US2864146A

US2864146A - Automatic spring pin lock slider operatable from both sides

Info

Publication number: US2864146A
Application number: US419241A
Authority: US
Inventors: Louis H Morin
Original assignee: Individual
Current assignee: Individual
Priority date: 1954-03-29
Filing date: 1954-03-29
Publication date: 1958-12-16
Anticipated expiration: 1975-12-16

Description

Dec. 16, 1958 H. MORIN AUTOMATIC SPRING PIN LOCK SLIDER OPERATABLE FROM BOTH SIDES 2 Sheets-Sheet 1 Filed March 29, 1954 OR MORIN INVENT If: H.

LOU

ATTORNEY Dec. 16, 1958 H. MORIN' 2,864,146

MATIC SPRING PIN LOCK AUTO SLIDER OPERATABLE FROM BOTH SIDES Filed March 29, 195% 2 Sheets-Sheet 2 INVEN LOU 5 H. MO

TORNEY United States Patent AUTOMATIC SPRING PIN LOCK SLIDER OPERATABLE FROM BOTH SIDES Lonis H. Morin, Bronx, N. Y.

Application March 29,1954, Serial No. 419,241

16 Claims. (Cl. 24-205.14)

This invention relates-to sliders for use in connection with separable fastenerstringers to coupleand uncouple the stringers. More particularly, the invention deals with sliders of this type and kind, having means on) opposed surfaces of the slider for actuating the slider. and, particularly, in movement of the lock elem'entof the. slider into inoperative position for movement of thelslider along the stringers.

Still more particularly, the invention deals with a lock slideremploying a spring actuated lock element for automatically moving the lock element into operative position.

The novel features of the invention will be best understood from the following description, when taken together with the accompanying drawing, inwhich certain embodiments of the invention areidsclosed and, in. which, the separate parts are designatedby suitable reference charactersin each of the views and, in which:

Fig. 1 is a large face view of.one;side of one form of slider which I employ, illustrating the lock element of the slider in operative position.

Fig. 2 is a section on the irregular line 2-2 of Fig. 1 with part ofthe constructionshown in elevation and with other parts broken away.

Fig. 3 is a view, similarto Fig. 1, of the opposed side of the slideron a materially .reduced scale.

Fig. 4 is a view, similar to Fig. 2, on a reduced scale showing a modified form of=construction and showing onlya part of the .sliderstructure.

Fig. 5 is a perspective view ofa modified-form of slider which I employ;

Fig. 6 is a view, similar to Fig. 1, showing only part of the slider and showing a modification, the view looking in the direction of the arrow 6 of .Fig. 8.

Fig. 7 is a view, similar to Fig. 6, but looking in the direction of thearrow' 7 of Fig. 8; and

Fig. 8 is a section on'the line 8-8 of Fig. 7 with part of the construction shown in elevation.

In Figs. 1 to 3,.inclusive, I have shown one form of automatic spring pin lock slider which I employ, having means at opposed side surfaces of the slider controlling operation of the spring pin lock mechanism employed. In these figures," 10 represents a slider body defined by spaced walls Hand 12 integrally joined at the wide end of the slider in a connectingweb 13, as clearly noted in Fig. 2 of the drawing. The

walls

11 and 12 have inwardly directed side flanges Hand 15, respectively, which define the channel 16-of' the slider body, the web 13 dividing the channel at the wide end of the body, as with other devices of this type. and kind.

The wall 11 has a pair ofoutwardly extending bearings 17, note Fig. 1, in which'is mounted. a pivot pin 18,- upon which a pull 19ais pivoted. The pull 19, around the pin 18, has a hood 20 with a sufficiently large recess 21 to receive a coil spring 22, the latter being mounted on the pin 18; One end 23 .of the spring seats in a recess on the inner surface 24 of the pull 19; whereas, the other end 25 of .the spring tits. in an aperture 26 in the wall 11, as clearly noted in Fig. 2 of, the drawing. serves to normally support a projecting pin or lock ele- The spring 22:

ment 27 of the pull 19 in operative position, that is to say, to extend into the channel 16 through an aperture 28 in the wall 11 of the slider.

