main member 31. Any change can be made as long as it can be properly fitted.
- the slider sub member 32 When assembling the slider body 2 of the second embodiment using the slider main member 31 and the slider sub member 32, the slider sub member 32 is moved closer to the slider main member 31 from the lower side as shown in FIG. Then, the slider sub member 32 is pushed toward the slider main member 31.
- the second base portion 32a of the slider sub member 32 is partially elastically deformed (particularly, the tongue piece portion 32g is elastically deformed), and the first and second fitting portions 32b and 32c of the slider sub member 32 are formed. Are inserted and fitted in the first and second fitted portions 31b and 31c of the slider main member 31, respectively.
- the second fitting portion 32c of the slider sub member 32 is moved to the slider main member. It pushes toward the 2nd to-be-attached part 31c of the member 31.
- the second fitting portion 32c of the slider sub member 32 is inserted and fitted into the second fitting portion 31c of the slider main member 31 while the tongue piece portion 32g of the slider sub member 32 is elastically deformed.
- the positioning portion 32 e of the slider sub member 32 is inserted into the notch portion 31 d of the slider main member 31.
- the position of the slider sub member 32 with respect to the main member 31 can be further stabilized.
- the slider body 2 according to the second embodiment is configured in which the slider 31 and the slider sub member 32 are stably fixed with a predetermined fixing strength.
- the slider body 2 according to the second embodiment which is once assembled in this way, uses, for example, a thin rod-like member while strongly pushing the slider sub member 32 backward against the slider main member 31.
- the slider main member 31 and the slider sub member 32 can be separated again.
- the slider of the second embodiment having such a slider body 2 can be easily applied to a fastener chain in which a part of the left and right element rows is separated, like the slider body 1 of the slider 1a of the first embodiment. Since it can be attached, it is preferably used when repairing the slide fastener or exchanging the slider.
- the upper blade 11 and the lower blade first main portion 17a are integrally formed via the guide column 13, and therefore the upper and lower blades 11 , 17 (particularly, the distance between the upper and lower blades 11, 17 at the shoulder end) has a predetermined height dimension, and the height of the element guide path in the slider body 2 in the vertical direction is stable. An error in the size is less likely to occur.
- the slider according to the second embodiment when the slider according to the second embodiment is slid along the element row, the left and right element rows can be smoothly engaged and separated, and the slider has good slidability and operability. can do.
- the entire element guide surfaces of the upper blade 11 and the lower blade 17 are provided on the slider main member 31, and the shoulder opening side ends of the upper and lower blades 11, 17 of the slider body 2.
- a step is prevented from being formed on the element guide surface from the edge to the edge on the rear opening side.
- the position of the boundary portion between the slider main member 31 and the slider sub member 32 is set between the lower blade 17 and the lower flange portion 15.
- a part (inner part) including the element guide surface at the shoulder opening side end of the lower wing plate 17 is provided on the slider main member 31, and the remaining part (outer part) of the lower wing plate 17 and the lower part are provided.
- FIG. 11 is an exploded perspective view in which the slider body of the slider according to the third embodiment is disassembled
- FIG. 12 is a sectional view of the slider body in an assembled state.
- the slider according to the third embodiment includes a slider body 3 and a handle (not shown) that is rotatably held by the slider body 3.
- the slider body 3 includes a lower wing plate (first wing plate) 18, an upper wing plate (second wing plate) 11, and guide pillars 13 that connect the shoulder blade side ends of the upper and lower wing plates 11 and 18.
- a pulling attachment column 14 disposed on the upper surface side of the upper wing plate 11 and a lower flange portion 15 erected along the left and right side edge portions of the lower wing plate 18 are provided.
- the entire upper blade (second blade) 11 is composed of a single member.
- the lower wing plate (first wing plate) 18 includes a lower wing plate first main body portion (first wing plate first main body portion) 18a having an element guide surface, and a lower wing plate first main body portion 18a. And a lower wing plate second main body portion (first wing plate second main body portion) 18b attached to the lower surface side.
- the slider body 3 in the third embodiment includes a slider main member (first slider member) 41 and a slider sub member (second slider member) 42 that can be assembled to each other.
- the slider main member 41 and the slider sub-member 42 are configured such that the element guide surface of the slider body 3 is the slider main member so that the element row can be inserted into the element guide path of the slider body 3 at the same time as the slider body 3 is assembled. 41 and the slider sub member 42 are formed.
- the slider main member 41 includes the entire upper wing plate 11 of the slider body 3, the lower wing plate first main body portion 18 a of the lower wing plate 18, the guide column 13, and the pulling attachment column 14.
- the entire slider main member 41 is integrally formed by, for example, injection molding or die casting.
- the lower wing plate first main body portion 18a of the slider main member 41 includes a first base portion 41a constituting a flat element guide surface, and a stepped notch portion formed at the rear opening side end portion of the first base portion 41a. 41d.
