阅读说明：本技术 系绳紧固件 (Tether fastener ) 是由 L·里奇 于 2020-03-16 设计创作，主要内容包括：用于将物品固定在一起的紧固件,如拉链(64)的拉环(67),以人体工程学的单手方式包括：门(13),门(13)布置成在关闭位置和打开位置之间滑动在主体(11)中,在关闭位置,门关闭主体中的凹槽(18)的开口(19),在打开位置,口(19)打开。在门(13)的一端的固定件(14)设置用于连接系绳(70)。闩锁构件(12)在处于锁定位置时防止门从关闭位置滑动,并弹性地推动到锁定位置,且构造成在使用中,当使用者握住主体(11)时,闩锁构件(12)被按压并移动到解锁位置,并且在具有连接到固定件的系绳(70)的解锁位置中,系绳中的张力倾向于将门滑动到打开位置。(A fastener for securing articles together, such as a pull tab (67) of a zipper (64), comprising in an ergonomic one-handed manner: a door (13), the door (13) being arranged to slide in the body (11) between a closed position in which the door closes an opening (19) of a recess (18) in the body and an open position in which the mouth (19) is open. A fixing member (14) at one end of the door (13) is provided for attaching a tether (70). The latch member (12) prevents the door from sliding from the closed position when in the locked position and is resiliently urged to the locked position and is configured such that, in use, when a user grips the body (11), the latch member (12) is pressed and moved to the unlocked position and, in the unlocked position with the tether (70) connected to the fixture, tension in the tether tends to slide the door to the open position.)

1. A fastener for securing an article, the fastener comprising:

a body including a base and a leg, the leg having a leg end, a recess between the base and the leg defining an opening extending between the leg end and the base;

a channel in the body, the channel having an axis;

a door having an open end received within the channel and a leading end, the door configured to slide between a closed position in which the door closes the opening and an open position in which the opening is open;

a fixing member at one longitudinal end of the door for connecting a tether;

a resilient member biasing the door to the closed position;

a latch member connected to the body and moving between an unlocked position and a locked position, wherein the door and the latch member are configured such that when the latch member is in the locked position, the latch member prevents the door from sliding from the closed position, and wherein

The latch member is resiliently urged to the locked position and is configured such that, in use, when a user grips the body, the latch member is depressed and moves to the unlocked position and, in the unlocked position with a tether connected to the mount, tension in the tether tends to act on the resilient member to slide the door to the open position.

2. The fastener of claim 1, wherein the leg is hook-shaped and protrudes from a longitudinal end of the fastener.

3. The fastener of claim 1 or claim 2, wherein the base comprises a pair of opposed flanges, the channel extending between the pair of opposed flanges.

4. A fastener according to any one of claims 1 to 3, wherein the aspect ratio of the channel cross-section is uniform and the outer side of the base provides the main face of the body.

5. The fastener of claim 4, wherein the latch member includes a button portion extending over one of the major faces.

6. The fastener of any one of claims 1 to 5, wherein the latch member is connected to the main body by a hinge and includes a finger that projects into the channel and abuts a shoulder on the door in the locked position.

7. The fastener of claim 6, wherein a distal end of the finger abuts the shoulder on the door in the locked position.

8. The fastener of claim 6 or claim 7, wherein the finger and button are located on the same side of the hinge, and a proximal end of the finger is spaced transverse to the axis from the distal end.

9. A fastener according to any one of claims 6 to 8, wherein the fingers project through respective first and second openings in both of the flanges.

10. The fastener according to any one of claims 1 to 9, wherein the elastic member is a helical compression spring.

11. The fastener of claim 10, wherein the helical compression spring has one end abutting the door and an opposite end abutting a retaining pin secured between the two flanges.

12. The fastener of any one of claims 1 to 11, wherein one of the channel and the gate comprises an axially elongated rib and the other of the channel and the gate comprises a complementary channel for guiding sliding movement of the gate.

13. The fastener of claim 12, wherein the rib is formed in the door and an axial slot in the rib receives the helical compression spring.

14. The fastener according to any one of claims 1 to 11, wherein the latch member is elastically urged to the lock position by a compression spring provided between the main body and the button portion.

15. An article, comprising:

a generally flexible body;

a zipper comprising a pair of stringers, two sliders and two pull loops, the stringers being secured to the generally flexible body, each slider being arranged to slide longitudinally along the stringers thereby connecting the stringers, wherein each pull loop has one end secured to a respective one of the sliders and an opposed free end formed with an eye,

a fastener as claimed in any one of claims 1 to 14, and

a tether having one end secured to the generally flexible body and an opposite end connected to a fastener of the fastener, wherein the leg is configured to slidably receive the eye of the pull ring.

