US3744099A

US3744099A - Safety pin

Info

Publication number: US3744099A
Application number: US00167923A
Authority: US
Inventors: H Mccoy
Original assignee: Individual
Current assignee: Individual
Priority date: 1971-08-02
Filing date: 1971-08-02
Publication date: 1973-07-10
Anticipated expiration: 1990-07-10

Abstract

There is disclosed a safety pin having a keeper thereon for captivating the pin in a closed configuration. The keeper is constructed to receive the point through a one-way entry and to release the point through a one-way exit. Means are provided to cam the pin laterally following its passage through the one-way exit.

Description

United States Patent 1 1 1111 3,744,099

Mc y 1 1 Jul 10, 1973 SAFETY PIN 984,409 2 1911 Wright 24/156 R nto rgmf cg lMgcoy U20 Lonewocd 3,052,938 9/l962 Hlll et al. 24/l6l R Circle DallaSTex' 75218 Primary Examiner-Bemard A. Gelak [22] F1led: Aug. 2, 1971 Assistant Examiner-Kenneth J. Dorner [21] APPL 167,923 Attorney-G. Turner Moller 52 us. c1 24/156 R, 24/150 SP, 24 161 R [57] ,ABSTRfACT 51 1m. 01 A44b 9/12 There 18 dlsclosed a safety p having a keeper thereon [58] Field of Search 24/156 R, 156 P, for Captivating the p in a closed nfigu ati n- The 24 155 p 1 1 R, 1 1 A, 150 p keeper is constructed to receive the point through a one-way entry and to release the point through a one- [56] Referen Ci d way exit. Means are provided to cam the pin laterally following its passage through the one-way exit.

9 Claims, 7 Drawing Figures PAIENIED I 1 1 FIG. 5

FIG. 4

FIG. 3

FIG.2

R mY o C vc m M S E C A R O H FIG. 6

ATTORNEY FIG.7

SAFETY PIN BACKGROUND OF THE INVENTION Since the initial development of the safety pin, most of the proposed improvements have been to the keeper and have either been directed to providing simpler means for captivating the pin or to providing foolproof means for retaining the pin in the captivated or closed position. The common safety pin now readily available is relatively easy to close and open. Its ease of opening presents a serious disadvantage for some uses, such as pinning diapers on infants. In this particular application, safety pins have been developed and are now widely used which cannot be readily opened and accordingly afford a measure of assurance that the infant will not be injured by an inadvertently opened pin.

This latter type of safety pin generally requires the pin to be depressed in the keeper and then moved laterally through a slot therein in order to open the safety pin. Although safety pins of this type afford some assurance against inadvertent opening, they are somewhat difficult to open and close, particularly when diapering a squirming infant.

The safety pin of this invention affords easy closing, almost complete assurance against inadvertent opening and easy intentional opening.

Of interest with respect to this invention are the disclosures in US Pat. Nos. 362,780 and 2,604,681.

BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is an isometric view of the safety pin of this invention illustrated in the closed position;

FIG. 2 is a cross sectional view of the safety pin of FIG. 1 taken substantially along line 22 thereof illustrating the first step in the sequence of closing the safety pin;

FIG. 3 is a view similar to FIG. 2 illustrating the pin in the closed position;

FIG. 4 is a view similar to FIGS. 2 and 3 and illustrates the opening of the safety pin;

FIG. 5 is a cross sectional view, similar to FIG. 2, of another embodiment of the invention;

FIG. 6 is a cross sectional view, similar to FIG. 2, of another embodiment of the invention; and

FIG. 7 is a view similar to FIG. 6 illustrating the opening of the safety pin.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 1, the safety pin of this invention comprises as major components a suitable pin framework 12 and a keeper 14. The pin framework 12 may be of any suitable design and conveniently comprises a base 16, a pin 18 having a point thereon and means 20 biasing the pin 18 away from the base 16. The pin framework 12 is-conveniently made by selecting a suitable wire, forming a loop therein providing the biasing means 20, folding the base 16 and pin 18 into a generally coplanar configuration and sharpening the end of the pin 18.

The keeper 14 is affixed to thebase l6 and may be of any suitable material although, for convenience of manufacture, it is preferred to mold an organic polymeric resin to the base 16. The keeper 14 comprises a rigid base 22 affixed to the base 16 of the pin framework 12. Extending from the keeper base 22 generally toward the pin 18 is a support 24 which carries the movable components of the keeper 14. The keeper 14 includes five operating elements: a one-way entrance 26 into the keeper 14, means 28 for holding the pin 18 against movement by the biasing means 20, a one-way exit 30 from the keeper 14, an abutment 32 affording a limit of movement of the pin 18 toward the base 16 and means 34 for camming the pin 18 laterally away from the keeper 14 upon self-biased movement of the pin 18 away from the base 16.