- the upper surface (inner wall surface) of the first base portion 41 a forms the entire element guide surface of the lower blade 18 in the slider body 3.
- the slider sub-member 42 includes a lower wing plate second main body portion 18b fitted to the lower wing plate first main body portion 18a of the slider main member 41, and a lower flange formed integrally with the lower wing plate second main body portion 18b.
- the entire slider sub-member 42 is integrally formed by injection molding or die casting, for example.
- the lower wing plate second main body portion 18b is disposed on the flat plate-like second base portion 42a, the left and right base portions 42d that serve as the base of the lower flange portion 15, and the second base portion 42a. And a positioning portion 42e which is erected on the rear opening side end portion and is inserted into the notch portion 41d of the slider main member 41. In this case, the strength of the lower wing plate second main body portion 18b is increased by connecting the left and right base portions 42d and the positioning portions 42e of the lower wing plate second main body portion 18b to each other.
- an adhesive is applied to the entire upper surface of the second base portion 42a of the slider sub member 42.
- the second base portion 42 a of the slider sub member 42 is replaced with the first base portion 41 a of the slider main member 41 so that the positioning portion 42 e of the slider sub member 42 is inserted into the notch portion 41 d of the slider main member 41.
- the adhesive for example, various adhesives such as a solvent volatile adhesive, a heat curable adhesive, a two-component curable adhesive, or a film adhesive can be arbitrarily selected. Can be used.
- the slider body 3 of the third embodiment in which the slider sub member 42 is assembled and fixed to the slider main member 41 is configured.
- welding means such as high-frequency welding or heat welding instead of the above-described adhesive bonding. It is.
- Such a slider of the third embodiment can be easily attached to a fastener chain in which a part of the left and right element rows is separated, as in the first and second embodiments. Therefore, it is preferably used when repairing the slide fastener or exchanging the slider.
- the interval between the upper and lower blades 11 and 18 (particularly, the interval between the upper and lower blades 11 and 18 at the shoulder opening side end) stably has a predetermined height dimension. Therefore, an error is less likely to occur in the vertical dimension of the element guide path in the slider body 3. Further, no step is formed on the element guide surface from the shoulder opening side edge to the rear opening side edge of the upper and lower blades 11 and 18 of the slider body 3. For this reason, favorable slidability and operability can be obtained.
- FIG. 13 is an exploded perspective view in which the slider body of the slider according to the fourth embodiment is disassembled
- FIG. 14 is a sectional view of the slider body in an assembled state.
- the slider of the fourth embodiment includes a slider body 4 and a handle (not shown) that is rotatably held by the slider body 4.
- the slider body 4 includes a lower wing plate (first wing plate) 19, an upper wing plate (second wing plate) 11, and a guide column 13 that connects between the shoulder opening side ends of the upper and lower wing plates 11 and 19.
- a handle attachment column 14 disposed on the upper surface side of the upper wing plate 11 and a lower flange portion 15 erected along the left and right side edge portions of the lower wing plate 19 are provided.
- the entire upper blade (second blade) 11 is composed of a single member.
- the lower wing plate (first wing plate) 19 includes a lower wing plate first main body portion (first wing plate first main body portion) 19a having an element guide surface, and a lower wing plate first main body portion 19a.
- the lower wing plate second main body portion (first wing plate second main body portion) 19b attached to the lower surface side is configured.
- a slider main member (first slider member) 51 and a slider sub member (second slider member) 52 that can be assembled with each other, and the slider main member 51 and the slider sub member 52 are fitted.
- a split pin member 53 that holds and fixes the worn state.
- the slider main member 51 and the slider sub member 52 are configured so that the element guide surface of the slider body 4 can be inserted into the element guide path of the slider body 4 at the same time as the slider body 4 is assembled. 51 and a slider sub-member 52.
- the slider main member 51 includes the entire upper wing plate 11 of the slider body 4, the lower wing plate first main body portion 19 a of the lower wing plate 19, the guide column 13, and the handle attachment column 14. Integrated. Further, as shown in FIG. 14, a column insertion hole 51e for inserting a fixing column 52h, which will be described later, of the slider sub member 52 is formed in the lower wing plate first main body portion 19a and the guide column 13 of the slider main member 51. Is provided upward from the lower surface side of the lower wing plate first main body portion 19a.
- the guide pillar 13 of the slider main member 51 is provided with a first pin insertion hole 51f for inserting the split pin member 53 from the front side of the guide pillar 13 to the rear.
- the first pin insertion hole 51f is formed to extend to the rear side from the position where the column insertion hole 51e is formed so as to intersect with the column insertion hole 51e.
- the first main body portion 19a of the lower wing plate of the slider main member 51 includes a first base portion 51a that forms a flat element guide surface, and a stepped notch formed at the rear opening side end portion of the first base portion 51a. It has a portion 51d and a recessed groove-like fitting portion (insertion recess) 51b formed on a stepped surface facing the rear of the notch 51d.
