US1919946A - Slide fastener - Google Patents

Description

G. JOHNSON SLIDE FASTENER July 25, 1933.

Filed Dec. 8, 1931 Patented July 25, 1933 UNITED STATES PATENT OFFICE GUSTAV JOHNSON, 0F WEST ROXBURY, MASSACHUSETTS, ASSIGNOR TO UNITED-GARR FASTENEB CORPORATION, OF CAMBRIDGE, MASSACHUSETTS, A CORPORATION 0F MASSACHUSETTS SLIDE FASTENER Application led December 8, 1931. Serial No. 579,696.

My invention aims to provide improvements in separable sliders for multiple operated fastener installations.

In the drawing which illustrates a preferred embodiment of my invention Figure 1 is a plan view of a .portion. of a multiple operated fastener lnstallatlon showing my improved slider in normal operating position;

Fig. 2 is a view of the installatlon shown 'in Flgure 1 showing the manner of operation of the pull tab to disengage the hinged parts of'the slider; i

Fig. 3 is a view of the parts shown mFigs. 1 and 2 but showing the hinged parts of the slider in position to permit removal of one of the series of fasteners from the slider; Fig. 4 is a section taken on the line 4-4 of Figure 1; and u Fig.. 5 is a section taken onithe lme 5-5 of Figure 1. j

Referring to the annexed drawmg whlch illustrates my invention, I have shown a slider which is divided into movable connected parts so that at anytime it becomes desirable one of the series of fasteners attached to one of the stringers of a multiple operated fastener installation may be entirely removed from the slider. It has been found that multiple operated fasteners 1nstalled upon certain articles of wearing apparel are subjected to uses of such. nature that sometimes the fasteners on one Stringer become jammed with the fasteners of another stringer or become disengaged in such a manner that the slider cannot function pro erly.

e installation illustrated includes a Stringer 1, a Stringer 2 and separable fastener members 3 of any desired construction attached to the adjacent edges of the stringers 1 and 2. Portions only of the stringers 1 and 2 are shown because itis not necessary togo into detail with anypart of the installation other than the slider. The particular slider construction illustrated in the drawing comprises a body member having a bottom plate portion 4 and a top plate portion divided into a fixed: part 5 and a movable part 6, as shown in Figs. 3 and 4. The

7 which overlaps the fixed part 5 for the purposes hereinafter described. The pivot for the pivotally mounted part 6 (Fig. 5) is in the form of a rivet 8 passing through the fixed portions of the slider at one end.

Wlule the movable part 6 of the slider may be moved from a position shown in Fig. 1 to a position shown in Fig. 3 to permit removal of the fasteners of one of the stringers from the slider in any suitable manner,

I have shown a simple and eiiicient means for accomplishing the desired results. The slider illustrated has a strip portion 9 extending from the lower edge thereof and integral with the fixed part 5 upwardly in slightly spaced parallel relation for a substantial distance and is then bent outwardly and then upwardly to form a loop 10, as

shown in Fig. 5. The portion 9 has its free end extending through the fixed portions of the slider (Fig. 5) and has the extreme end upset `to support the end of the loop 10. A pull tab 11 is pivotally attached to the loop 10 for operation of the slider in the usual manner. This pull tab has a relatively large aperture 12 adjacent to one end and through which the loop 10 passes in substantially spaced relation so that the pull tab 11 may be moved relative to the loop 10 in a plane parallel with the plane of the slider. Y

When the movable part 6 of the yslider is in the osition shown in Figs. 1, 4 and 5 the iiange is frictionally gripped between the portion 13 of the member 9 and the face of `the fixed part 5, thereby holding the movable part. against accidental lateral movement. When it is desired to move the part 6, the pull tab 11 may be swung laterally with the loop 10 acting as a pivot, as shown in Fig. 2, thereby causing a projection 14 on the pull tab to en age the flange 7 and force it from between t e portion 13 and the part 5, as best illustrated in Fig. 2. After .the movable part 6 is freed by the projection 14 it ma be readily swunglinto a position' such as s own in Fig. 3. T c part 6 may be returned from the position shown in Fig. 3 to the position shown in Fig. `1 by merely swinging it about its pivot and forcing the flange 7 in between the portion 13 and the part 5.

It is believed that anyone skilled 1n the art will readily understand the utility of applicants divided slider device, because when the parts are arranged'as shown in Fig. 1 the slider may be used in the same manner as a slider of the non-separable type to lock and unlock the fastener members 3. However, if at any time it becomes necessary to correct alignment of the fastenenmembers of one Stringer with the fastener members of the other Stringer, the pivoted part 6 of the slider may be moved from a 'position shown in Fig. 1 to a position shown in Fig. 3 and the fastener members on the strin er 2 can be lifted upwardly and out- -wardtly from the bottom plate portion 4.

' After the fastener elements have been properly rearranged the slider may be returned to the lower end of the stringers where the fasteners of the Stringer 2 may again be inserted into position in the bottom plate portion 4 and the movable part 6v returned to its normal operatingk osition. Thereafter the slider may be pu led upwardly to engage the fastener members 3 of the Stringer 1 with the fastener members 3 of the strin er 2.

Since 1t is desirable to hold the part 6 rmly in position with relation to the por-y tion 5 of thetop plate part of the slider the pull tab 11 provides a very eiiicient lever which can be much more easily operated to disengage the parts 5 and 6 than would be possible without the use of the combination pull tab 11 and projection 14 or some other equivalent structure.