The one-way entrance 26 is provided by a pair of

lips

36, 38 comprising part of a pair of

walls

40, 42, respectively, which project from the support 24. Because of the inherent resilience of the material of the keeper 14, the

lips

36, 38 are biased together and provide an exterior surface diverging away from the base 16. As the pin 18 is externally biased toward the keeper l4 and passes into engagement with the

lips

36, 38, they deflect laterally to allow passage of the pin 18. After the pin 18 passes through the entrance 26, the

lips

36, 38 return to their normal closed position.

Referring to FIG. 3, the release of an externally applied bias to the pin 18 causes the loop 20 to force the pin 18 away from the base 16. The pin 18 accordingly may engage one of the

lips

36, 38 and may thus facilitate closing of the entrance 26. For this reason, it is preferred that one of the lips be slightly longer to overlap as shown in FIG. 3 which effectively precludes the pin 18 from inadvertently passing through the entrance 26 under the force applied by the biasing means 20. Since the underside of the

lips

36, 38 present an upwardly diverging surface, it will be seen that they facilitate shifting of the pin 18 laterally out of a path of externally biased movement between the entrance 26 and the exit 30 upon release of the external biasing force.

The

keeper walls

40, 42 provide a retention chamber 44 for securing the pin 18 in the closed position. Since the pin 18 is biased away from the base 16, the pin 18 tends to assume that position in the chamber 44 which is furthest from the base 16. Since the chamber 44 includes portions further from the base 16 than the entrance 26, it will be readily apparent that the pin 18 is self-biased to a position where it cannot pass in the opposite direction through the entrance 26.

The lower inside surfaces of the

walls

40, 42 converge so that externally biasing the pin 18 toward the base 16 laterally shifts the pin 18 toward the exit 30. The exit 30 is provided by a pair of

lips

46, 48 comprising part of the

walls

40, 42, respectively. The

lips

46, 48 are biased together and open upon engagement with the pin 18. After the pin 18'passes through the exit 30, the

lips

36, 38 close because of the inherent resilience thereof. The

lips

46, 48 preferably overlap in much the same manner as the

lips

36, 38 to prevent the pin 10 from backing up through the exit 30. The pin 18 may come in contact with the abutment 32 thereby preventing further movement of the pin 18 toward the base 16. Release of the external biasing force from the pin 18 allows it to move away from the base 16 under the impetus provided by the biasing means 20. In so doing, the pin 18 engages the outer surface of one of the

walls

40, 42 which act as the camming means 34 to shift the pin 18 laterally for continued self-biased movement toward the open position.

In summary, to close the safety pin 10, an individual forces the pin 18 directly toward the keeper 14 as suggested in FIG. 2. The pin 18 passes through the oneway entrance 26. The force applied by the user is released and the pin 18 is captivated in the chamber 44 as shown in FIG. 3. To open the safety pin 10, the individual again forces the pin 18 toward the base 16. The

. pin 18 passes through the exit 30 and, upon release of the force, the pin 18 is cammed laterally and moves to the open position because of the bias applied by the loop 20.

Referring to FIG. 5, there is illustrated a safety pin 110 comprising another embodiment of this invention. For purposes of brevity, analogous reference characters are used to designate substantially identical parts with only the differences being specifically discussed. There is a tendency when one closes the safety pin for the first time to press too hard on the pin 18 and thereby pass it through the entrance 26, the chamber 44 and through the exit 30 so that closure of the safety pin 10 is not accomplished. This is not deemed to be a serious problem since it occurs only infrequently and usually only the first few times the safety pin 10 is used. To facilitate avoiding this problem, the safety pin 110 is provided with an abutment 150 in the pin retaining chamber 144 in the path of externally biased movement between the entrance 126 and the exit 130. The abutment 150 is conveniently illustrated as circular and extends from the support 124 and is an integral part thereof.

The safety pin 110 is closed in substantially the same manner as the safety pin 10. The user forces the pin 118 toward the keeper 114. The pin 118 engages the

lips

136, 138 and passes through the entrance 126. The pin 118 then contacts the abutment 150 and the user consequently realizes that the pin 118 is in the chamber 144 and that the external biasing force may be released. The opening of the safety pin 110 is likewise substantially identical to the opening of the safety pin 10. The user biases the pin 118 toward the base 116 whereupon the pin 118 engages the internal surface of the

walls

140, 142 and is thereby guided toward the exit 130. To prevent the pin 118 from hanging up on the abutment 150, the edges thereof are conveniently rounded. After the pin 118 passes through the exit 130, it may engage the abutment 132. The external biasing force is then relaxed to allow the pin 118 to move away from the base 116. During this self-biased movement, the pin 118 contacts the camming means 134 and is laterally shifted for continued movement toward the open position.

Referring to FIGS. 6 and 7, there is illustrated a safety pin 210 comprising another embodiment of this invention. For purposes of brevity, analogous reference characters are used to designate substantially identical parts with only the differences being specifically discussed. An analysis of the embodiments of FIGS. 1-5 reveals two features which avoid inadvertent opening of the safety pin. The first is the distance that the pin must move toward the base. The second is that the pin must spread the lips constituting the one-way exit thereby requiring a greater force than is necessary merely to move the pin against the spring 20. To provide additional assurance against inadvertent opening, the safety pin 210 is provided with a channel 252 of smaller cross section than the pin 218 thereby requiring that the wall 242 be spread during opening.