The wall 11 of the slider also has another transverse recess 29, in which the hood 21] is adapted to extend when the pull 19 is swung outwardly into operatable position, in which position the lock element 27 is withdrawn from the channel 16. The hood 20 has an extending wall 30 at its free edge, which extends into the recess 29, as clearly noted in Fig. 2 of the'drawing.

The web 13 of the slider has a transverse aperture 31, in which a pin 32 is mounted. The pin 32, outwardly of the wall 12, has an elongated fingerpiece 33, which extends longitudinally of the wall within the environment thereof, as noted in Fig. 3 of the drawing. The fingerpiece 33 facilitates rotation of the pin 32 for actuation of the pull 19 in movement thereof into position withdrawing the lock element 27 from the channel 16. This operation is accomplished through the medium of a double cam 34 mounted on the other square end 35 of the pin'32. The cam 34 is generally of the contour seen in Fig. 1 of the drawing andha'srounded

ends

36 and 37, which are adapted to operatively engage the wall 30.

The wall 11 has another recess 38 opening into the recess 29 and the cam 34 operates in the recess 38, as clearly noted in .Fig. 2 of the drawing.

From this structure, it will appear that, by rotating the finger piece 33 in either direction, as indicated by the arrows of Fig. 3, the

rounded ends

36 and 37 of the cam 34- will be correspondingly rotated to move in the directions of the arrows indicated in Fig. 1 in applying pressure to the wall 30 to swing the pull 19 outwardly against the action of the spring 22 in Withdrawing. the lock element 27 from the channel 16 of the slider. The fingerpiece 33, as well as the pull 19, may be utilized in operat ing the slider in both directions along separable fastener stringers in coupling and uncoupling the same.

In Fig. 4 of the drawing, I have shown a slight modification of the structure shown in Figs. 1 to 3, wherein, instead of using a solid elongated fingerpiece 33, a loop 33' is employed and constitutes part of one end of a pin 32, similar to the pin 32, 12' representing a slider wall, similar to the .wall 12. With the elongated loop 33 is coupled a fingerpiece ring or other member 39, which can be utilized inrotation of the pin 32, as well as in moving the slider 10' along a pair of stringers. slight modification, the structure of the slider 10'. will be the same as the slider 10 shown in Figs. 1 to 3, inclusive.

In Fig. 5 of the drawing, I have shown at 16" another slider, similar to the slider 10, and at 33. I have shown another form of ring or loop mounted on the end of a pin 32", similar to thepin 32. In Fig. 5 of the drawing, the ring or loop 33" extends transversely of the wide end of the slider and coupled therewith is one looped end 40 of a fingerpiece strap 41, the other end of the strap also preferably having a looped end 42, as clearly noted in the drawing. Here again, the slider is actuated in the same manner as the slider shown in Figs. 1 to 3, as well as in Fig. 4 of the drawing.

In Figs. 6 to 8, inclusive, I have shown another form of slider construction and, referring to Fig. 8, 43 shows a slider body having spaced

walls

44 and 45, generally similar to the

walls

11 and 12,.andjoined at one end by a connecting web 46, apertured, as seen at 47, to receive a transverse pin 48. The pin 48 differs from the pin 32 in having two

square ends

49 and 59, on which are mounted

single cams

51 and 52, respectively.