While I have illustrated and described a i preferred embodiment of my invention I do not wish to be limited thereby, because my invention is best defined by the following claims.

I claim:

1. A slider for a multiple operated fastener installation having a body member, a pull-tab secured thereto, said body member provided with spaced top and bottom portions in combination with means providing diverging channels between them for engaging and disengaging fastener elements on the edges of adjacent stringers as they pass through the body member, said body memberhaving two parts pivoted together at'adjacent ends and arranged for one part to move away from the other laterally in a to the `-plane parallel to the plane of the stringers to permit lateral, separational movement of one Stringer .from the other.

2. A slider for a multiple operated fastener installation having a `body member, a pull-tab secured thereto, said body member provided with spaced to and bottom ortions in combination wit means rovi ing diverging channels between them or engaging and disengaging fastener elements on the ed es of adjacent stringers as they pass throug the body member, said body member having two parts. pivoted together at adjacent ends and arranged for one art to move away from the other laterallg in a plane parallel to the plane of the stringers to permit lateral, separational movement of one Stringer from the other and fastenin means for holding the two pivoted parts o the slider a ainst pivotal movement when the slider is 1n normal operating position.

3. A slider for a multiple operated fastener installation having spaced top and bottom portions in combination with means providing diverging channels between them for engaging and disengaging fastener elements on the edges of adjacent stringers as they pass through the slider, one of said portions being divided into two parts pivoted together so that one part may be moved away from the other laterally in a plane parallel lane of the stringers thereby to permit reeing of the slider from the fastener elements on one of the stringers 'and a pull tab pivotally connected to one of said 1' parts of the divided portion of the slider for manual operation of the slider relative to the fastener elements.

4. A slider for a multiple operated fastener installation having spaced top and v bottom portions in combination with meansk providing divergin channels between them oted to ether so that one part may be moved away rom the other laterally to free the slider from the fastener elements on one of the stringers, a pull tab pivotally connected to one of said parts of the divided' portion of the slider for manual operation of the slider relative to the fastener elements and 'means carried by the pull tab whereby the said two parts may be moved relative to each other upon a predetermined movement of the pull tab.

5. A slider for a multiple operated fastener installation having spaced top and bottom portions in combination with means providing diverging channels between them for engaging and disengaging fastener elements on the edges of adjacent stringers as they pass through the slider, one of said portions being divided into 'two parts, one of' said parts being fixed relative to the other portion of the slider and the other part being movably attached to the iixed part so that it can be moved in a plane parallel to the plane of the stringers outof operating position to free the slider from the fastener elements on one Stringer.

6. A slider for a multiple operated fastener installation having spaced top and bottom portions in combination with means providingdiverging channels between them for engaglng and disengaging fastener elements on the edges of adjacent stringers as they pass through the slider, one of said portions being divided into two parts, one of said parts being fixed relative to the other portion of the slider and the other part being pivotally attached to the fixed part whereby it can be moved `out of operating position to free the slider from the fastener elements on one Stringer, a loop carried by said fixed part and a pull tab pivotally connected to said loop to providefor operation of the slider, said loop having a portion spaced relatively close to the said fixed art and said pivoted part having a ange rictionally held between said portion of the loop and the Xed part to prevent accidental pivotal movement of the said pivoted part when in position for cooperatmn with the fastener elements.

7. A slider for a multiple operatedfastener installation having spaced top and bottom portions in combination with means providing diverging channels between them for engaging and disengaging fastener elements on the edges of adjacent stringers as they pass through the slider, one of said portions being divided into two parts, one of said parts being fixed relative to the other portion of the slider and the other part eing pivotally attached tol the fixed part whereby it can be moved out of operating position to free the slider from the fastener elements on one Stringer, a loop carried by said fixed part and a pull tab pivotally connected to said loop to provide for operation of the slider, said loop having a portion spaced relatively close to the said fixed art and said pivoted part having a iange ictionally held between said portion of the loop and the xed part to prevent accidental pivotal movement of the said pivoted part when in position for cooperation with the fastener elements and a projection on the pull tab adapted to engage the said ange on the pivoted part to disengage it from between the fixed part and the loop when the tab is moved in a predetermined manner relative to the slider.

8. A slider for a multiple operated fastener installation having spaced top and bottom portions in combination with means providing diverging channels between them for engaging and disengaging fastener elements on the edges of ad'acent stringers as they pass through the slider, one of said portions being divided into two parts, one of said parts being fixed relative to the other portion of the slider and the other part being pivotally attached to the fixed part whereby it can be moved out of operating position to free the slider from the fastener elements on one Stringer, a loop carried by said fixed part and a pull tab pivotally connected to said loop to provide for operation of the slider, said loop having a portion spaced relatively close to the said fixed art and said pivoted part having a flange rictionally held between said portion of the loop and the fixed part to prevent accidental pivotal movement of the said pivoted part when in position for cooperation with the fastener elements, a projection on the pull tab adapted to engage the said flange on the pivoted part to disengage it'from between the fixed part and the loop when the tab is moved in a predetermined manner relative to the slider and means providing a lost motion connection between the pull tab and the loop thereby to permit said pull tab to be reciprocated in a plane parallel to the divided portion and permit said projection to move said pivoted part laterally by pressing against said flange.

GUSTAV JOHNSON.

ITO

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