- the upper surface (inner wall surface) of the first base portion 51 a forms the entire element guide surface of the lower blade 19 in the slider body 4.
- the slider sub-member 52 includes a lower wing plate second main body portion 19b fitted to the lower wing plate first main body portion 19a of the slider main member 51, and a lower flange formed integrally with the lower wing plate second main body portion 19b.
- the portion 15 and a fixed column 52h erected on the front end portion of the lower wing plate second main body portion 19b are integrally provided.
- the lower wing plate second main body portion 19b is arranged on a flat plate-like second base portion 52a, left and right base portions 52d that serve as a base of the lower flange portion 15, and are arranged on the left and right side line portions of the second base portion 52a, and the second base portion 52a. And a positioning part 52e inserted into the cutout part 51d of the slider main member 51.
- a pair of left and right cut portions 52f extending forward from the rear end of the second base portion 52a are provided in the central portion in the width direction of the rear end portion of the second base portion 52a, and the pair of cut portions 52f
- the tongue piece 52g is arranged to be elastically deformable so as to be sandwiched. Further, a hook-like (hook-like) fitting portion 52b that is fitted to the fitted portion 51b of the slider main member 51 is erected at the rear end portion of the tongue piece portion 52g.
- an inclined surface for guiding the fitting portion 52b of the slider sub member 52 is formed at the lower end of the fitting portion 51b of the slider main member 51.
- an inclined surface that is inclined downward toward the tip is also formed at the tip of the fitting portion 52 b of the slider sub member 52.
- the fixed column 52h of the slider sub member 52 has a shape corresponding to the space portion of the column insertion hole 51e formed in the slider main member 51 (in the case of the fourth embodiment, a rectangular column shape).
- the fixed column 52h is provided with a second pin insertion hole 52i for inserting the split pin member 53 along the front-rear direction.
- the second pin insertion hole 52i is formed on the slider main member 51 so that the second pin insertion hole 52i and the first pin insertion hole 51f are connected when the slider sub member 52 is assembled to the slider main member 51. It is provided at a position corresponding to the position of the first pin insertion hole 51f.
- the split pin member 53 of the fourth embodiment is formed in a cylindrical shape. Further, the split pin member 53 has a linear slit 53a formed along the length direction thereof, and the split pin member 53 is reduced in diameter by being pressed in a direction of narrowing the slit 53a. It is possible to be elastically deformed.
- the fixed column 52 h of the slider sub member 52 is inserted into the slider main member 51. It fits in the hole 51e.
- the fitting portion 52 b of the slider sub member 52 is pushed toward the fitting portion 51 b of the slider main member 51.
- the fitting portion 52b of the slider sub member 52 is inserted and fitted into the fitted portion 51b of the slider main member 51 while the tongue piece 52g of the slider sub member 52 is elastically deformed.
- the slider sub-member 52 is assembled to the slider main member 51 from the lower surface side of the lower wing plate first main body portion 19a. Further, at this time, the lower blade plate second main body portion 19 b of the slider sub member 52 is in close contact with the lower blade plate first main body portion 19 a of the slider main member 51, and the first pin insertion hole 51 f formed in the slider main member 51. The position is matched with the position of the second pin insertion hole 52 i formed in the slider sub member 52.
- the first pin insertion hole 51 f of the slider main member 51 and the second pin insertion hole 52 i of the slider sub member 52 are formed from the front side of the slider main member 51. insert. Thereafter, by releasing the pressing of the split pin member 53, the split pin member 53 is elastically restored and is crimped into the first and second pin insertion holes 52i. As a result, since the state where the slider sub member 52 is assembled to the slider main member 51 is held by the split pin member 53, the slider main member 51 and the slider sub member 52 are stably fixed with a predetermined fixing strength.
- the slider body 4 of the fourth embodiment is configured.
- the slider of this fourth embodiment can be easily attached to the fastener chain in which a part of the left and right element rows is separated, as in the first to third embodiments described above, It is suitably used when repairing slide fasteners or exchanging sliders.
- the interval between the upper and lower blades 11 and 19 (particularly, the interval between the upper and lower blades 11 and 19 at the shoulder opening side end) stably has a predetermined height dimension. Therefore, an error is less likely to occur in the vertical dimension of the element guide path in the slider body 1. Further, no step is formed on the element guide surface from the shoulder opening side edge to the rear opening side edge of the upper and lower blades 11 and 19 of the slider body 4. For this reason, favorable slidability and operability can be obtained.
- FIG. 15 is a perspective view showing the slider body of the slider according to the fifth embodiment.
- FIG. 16 is a cross-sectional view of the slider body
- FIG. 17 is a schematic view when the slider body is viewed from the rear mouth side.
- the slider of the fifth embodiment includes a slider body 5 and a handle (not shown) rotatably held by the slider body 5.