16. The article of claim 15, wherein the generally flexible body is a bag and the zipper closes an opening into the bag.

17. The article of claim 15, further comprising a bag, wherein one end of the tether is secured within the bag.

18. The article of any one of claims 15 to 17, wherein the tether is retractable.

19. A method of assembling the fastener of any one of claims 1 to 14, comprising:

providing a spring compression tool having:

a shaft generally cylindrical and sized to be received in the axial slot;

a tip of a cylindrical shaft, the tip tapering toward an axial end thereof, the tip sized to be received within the axial end of the helical compression spring;

a shoulder adjacent the tip for abutting an axial end of the helical compression spring; and

a relief in the shaft and spanning the shoulder reducing the diameter dimension of the shoulder and the tip below the inner diameter of the helical compression spring;

said helical compression spring being located within an axial slot with one end of said helical compression spring abutting said door and an opposite end of said helical compression spring projecting axially from said axial slot when said door is in a closed position,

inserting a tip of the spring compression tool into the opposite end and compressing the helical compression spring;

pressing a retaining pin through a first opening in the first flange against the relief such that an end of the retaining pin prevents axial movement of the edge of the opposite end, and

the spring compression tool is removed before pressing the retaining pin through the second opening in the second flange.

Technical Field

The present invention relates to a fastener for securing an article, such as a pull tab of a slide fastener, and which may be tethered in use.

Background

In safety luggage cases, it is known to use a tether hook with a spring-closed door to secure the pull loops of the zipper together. The hook passes through the aperture of the tab. Although the zipper is not closed as safely as possible by means of, for example, a padlock securing the tabs together, this method provides sufficient security to deter inadvertent theft and has the advantage that this can be achieved very conveniently when the hook is secured to the bag by a tether which allows the hook to be easily manipulated whilst preventing the hook from being lost. However, a disadvantage of securing this type of tethering hook is two-handed operation, which is often somewhat difficult for people with limited dexterity or when wearing gloves. It is an object of the present invention to overcome or substantially ameliorate this disadvantage or, more generally, to provide an improved tether fastener.

Disclosure of Invention

According to one aspect of the present invention, there is provided a fastener for securing an article, the fastener comprising:

a body including a base and a leg, the leg having a leg end, a recess between the base and the leg defining an opening extending between the leg end and the base;

a channel in the body, the channel having an axis;

a door having an open end received within the channel and a leading end, the door configured to slide between a closed position in which the door closes the opening and an open position in which the opening is open;

a fixing member at one longitudinal end of the door for connecting a tether;

a resilient member biasing the door to the closed position;

a latch member connected to the body and moving between an unlocked position and a locked position, wherein the door and the latch member are configured such that when the latch member is in the locked position, the latch member prevents the door from sliding from the closed position, and wherein

The latch member is resiliently urged to the locked position and is configured such that, in use, when a user grips the body, the latch member is depressed and moves to the unlocked position and, in the unlocked position with a tether connected to the mount, tension in the tether tends to act on the resilient member to slide the door to the open position.

Preferably, the leg is hook-shaped and protrudes from a longitudinal end of the fastener.

Preferably, the base includes a pair of opposed flanges between which the channel extends, or alternatively, the base may include a hollow body to define the channel therein.

Preferably, the aspect ratio of the channel cross-section is uniform and the outer side of the base provides the main face of the body.

Preferably, the latch member includes a button portion extending over one of the major faces.

Preferably, the latch member is connected to the main body by a hinge and includes a finger that projects into the channel and abuts a shoulder on the door in the locked position.

Preferably, the distal end of the finger abuts the shoulder on the door in the locked position.

Preferably, the finger and button are located on the same side of the hinge, and the proximal end of the finger is spaced from the distal end transverse to the axis.

Preferably, the finger is integrally formed with the button portion.

Preferably, the fingers project through respective first and second openings in both of the flanges.

Preferably, the elastic member is a helical compression spring.

Preferably, said helical compression spring has one end abutting said door and an opposite end abutting a retaining pin secured between two of said flanges.

Preferably, one of the channel and the door comprises an axially elongated rib and the other of the channel and the door comprises a complementary channel for guiding the sliding movement of the door.

Preferably, the rib is formed in the door and an axial slot in the rib receives the helical compression spring.