At 53 and 54 are shown two pulls, substantially the same as the pull 19, both pulls being actuatedbysprings 55 and 56, respectively. The pull 53 is substantially identical with the pull 19- in having. a lock element 57 extending into the slider body, similar to the element 27;

Aside from this whereas, the pull 54 does not have the lock element. Further, the pull 54 has a modified form of hood 58 at its pivot end, the hood 58 having a projecting cam surface 59, note Fig. 7, for operatively engaging an offset finger portion 60 on the cam 52. In other Words, when the pull 54 is moved into raised position with respect to the wall 45, the cam surface 59 will actuate the cam 52 in the direction of the arrow 61, Fig. 7, which, in turn, will rotate the cam 51 in the direction of the arrow 62, Fig. 6, to cause the pull 53 to be swung into outward or raised position with respect to the wall 44 in withdrawing the lock element 57 from operative position in the slider body.

In connection with the operation of the slider shown in Figs. 6 to 8, inclusive, it will be apparent that, when the pull 53 is manually operated and swung into the outward position in retracting the lock element 57, no action is contributed to the opposing pull 54; in other words, the pull 53 simply performs its normal function and the pull 54 simply remains idle.

It will be apparent that the slider wall 45 has a recess 63 for reception of the hood 58 when the pull 54 is moved into raised position. As the structure of the wall 44 of the slider body 43 is identical with the recessing of the wall 11 of the slider 10, no further detailed description of this part of the slider structure is deemed to be necessary.

Considering Fig. 8 of the drawing, it will be seen that the

cams

51 and 52 operate in

recesses

64 and 65 in opposed surfaces of the slider body, these recesses being also noted in Figs. 6 and 7 of the drawing, both recesses being of a contour generally conforming to the contour of the cams employed. In this respect, the recess 64 differs from the contour of the recess 38 of Fig. 1 of the drawing.

With the different forms of slider structures shown, the slider may be operated from both sides of the slider body and, in both directions, the lock element of the slider can be moved into inoperative position to free the slider for movement along the stringers. In all forms the pull having the lock pin or element may be grasped and moved without affecting the operating means on the opposite slider wall.

Having fully described my invention, what I claim as new and desire to secure by Letters Patent is:

1. A lock slider for separable fastener stringers, comprising a slider body defined by spaced walls joined and spaced by a connecting web at one end of the slider body, said walls having inwardly directed flanges defining a channel in the slider body, a spring actuated pull pivoted on one wall of the slider body, said wall of the slider body having an aperture opening into the channel of the slider body adjacent the pivot of said pull, the pivot end portion of the pull having a lock element normally extending into the channel of the slider body through said aperture, a rotatable pin extending through the web, a cam on the end of the pin disposed at the first named wall and operatively engaging said pull, and manually rotatable means fixed to the other end of said pin for actuating said pin and cam and thereby move pull and withdraw the said lock element from the channel of the slider body.

2. A lock slider according to claim 1 in which said manually rotatable means comprises an elongated loop.

3. A lock slider for separable fastener stringers, comprising a slider body defined by spaced walls joined and spaced by a connecting web at one end of the slider body, said walls having inwardly directed flanges defining a channel in the slider body, a spring actuated pull pivoted on one wall of the slider body, said wall of the slider body having an aperture opening into the channel of the slider body adjacent the pivot of said pull, the pivot end portion of the pull having a lock element normally extending into the channel of the slider body through said aperture, a rotatable pin extending through the web, a cam on the end of the pin disposed at the first named wall a d operatively engaging said pull, a second cam on the other end of said pin for actuating said pin and first cam, a second spring actuated pull pivoted to the other wall of the slider body and operatively engaging said second cam, and said second cam being actuatable by movement of the second pull to rotate said pin and first cam, thereby moving the first pull and withdrawing the lock element from said channel.

4. A lock slider according to claim 3 in which said second pull has a cam surface operatively engaging the second cam.

5. A lock slider according to claim 4 in which the walls of the slider body are recessed to receive said cams.

6. A lock slider according to claim 5 in which the walls of the slider body are recessed to receive the pivot end portions of the pulls.