- a slider body 5 for example, as shown in FIG. It is used for the slide fastener 8b of the type arranged on the upper surface side with respect to the fastener tape.
- the slider body 5 of the fifth embodiment has an upper wing plate 61, a lower wing plate 62, a guide column 63 that connects the shoulder blade side ends of the upper and lower wing plates 61, 62, and an upper surface side of the upper wing plate 61. It has a handle attachment column 64 and an upper flange portion 65 that is suspended along the left and right edges of the upper blade 61.
- the upper blade 61 is disposed as the first blade of the present invention
- the lower blade 62 is disposed as the second blade of the present invention.
- the entire lower wing plate 62 serving as the second wing plate is composed of a single member.
- the upper wing plate 61 serving as the first wing plate includes an upper wing plate first main body portion (first wing plate first main body portion) 61a having an element guide surface, and an upper wing plate first main body portion 61a.
- An upper blade plate second main body portion (first blade plate second main body portion) 61b attached to the upper surface side is configured.
- the slider body 5 includes a slider main member (first slider member) 71 and a slider sub member (second slider member) 72 that can be assembled to each other.
- the slider main member 71 and the slider sub member 72 are configured such that the element guide surface of the slider body 5 is the slider main member so that the element body can be inserted into the element guide path of the slider body 5 at the same time as the slider body 5 is assembled.
- 71 and a slider sub-member 72 are configured such that the element guide surface of the slider body 5 is the slider main member so that the element body can be inserted into the element guide path of the slider body 5 at the same time as the slider body 5 is assembled.
- the slider main member 71 includes an upper wing plate first main body 61a of the upper wing plate 61 of the slider body 5, the entire lower wing plate 62, and a guide post 63, for example, injection.
- the entire slider main member 71 is integrally formed by molding or die casting.
- the upper main plate 61a of the slider main member 71 includes a first base 71a that forms a flat element guide surface, and a groove-like shape formed at the shoulder opening side end (front end) of the first base 71a.
- the lower surface (inner wall surface) of the first base portion 71 a forms the entire element guide surface of the upper blade 61 in the slider body 5.
- the slider sub member 72 includes an upper wing plate second main portion 61b fitted to the upper wing plate first main portion 61a of the slider main member 71, and an upper flange formed integrally with the upper wing plate second main portion 61b.
- a portion 65 and a pull attachment column 64 are provided, and the entire slider sub member 72 is integrally formed by, for example, injection molding or die casting.
- the upper wing plate second main body portion 61b is provided with a flat plate-like second base portion 72a, left and right base portions on which the upper flange portion 65 is suspended, and a second base portion 72a. And a positioning portion 72e inserted into a notch portion of the slider main member 71.
- a hook-like (saddle-like) first fitting portion 72 b that is fitted to the first fitting portion 71 b on the front end portion side of the slider main member 71 is suspended from the front end portion of the second base portion 72 a. Yes.
- a pair of left and right cut portions 72f extending forward from the rear end of the second base portion 72a are provided at the center portion in the width direction of the rear end portion of the second base portion 72a, and the pair of cut portions 72f are provided in the pair of cut portions 72f.
- the tongue piece 72g is arranged to be elastically deformed so as to be sandwiched. Furthermore, a hook-like (hook-like) second fitting portion 72c that fits on the second fitting portion 71c on the rear end portion side of the slider main member 71 is suspended from the rear end portion of the tongue piece portion 72g. It is installed.
- the first and second fitting portions 72b and 72c of the slider sub member 72 are replaced with the first and second fitting portions 71b of the slider main member 71,
- the first and second slider sub-members 72 are connected to the top ends of the first and second fitted portions 71b and 71c of the slider main member 71, as shown in FIG.
- An inclined surface for guiding the second fitting portions 72b and 72c is formed.
- An inclined surface that is inclined upward toward the tip is also formed at the tip of the first and second fitting portions 72 b and 72 c of the slider sub member 72.
- the slider sub member 72 When assembling the slider body 5 of the fifth embodiment using the slider main member 71 and the slider sub member 72, the slider sub member 72 is moved closer to the slider main member 71 from above and the slider sub member 72 is moved. Push toward the slider main member 71. As a result, the second base portion 72a of the slider sub member 72 is partially elastically deformed (particularly, while the tongue piece portion 72g is elastically deformed), and the first and second fitting portions 72b and 72c of the slider sub member 72 are formed. Are inserted and fitted in the first and second fitting portions 71b and 71c of the slider main member 71, respectively.
- the second fitting portion 72c of the slider sub member 72 is moved to the slider main member. It pushes toward the 2nd to-be-attached part 71c of the member 71.
- FIG. Accordingly, the second fitting portion 72c of the slider sub member 72 is inserted and fitted into the second fitting portion 71c of the slider main member 71 while the tongue piece 72g of the slider sub member 72 is elastically deformed.
- the positioning portion 72e of the slider sub member 72 is inserted into the notch portion of the slider main member 71, so that the slider main member 71 is inserted.