Preferably, the latch member is elastically urged to the locking position by a compression spring provided between the main body and the button portion.

In another aspect, the present invention provides an article comprising:

a generally flexible body;

a zipper comprising a pair of stringers, two sliders and two pull loops, the stringers being secured to the generally flexible body, each slider being arranged to slide longitudinally along the stringers thereby connecting the stringers, wherein each pull loop has one end secured to a respective one of the sliders and an opposed free end formed with an eye;

a fastener, said fastener being as described above; and

a tether having one end secured to the generally flexible body and an opposite end connected to a fastener of the fastener, wherein the leg is configured to slidably receive the eye of the pull ring.

Preferably, the article is a bag and the zipper closes an opening into the bag. In addition, the article may be a tent, a cover, footwear, clothing, or any other article with a zipper that a user wishes to secure.

Optionally, the article comprises a bag, one end of the tether being secured within the bag.

Optionally, the tether is elastically retractable, for example, to retract the fastener toward or into the bag.

In a further aspect, the present invention provides a method of assembling a fastener as described above, comprising:

providing a spring compression tool having:

a shaft generally cylindrical and sized to be received in the axial slot;

a tip of a cylindrical shaft, the tip tapering to an axial end thereof, the tip sized to be received within the axial end of the helical compression spring;

a shoulder adjacent the tip for abutting an axial end of the helical compression spring; and

a relief in the shaft and spanning the shoulder reducing the diameter dimension of the shoulder and the tip below the inner diameter of the helical compression spring;

said helical compression spring being located within an axial slot with one end of said helical compression spring abutting said door and an opposite end of said helical compression spring projecting axially from said axial slot when said door is in a closed position,

inserting a tip of the spring compression tool into the opposite end and compressing the helical compression spring;

pressing a retaining pin through a first opening in the first flange against the relief such that an end of the retaining pin prevents axial movement of the edge of the opposite end, and

the spring compression tool is removed before pressing the retaining pin through the second opening in the second flange.

Preferably, the retaining pin comprises a wedge-shaped protrusion for locking with an inner surface of the flange.

Preferably, the relief portion comprises a relief surface substantially parallel to the axial-radial plane, wherein the relief surface intersects a tapered surface that tapers at an acute angle relative to the axis.

The present invention provides a fastener that is ergonomic and effective in operational use because it can be used with one hand by a person with limited dexterity and it has a simple overall design that minimizes manufacturing costs.

Drawings

Preferred forms of the invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is an exploded view of a fastener according to the present invention;

FIG. 2 is an end view of the latch member of the fastener shown in FIG. 1;

FIG. 3 is a perspective view of the fastener shown in FIG. 1 when assembled;

FIG. 4 is an assembled perspective view of the fastener shown in FIG. 1, shown in partial cross-section in a central longitudinal plane;

FIG. 5 is a perspective view of the fastener shown in FIG. 1 partially assembled and the spring compression tool;

FIG. 6 is a side view of the spring compression tool shown in FIG. 5;

FIGS. 7-9 are perspective, partially cut-away views of the assembly of the fastener shown in FIG. 1, showing successive steps in the opening of the fastener;

FIG. 10 is a perspective view of the fastener shown in FIG. 1 attached to a bag by a tether;

fig. 11 is an enlarged view of detail a of fig. 10.

Detailed Description

Referring to fig. 1 to 6, a fastener 10 for securing an article includes a body 11 and a door 13 slidably received within the body 11. The latch member 12 is connected to the door 13 for preventing or allowing the main body 11 to slide with respect to the door 13, and the door 13 includes a fixing piece 14 for connecting a tether 70 through which the fastener 10 can be opened.

The body 11 includes a base 15 and a leg 16, the leg 16 may be hook-shaped and projects outwardly from a first longitudinal end 17 of the base 15. The recess 18 between the base 15 and the leg 16 has an opening 19 extending between one end 20 of the leg 16 and the base 15. The base 15 may include a first flange 21 opposite a substantially identical second flange 22, connecting the web portions 71 of the flanges 21, 22 on one side of the body 11. On the outer side of the first flange 21, on the main face of the first flange 21, there may be an annular groove 23 for holding at least a part of a compression spring 24. An opening 25 through the first flange 21 is provided for receiving a finger 26 of the latch member 12 (see fig. 2). Another opening 27 passes through the first flange 21 and may be oval-shaped for receiving a complementary end 28 of a retaining pin 29. The opening 27 may be disposed near the second longitudinal end 30 of the base 15. Two projections 31, 32 may extend from the second longitudinal end 30, taper longitudinally from the second longitudinal end 30 to the opposite end, and are spaced apart generally parallel, each projection having a respective aligned aperture 33, 34 for receiving a laterally extending hinge pin 35. The two projections 31, 32 may be sufficiently spaced apart laterally to receive the projection 36 of the latch member 12 therebetween.