The additional major change in the embodiment of FIGS. 6 and 7 is that the base 222 is greatly enlarged thereby reducing the volume of the pin receiving chamber. The abutment 250 may comprise part of the base 222 and is thereby substantially more rigid and less subject to breaking.

The safety pin 210 is closed in substantially the same manner as the safety pins of FIGS. 1-5. The user forces the pin 218 toward the keeper 214. The pin 218 engages the lip 238, which is self-biased against the base 222, and passes through the one-way entrance 226. The pin 218 then contacts the abutment 250 and the user consequently realizes that the pin 218 is in the chamber 244 and that the external biasing force may be released. The pin 218 is upwardly biased by the spring into the uppermost portion of the chamber 244.

To open the safety pin 210, the pin 218 is forced toward the base 216 and moves, against the bias of .the spring, into the channel 252 as shown in FIG. 7. The channel 252 is slightly narrower than the diameter of the pin 218 so that the wall 242 must be flexed in order to pass the pin 218 through the channel 252. The channel 252 preferably narrows further adjacent the lip 248 to require a substantial force to open the one-way exit 230. After the pin 218 passes through the exit 230, it may engage the abutment 232. The external biasing force is then released to allow the pin 218 to move away from the base 216. During this self-biased movement, the pin 218 contacts the camming means 234 and is laterally shifted for continued movement toward the open position.

It will be apparent that the safety pin of this invention affords almost complete assurance that the pin will remain in the closed position. The restricted one-way exit and particularly the restricted channel require that deliberate effort be made to open the pin. The safety pin of this invention provides almost complete assurance against inadvertent opening and yet is easier to close and easier to open intentionally than either the diaper type safety pin or the common safety pin now presently used.

It will accordingly be seen that there is herein provided an improved safety pin having all of the objects of this invention and others as will be apparent to those skilled in the art.

I claim:

1. A safety pin comprising a base, a pin, means mounting the pin for self-biased movement away from the base toward an open position and for externally biased movement toward the base toward a closed position, and a keeper connected to the base for releasably securing the pin in the closed position, the keeper comprising means defining a path of externally biased pin movement through the keeper including a one-way entrance, a pin retaining chamber in pin receiving relation to the entrance, and a one-way exit from the chamber, the one-way entrance and the one-way exit being aligned in the path of externally biased pin movement;

an abutment, in the pin retaining chamber, between the entrance and exit for blocking externally biased pin movement directly from the entrance to the exit;

means adjacent the exit affording a limit of externally biased pin movement toward the base; and

means adjacent the limit means for laterally deflecting the pin out of the path of externally biased movement for self-biased movement toward the open position.

2. The safety pin of claim 1 wherein the one-way exit comprises a resilient means diverging toward the chamber and defining therebetween an exit slot.

3. The safety pin of claim 2 wherein the resilient means comprises an abutment and a resilient lip biased theretoward and openable upon movement of the pin toward the base.

4. The safety pin of claim 2 wherein the resilient means comprises a pair of lips biased together and openable upon movement of the pin toward the base.

5. The safety pin of claim 4 wherein the lips overlap.

6. The safety pin of claim 1 wherein the path defining means comprises a pair of walls having exterior surfaces diverging away from the base from adjacent the limit means, the diverging external surfaces comprising the lateral deflecting means.

7. The safety pin of claim 6 wherein the internal surthe lateral deflecting means.

Claims

1. A safety pin comprising a base, a pin, means mounting the pin for self-biased movement away from the base toward an open position and for externally biased movement toward the base toward a closed position, and a keeper connected to the base for releasably securing the pin in the closed position, the keeper comprising means defining a path of externally biased pin movement through the keeper including a one-way entrance, a pin retaining chamber in pin receiving relation to the entrance, and a oneway exit from the chamber, the one-way entrance and the one-way exit being aligned in the path of externally biased pin movement; an abutment, in the pin retaining chamber, between the entrance and exit for blocking externally biased pin movement directly from the entrance to the exit; means adjacent the exit affording a limit of externally biased pin movement toward the base; and means adjacent the limit means for laterally deflecting the pin out of the path of externally biased movement for self-biased movement toward the open position.

5. The safety pin of claim 4 wherein the lips overlap.

7. The safety pin of claim 6 wherein the internal surfaces of the walls, adjacent the one-way exit, diverge away from the base.

8. The safety pin of claim 1 wherein the path defining means includes a channel, between the pin retaining chamber and the one-way exit, of smaller cross-section than the pin; the channel being partially defined by a resilient wall deflectable by passage of the pin through the channel.

9. The safety pin of claim 8 wherein the path defining means includes the resilient wall having an exterior surface inclined away from the base from adjacent the resilient means, the inclined exterior surface comprising the lateral deflecting means.