- the position of the slider sub member 72 relative to the member 71 can be further stabilized.
- the slider main member is fitted by fitting the first and second fitting portions 72b and 72c of the slider sub member 72 to the first and second fitted portions 71b and 71c of the slider main member 71, respectively.
- the slider body 5 of the fifth embodiment is configured in which the slider 71 and the slider sub member 72 are stably fixed with a predetermined fixing strength.
- the slider body 5 of the fifth embodiment having such a slider body 5
- the same operational effects as those of the first to fourth embodiments can be obtained.
- the slider body 5 of the fifth embodiment once assembled in this way allows the second fitting portion 72c of the slider sub member 72 to be removed from the second fitting portion 71c of the slider main member 71.
- the slider main member 71 and the slider sub member 72 can be separated again.
- FIG. 18 is a perspective view illustrating a slider body of the slider according to the sixth embodiment
- FIG. 19 is a cross-sectional view of the slider body.
- the slider of the sixth embodiment includes a slider body 6 and a handle (not shown) rotatably held on the slider blade 6 on the upper wing plate 81 side.
- a fastener element made of synthetic resin on a fastener tape. Is used for a slide fastener in which an element row is formed by injection molding.
- the slider body 6 of the sixth embodiment has an upper wing plate 81, a lower wing plate 82, a guide column 83 that connects the shoulder blade side ends of the upper and lower wing plates 81, 82, and an upper surface side of the upper wing plate 81.
- the upper blade 81 of the slider body 6 can be set as the first blade of the present invention
- the lower blade 82 can be set as the second blade of the present invention.
- the lower blade 82 can be set as the first blade of the present invention
- the upper blade 81 can be set as the second blade of the present invention.
- the upper wing plate (first wing plate) 81 includes an upper wing plate first main portion (first wing plate first main portion) 81a having an element guide surface, and an upper wing plate first main body. And an upper wing plate second main body portion (first wing plate second main body portion) 81b attached to the upper surface side of the portion 81a.
- the lower wing plate (second wing plate) 82 includes a lower wing plate first main portion (second wing plate first main portion) 82a having an element guide surface, and a lower wing plate first main portion 82a. And a lower wing plate second main body portion (second wing plate second main body portion) 82b attached to the lower surface side.
- the slider body 6 in the sixth embodiment includes a slider main member 91 having an upper blade plate first main body portion 81a and a lower blade plate first main body portion 82a, and a slider main body 91 assembled on the upper surface side of the slider main member 91. It has a first sub member 92 and a slider second sub member 93 assembled on the lower surface side of the slider main member 91.
- the slider body 6 is configured such that its element guide surface is formed using the slider main member 91, the slider first sub member 92, and the slider second sub member 93.
- the slider main member 91 includes an upper wing plate first main portion 81a of the upper wing plate 81, a lower wing plate first main portion 82a of the lower wing plate 82, and an upper wing plate first main portion of the slider body 6. 81a and a guide post 83 for connecting the lower wing plate first main body portion 82a.
- the entire slider main member 91 is integrally formed by, for example, injection molding or die casting.
- the upper wing plate first main portion 81a is attached to the upper wing plate second main portion 81b together with the upper wing plate second main portion 81b by attaching an upper wing plate second main portion 81b described later of the slider first sub member 92.
- the lower wing plate first main portion 82a is attached to the lower wing plate second main portion 82b, which will be described later, of the slider second sub member 93, so that the lower wing plate 82 is moved together with the lower wing plate second main portion 82b.
- the upper wing plate first main portion 81a of the slider main member 91 in the sixth embodiment is configured substantially in the same manner as the upper wing plate first main portion 61a of the slider main member 71 in the fifth embodiment.
- the lower wing plate first main body portion 82a of the slider main member 91 is configured substantially in the same manner as the lower wing plate first main body portion 17a of the slider main member 31 in the second embodiment.
- the slider first sub member 92 in the sixth embodiment is configured in substantially the same manner as the slider sub member 72 in the fifth embodiment. Furthermore, the slider second sub member 93 in the sixth embodiment is configured in substantially the same manner as the slider sub member 32 in the second embodiment.
- the slider body 6 of the sixth embodiment is assembled using the slider main member 91, the slider first sub member 92, and the slider second sub member 93, the slider first sub member 92 is attached to the upper surface of the slider main member 91.
- the slider second sub member 93 is fitted to the lower surface side of the slider main member 91 and assembled.
- the slider body 6 of the sixth embodiment is configured in which the slider first sub member 92 and the slider second sub member 93 are stably fixed to the slider main member 91 with a predetermined fixing strength. Even with the slider of the sixth embodiment having such a slider body 6, the same effects as those of the first to fifth embodiments can be obtained.
- the once-assembled slider body 6 of the sixth embodiment can be separated again into the slider main member 91, the slider first sub member 92, and the slider second sub member 93.