7. A lock slider for separable fastener stringers, comprising a slider body defined by spaced walls joined and spaced by a connecting web at one end of the slider body, said walls having inwardly directed flanges defining a channel in the slider body, a spring actuated pull pivoted on one wall of the slider body, said wall of the slider body having an aperture opening into the channel of the slider body adjacent the pivot of said pull, the pivot end portion of the pull having a lock element normally extending into the channel of the slider body through said aperture, a rotatable pin extending through the web, a cam part on the end of the pin disposed at the first named wall and operatively engaging the pivot end portion of said pull, movable means on the other end of said pin for actuating said pin and cam part, said cam part having a pair of cam end portions both operatively engaging the pivot end portion of the pull, and said means, on being moved in either direction, acting to rotate the pin and actuate said cam part to move the pull, thereby withdrawing the lock element from the channel of the slider body.

8. In sliders for separable fastener stringers, comprising a channelled slider body having a spring actuated pull pivoted at one end portion to one wall of the slider body, said pull including a lock element normally held in operative position in the channel of the slider body, the pivot end portion of the pull having an extended part, the pivot of said pull being disposed between said lock element and said extended part, a rotatable pin arranged transversely of the slider body and having ends exposed through opposed walls thereof, a cam fixed to one end of the pin and operatively engaging the extended part of said pull, and the other end of said pin having means for rotating the pin to actuate said cam, said cam on actuation engaging and moving said extended part, thereby to move the pull about its pivot and move the lock element from the channel of the slider body.

9. In sliders for separable fastener stringers, comprising a channelled slider body having a spring actuated pull pivoted at one end portion to one wall of the slider body, said pull including a lock element normally held in operative position in the channel of the slider body, the pivot end portion of the pull having an extended part, the pivot of said pull being disposed between said lock element and said extended part, a rotatable pin arranged transversely of the slider body and having ends exposed through opposed walls thereof, a cam fixed to one end of the pin and operatively engaging the extended part of said pull, the other end of said pin having means for rotating the pin to actuate said cam, said cam on actuation engaging and moving said extended part, thereby to move the pull about its pivot and move the lock element from the channel of the slider body, said cam being arranged in a recess in said one Wall, and said one wall also having a recess to receive the pivot end portion of the pull.

10. In sliders for separable fastener stringers, comprising a channelleg slider body having a spring actuated pull pivoted to one wall of the slider body, said pull including a lock element normally held in operative position in the channel of the slider body, the pivot end portion of the pull having an extended part, a rotatable pin arranged transversely of the slider body and having ends exposed through opposed walls thereof, a cam fixed to one end of the pin and operatively engaging the extended part of said pull, the other end of said pin having means for rotating the pin to actuate said cam, said cam on actuation erving to move the pull about its pivot, thereby moving the lock element from the channel of the slider body, said cam being arranged in a recess in said one wall, said wall also having a recess to receive the pivot end portion of the pull, said pin-rotating means including a spring actuated pull pivoted to the other wall of the slider body, and said other Wall being recessed to receive the pivot end portion of the second named pull.

ll. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of spaced walls joined by a connecting web at one end thereof, a spring-actuated pull pivoted at one end portion thereof to one wall of the slider, said pivot end portion of the pull comprising a housing for said spring, an extension on said housing, said pull having a lock element normally disposed in slider locking position, the pivot of said pull being disposed between said lock element and said extension, a rotatable pin extending through said web and disposed substantially normally to said walls, a cam on one end of the pin operatively engaging the extension on said pull, manually movable means on the wall of the slider opposite said cam and operatively associated with the other end of said pin, said one wall being recessed to receive said cam and the pivot end portion of the pull, and said means, on being moved, serving to rotate said pin and actuate said cam to move said extension, thereby to move the pull and the lock element thereof from slider locking position.

12. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of spaced walls joined by a connecting web at one end thereof, a spring-actuated pull pivoted at one end portion thereof to one wall of the slider, said pivot end portion of the pull comprising a housing for said spring, an extension on said housing, said pull having a lock element normally disposed in slider locking position, the pivot of said pull being disposed between said lock element and said extension, a rotatable pin extending through said web and disposed substantially normally to said walls, a cam on one end of the pin, said cam having a pair of cam end portions engageable with the extension on said pull, manually rotatable means on the Wall of the slider opposite said cam and fixed to the other end of said pin, said one wall being recessed to receive said cam and the pivot end portion of the pull, and said means, on being rotated in either direction, serving to rotate said pin and actuate said cam to move said extension, thereby to move the pull and the lock element thereof from slider locking position.

13. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of space-d walls joined by a connecting web at one end thereof, a spring-actuated pull pivoted at one end portion thereof to one Wall of the slider, said pivot end portion of the pull comprising a housing for said spring, an extension on said housing, said pull having a lock element normally disposed in slider locking position, a rotatable pin extending through said web and disposed substantially normally to said walls, a cam on one end of the pin operatively engaging the extension on said pull, a second cam on the other end of said pin, a second spring-actuated pull pivoted at one end portion thereof to the other wall of the slider adjacent said second cam, the pivot end portion of the second pull having a cam surface operatively engaging the second cam, both walls of the slider being recessed to receive said cams, both walls also being recessed to receive the pivot end portions of the pulls, and said second pull, on being moved, serving to actuate the second cam which in turn acts to rotate said pin so as to enable the first cam to actuate the first pull and unlock the slider.

14. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of spaced walls joined by a connecting web at one end thereof, a spring-actuated pull pivoted at one end por tion thereof to one wall of the slider, said pull having a housing for said spring at said pivot end portion, an extension on said housing, a lock element on said pull, the pivot of the pull being disposed between said extension and said lock element, said pull in the normal slider locking position thereof having the other end portion thereof extending beyond the end of said slider Walls which is remote from said one end and so as to dispose said lock element in slider locking position, said pull being manually movable against the action of said spring so as to extend said other end portion thereof toward said one end of the slider walls and to move the lock element out of slider locking position, a rotatable pin extending through said Web, a cam on one end of the pin rotatable therewith and operatively engaging the extension on said pull, manually movable means secured on the slider wall opposite said ca m and operatively associated with the other end of said pin, said means being movable to rotate said pin and cam and, in turn, to move the pull about said pivot by the engagement of the cam with said extension, said pull being thereby movable to move the lock element out of slider locking position.

15. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of spaced walls joined by a connecting web, a springactuated pull pivoted to one wall of the slider, an extension on said pull disposed on one side of the pivot thereof, a lock element on the pull disposed on the other side of said pivot, said pull being normally disposed so that the lock element thereof is in slider locking position and being movable about said pivot to withdraw the lock element from slider locking position, a rotatable pin extending through said web, a cam on one end of the pin rotatable therewith to engage and move said extension, thereby to move said pull and to withdraw the lock element from slider locking position, and manually movable means on the slider Wall opposite said cam and operatively connected to the other end of said pin for rotating the latter.

16. A lock slider for separable fastener stringers capable of being unlocked from either side comprising a pair of spaced walls joined by a connecting web, a springactuated pull pivoted to one wall of the slider, a lock element on the pull disposed at one side of said pivot, said pull being normally disposed so that the lock element thereof is in slider locking position and being movable about said pivot to withdraw the lock element from slider locking position, a rotatable pin extending through said web, interengageable means on one end of the pin and on said pull at the other side of said pivot, said means being adapted to move the pull about said pivot on rotation of the pin, and manually movable means on the slider Wall opposite said one wall and operatively connected to the other end of said pin for rotating the latter.

References Cited in the file of this patent UNITED STATES PATENTS 2,178,949 Brozek Nov. 7, 1939 2,405,875 Carlile Aug. 13, 1946 r 2,405,883 Gould Aug. 13, 1946 2,520,326 Morin Aug. 29, 1950 2,634,486 Morin Apr. 14, 1953 FOREIGN PATENTS 687,187 Germany of 1940