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- Engineering & Computer Science (AREA)
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- Dental Preparations (AREA)
Abstract
Description
ここで、「下翼板12の肩口側端部のエレメント案内面を含む一部分(内側部分)」及び「下翼板12の残りの部分(外側部分)」とは、エレメント案内路を構成する内面(エレメント案内面)のことである。また、その「大きさ」とは、それぞれのエレメント案内面の表面積の大きさである。
なお、このようにして一旦組み立てられた本実施例5のスライダー胴体5は、例えばスライダー副部材72の第2嵌着部72cをスライダー主部材71の第2被嵌着部71cから抜脱させることによって、スライダー主部材71とスライダー副部材72とに再び分離することが可能である。
本実施例6のスライダーは、スライダー胴体6と、スライダー胴体6の上翼板81側に回動可能に保持される図示しない引手とを備えており、例えば、ファスナーテープに合成樹脂製のファスナーエレメントを射出成形してエレメント列が形成されるタイプのスライドファスナーに用いられる。
1a スライダー
2,3,4 スライダー胴体
5,6 スライダー胴体
8a,8b スライドファスナー
9 引手
10 物品
11 上翼板
12 下翼板
12a 下翼板第1主体部
12b 下翼板第2主体部
13 案内柱
14 引手取付柱
15 下フランジ部
16a 第1隆起部
16b 第2隆起部
16c 第3隆起部
17 下翼板
17a 下翼板第1主体部
17b 下翼板第2主体部
18 下翼板
18a 下翼板第1主体部
18b 下翼板第2主体部
19 下翼板
19a 下翼板第1主体部
19b 下翼板第2主体部
21 スライダー主部材
21a 第1基部
21b 第1被嵌着部(嵌入凹部)
21c 第2被嵌着部(突条部)
21d 位置決め部
22 スライダー副部材
22a 第2基部
22b 第1嵌着部
22c 第2嵌着部
22d 土台部
22e 延出部
31 スライダー主部材
31a 第1基部
31b 第1被嵌着部(嵌入凹部)
31c 第2被嵌着部(嵌入凹部)
31d 切欠き部
32 スライダー副部材
32a 第2基部
32b 第1嵌着部(第1鉤部)
32c 第2嵌着部(第2鉤部)
32d 土台部
32e 位置決め部
32f 切込み部
32g 舌片部
41 スライダー主部材
41a 第1基部
41d 切欠き部
42 スライダー副部材
42a 第2基部
42d 土台部
42e 位置決め部
51 スライダー主部材
51a 第1基部
51b 被嵌着部(嵌入凹部)
51d 切欠き部
51e 柱挿入孔
51f 第1ピン挿入孔
52 スライダー副部材
52a 第2基部
52b 嵌着部
52d 土台部
52e 位置決め部
52f 切込み部
52g 舌片部
52h 固定柱
52i 第2ピン挿入孔
53 割りピン部材
53a スリット
61 上翼板
61a 上翼板第1主体部
61b 上翼板第2主体部
62 下翼板
63 案内柱
64 引手取付柱
65 上フランジ部
71 スライダー主部材
71a 第1基部
71b 第1被嵌着部(嵌入凹部)
71c 第2被嵌着部(嵌入凹部)
72 スライダー副部材
72a 第2基部
72b 第1嵌着部
72c 第2嵌着部
72e 位置決め部
72f 切込み部
72g 舌片部
81 上翼板
81a 上翼板第1主体部
81b 上翼板第2主体部
82 下翼板
82a 下翼板第1主体部
82b 下翼板第2主体部
83 案内柱
84 引手取付柱
85 上フランジ部
86 下フランジ部
91 スライダー主部材
92 スライダー第1副部材
93 スライダー第2副部材
Claims (11)
- 第1翼板(12,17,18,19,61,81) と、前記第1翼板(12,17,18,19,61,81) に対向して配される第2翼板(11,62,82)と、前記第1及び第2翼板(11,12,17,18,19,61,62,81,82)の肩口側端部間を連結する案内柱(13,63,83)と、前記第1翼板(12,17,18,19,61,81) の左右側縁部に配され、前記第2翼板(11,62,82)の左右側縁部に向けて延びる一対の第1フランジ部(15,65,85)とを少なくとも備えたスライダー胴体(1,2,3,4,5,6) と、前記第1及び第2翼板(11,12,17,18,19,61,62,81,82)の少なくとも1つに配された引手(9) とを有し、前記スライダー胴体(1,2,3,4,5,6) には、少なくとも前記第1翼板(12,17,18,19,61,81) 、前記第2翼板(11,62,82)、及び一対の第1フランジ部(15,65,85)の各内壁面からなるエレメント案内面によって囲まれたエレメント案内路を備えるスライドファスナー用スライダーであって、
前記スライダー胴体(1,2,3,4,5,6) は、スライダー主部材(21,31,41,51,71,91) と、同スライダー主部材(21,31,41,51,71,91) から独立して形成されたスライダー副部材(22,32,42,52,72,92) とを有し、
前記スライダー主部材(21,31,41,51,71,91) は、前記第1翼板(12,17,18,19,61,81) の少なくとも肩口側端部のエレメント案内面を含む部分と前記第2翼板(11,62,82)の少なくとも肩口側端部のエレメント案内面を含む部分とが、前記案内柱(13,63,83)を介して連結一体化されてなり、
前記スライダー副部材(22,32,42,52,72,92) は、前記一対の第1フランジ部(15,65,85)を有し、且つ、前記スライダー主部材(21,31,41,51,71,91) に組み付け固定されてなる、
ことを特徴とするスライダー。 - 前記スライダー主部材(21,31,41,51,71,91) は、肩口側端縁から後口側端縁まで連続する前記第1翼板(12,17,18,19,61,81) 側のエレメント案内面と、肩口側端縁から後口側端縁まで連続する前記第2翼板(11,62,82)側のエレメント案内面とを備えてなる請求項1記載のスライダー。
- 前記第1翼板(12,17,18,19,61,81) は、
前記スライダー主部材(21,31,41,51,71,91) に配され、前記エレメント案内面を備えた第1主体部(12a,17a,18a,19a,61a,81a) と、
前記スライダー副部材(22,32,42,52,72,92)に配されて前記一対の第1フランジ部(15,65,85)間を連結し、前記第1主体部(12a,17a,18a,19a,61a,81a) に組み付けられる第2主体部(12b,17b,18b,19b,61b,81b) と
を有してなる請求項1又は2記載のスライダー。 - 前記スライダー副部材(22,32,72,92) は、前記第2主体部(12b,17b,61b,81b) に設けた嵌着部(22b,22c,32b,32c,72b,72c) を前記第1主体部(12a,17a,61a,81a) に設けた被嵌着部(21b,21c,31b,31c,71b,71c) に嵌着させて、前記スライダー主部材(21,31,71,91) に組み付け固定されてなる請求項3記載のスライダー。
- 前記スライダー主部材(21)の前記被嵌着部は、前記第1主体部(12a) の肩口側端部に配された凹状の第1被嵌着部(21b) と、前記第1主体部(12a) の左右側縁部からスライダー幅方向の外側に突出した第2被嵌着部(21c)とを有し、
前記第2主体部(12b) は、基部(22a) と、前記基部(22a) の左右側縁部に配され、前記第1フランジ部(15)を支える土台部(22d) と、前記基部(22a) から肩口側方向に延出し、弾性変形可能な延出部(22e) とを有し、
前記スライダー副部材(22)の前記嵌着部は、前記延出部(22e) の先端部に立設され、前記第1被嵌着部(21b) に嵌着するフック状の第1嵌着部(22b) と、前記土台部(22d) に凹設され、前記第2被嵌着部(21c) に嵌着する凹溝状の第2嵌着部(22c) とを有してなる、
請求項4記載のスライダー。 - 前記スライダー主部材(31,71,91)の前記被嵌着部は、前記第1主体部(17a,61a,81a) の肩口側端部に配された凹溝状の第1被嵌着部(31b,71b) と、前記第1主体部(17a,61a,81a) の後口側端部に配された凹溝状の第2被嵌着部(31c,71c) とを有し、
前記第2主体部(17b,61b,81b) は、当該第2主体部(17b,61b,81b) の肩口側端部に配され、前記第1被嵌着部(31b,71b) に嵌着可能なフック状の第1嵌着部(32b,72b) と、当該第2主体部(17b,61b,81b) の後口側端部に配され、前記第2被嵌着部(31c,71c) に嵌着可能なフック状の第2嵌着部(32c,72c) とを有してなる、
請求項4記載のスライダー。 - 前記第2主体部(17b,61b,81b) は、基部(32a,72a) と、前記基部(32a,72a) の後口側端部に形成された一対の切込み部(32f,72f) と、一対の前記切込み部(32f,72f) に挟まれ、弾性変形可能な舌片部(32g,72g) とを有し、
前記第1嵌着部(32b,72b) は、前記基部(32a,72a) の肩口側端部に立設され、前記第2嵌着部(32c,72c) は、前記舌片部(32g,72g) の後口側端部に立設されてなる、
請求項6記載のスライダー。 - 前記スライダー副部材(42)は、接着又は溶着により前記スライダー主部材(41)に組み付け固定されてなる請求項1~3のいずれかに記載のスライダー。
- 前記スライダー副部材(52)は、固定部材(53)を用いて前記スライダー主部材(51)に組み付け固定されてなる請求項1~3のいずれかに記載のスライダー。
- 前記第2翼板(82)の左右側縁部に、前記第1翼板(81)に向けて延びる一対の第2フランジ部(86)が配され、
前記スライダー胴体(6) は、前記スライダー主部材(91)及び前記スライダー副部材(92)から独立して形成されたスライダー第2副部材(93)を更に有し、
前記スライダー第2副部材(93)は、前記一対の第2フランジ部(86)を有し、且つ、前記スライダー主部材(91)に組み付け固定されてなる、
請求項1~9のいずれかに記載のスライダー。 - スライドファスナー(8a,8b) に取着されたスライダーを、請求項1~10のいずれかに記載のスライダー(1a)に交換することにより当該スライドファスナー(8a,8b) の修理を行うことを特徴とするスライドファスナーの修理方法。
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DE112012006653.7T DE112012006653B4 (de) | 2012-07-05 | 2012-10-31 | Schieber und Verfahren zur Reparatur eines Reißverschlusses |
CN201280074011.3A CN104379017B (zh) | 2012-07-05 | 2012-10-31 | 拉头及拉链的修理方法 |
US14/411,676 US9668547B2 (en) | 2012-07-05 | 2012-10-31 | Slider and method for repairing slide fastener |
JP2014523547A JP5828960B2 (ja) | 2012-07-05 | 2012-10-31 | スライダー及びスライドファスナーの修理方法 |
TW102123062A TWI517800B (zh) | 2012-07-05 | 2013-06-27 | Slip and zipper repair methods |
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PCT/JP2012/067223 WO2014006725A1 (ja) | 2012-07-05 | 2012-07-05 | スライドファスナーの取付方法及び製品 |
Country Status (6)
Country | Link |
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US (2) | US9661900B2 (ja) |
JP (1) | JP5828959B2 (ja) |
CN (2) | CN104363784B (ja) |
DE (2) | DE112012006659B4 (ja) |
TW (2) | TWI517800B (ja) |
WO (2) | WO2014006725A1 (ja) |
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WO2024014063A1 (ja) * | 2022-07-11 | 2024-01-18 | Ykk株式会社 | スライダーおよびスライドファスナー |
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WO2018016698A1 (ko) * | 2016-07-19 | 2018-01-25 | 이지혜 | 지퍼용 파스너 |
USD804986S1 (en) * | 2016-08-31 | 2017-12-12 | Ideal Fastener (Guangdong) Industries Ltd. | Slider |
USD804987S1 (en) * | 2016-08-31 | 2017-12-12 | Ideal Fastener (Guangdong) Industries Ltd. | Slider |
EP3516979A4 (en) * | 2016-09-26 | 2020-04-29 | YKK Corporation | SLIDE AND SLIDE LOCK |
CN110089812A (zh) * | 2018-01-30 | 2019-08-06 | 吉田拉链(深圳)有限公司 | 双拉头拉链的辅助连接具、拉链及服装 |
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JP1614874S (ja) * | 2018-05-25 | 2018-10-01 | ||
USD891296S1 (en) * | 2018-11-14 | 2020-07-28 | Ykk Corporation | Slider for slide fastener |
CN113142753B (zh) | 2020-01-22 | 2023-01-17 | Ykk株式会社 | 拉头以及拉头的组装方法 |
CN111602934B (zh) * | 2020-05-22 | 2021-10-15 | 福建浔兴拉链科技股份有限公司 | 一种快速分离拉链 |
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- 2012-07-05 DE DE112012006659.6T patent/DE112012006659B4/de active Active
- 2012-07-05 CN CN201280073903.1A patent/CN104363784B/zh active Active
- 2012-07-05 WO PCT/JP2012/067223 patent/WO2014006725A1/ja active Application Filing
- 2012-10-31 DE DE112012006653.7T patent/DE112012006653B4/de active Active
- 2012-10-31 CN CN201280074011.3A patent/CN104379017B/zh active Active
- 2012-10-31 US US14/411,676 patent/US9668547B2/en active Active
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Also Published As
Publication number | Publication date |
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CN104363784B (zh) | 2019-03-15 |
CN104363784A (zh) | 2015-02-18 |
JP5828959B2 (ja) | 2015-12-09 |
US20150157097A1 (en) | 2015-06-11 |
DE112012006653B4 (de) | 2019-06-06 |
DE112012006653T5 (de) | 2015-04-02 |
WO2014006725A1 (ja) | 2014-01-09 |
TW201406314A (zh) | 2014-02-16 |
CN104379017B (zh) | 2017-05-31 |
US9668547B2 (en) | 2017-06-06 |
US9661900B2 (en) | 2017-05-30 |
DE112012006659B4 (de) | 2024-06-06 |
CN104379017A (zh) | 2015-02-25 |
TW201404331A (zh) | 2014-02-01 |
US20150189954A1 (en) | 2015-07-09 |
TWI517800B (zh) | 2016-01-21 |
JPWO2014006725A1 (ja) | 2016-06-02 |
TWI488591B (zh) | 2015-06-21 |
DE112012006659T5 (de) | 2015-04-02 |
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