As shown in fig. 5, the second flange 22 may include a second opening 37 through the second flange 22, the second opening 37 being coaxially aligned with the first rectangular opening 25 and likewise configured to receive the finger 26. The opening 38 in the second flange 22 may be trapezoidal shaped and complementary to the head 39 of the retaining pin 29.

The first flange 21 and the second flange 22 define a channel 40 therebetween having a longitudinal axis 41. The aspect ratio (width-depth) of the cross-section of the channel 40 may be about 1/5, i.e., substantially uniform.

The door 13 includes an open end 42 extending from a leading end 43 received in the channel 40. The door 13 is configured to slide between a closed position (fig. 3) in which the door 13 closes the opening 19, and an open position (fig. 9) in which the opening 19 is open. The open end 42 may be curved substantially tangentially to the leg end 20. In one edge of the leading end 43 is a shoulder 44. An axially elongated rib 45 may be formed in the leading end 43, and many of the ribs have axial slots 46 therein. A projection 47 may be provided at one end of the slot 46 to receive a helical compression spring 48, the compression spring 48 biasing the door 13 to the closed position.

Within the channel 40, on the inside of the flange 22, there may be a longitudinal channel (not shown) for receiving the rib 45, thereby guiding the longitudinal sliding movement while retaining the door 13. A mount 14 having transverse arms 49 is provided at the longitudinal end opposite the open end 42 of the door 13 for attachment of a tether 70. The arm 49 may be offset from the axis of the slot 46 (as shown in fig. 4), providing a space between the arm 49 and the latch member 12 through which the spring 48 may be inserted during assembly, through which a portion of a loop on the end of the tether 70 may pass to secure the tether 70.

Latching member 12 may have a button portion 50 forward of a transverse aperture 51 for receiving hinge pin 35 and a protrusion 36 rearward of aperture 51. The tab 36 may be tapered longitudinally from the aperture 51 to the opposite end to facilitate easy sliding of the fastener 10 into a pocket during use. The button 50 covers a substantial portion of the major face 72 of the flange 21 so that, when gripping the body 11, the button 50 and the opposed major face 73 of the flange 22 can be conveniently pressed between the index finger and thumb, even with a gloved hand, and in so doing inevitably unlocks the latch member 12.

On the inner surface of the button 50, the finger 26 (shown in fig. 2) may have a distal end 52 and a proximal end 53 spaced from each other transverse to the axis 41. The fingers 26 can protrude through the openings 25, 37. The bottom surface of the button portion 50 may also have an annular groove 54 (see fig. 4) that receives the compression spring 24 and helps to maintain the low profile of the assembly.

As shown in fig. 5 and 6, the fastener 10 may be assembled using a spring compression tool 55. The spring compression tool 55 includes a shaft 56, the shaft 56 being generally cylindrical and sized to be received in the axial slot 46, a tip 57 of the cylindrical shaft 56 tapering toward an axial end thereof and sized to be received within the axial end of the helical compression spring 48, a shoulder 58 adjacent the tip 57 for abutting the axial end, and a relief surface 60 on the shaft 56 spanning the shoulder 58, the relief surface 60 sizing the shoulder 58 and the tip 57 to a diameter below the inner diameter of the helical compression spring 48. The release face 60 may be aligned chordally with respect to the circular axis, i.e., generally parallel to the axial-radial plane. The relief surface 60 may intersect a tapered surface 59, the tapered surface 59 tapering at an acute angle to the axis.

To assemble the fastener 10, the door 13 may be slidably inserted into the channel 40 from the second longitudinal end 30 of the base 15 until the open end 42 of the door 13 engages the leg end 20. When the door 13 is in this closed position, the spring 48 is inserted into the axial slot 46 from the second longitudinal end 30, so that one end of the spring 48 abuts against the projection 47. The tip 57 of the spring compression tool 55 is then inserted into the opposite end, with the shoulder 58 abutting and compressing the spring 48, until the opposite end of the spring 48 passes from one side of the opening 38 to the other. The retaining pin 29 is then pressed through the opening 38 against the chordal surface of the release surface 60, thereby preventing axial movement of the spring 48. The spring compression tool 55 can then be removed before the retaining pin 29 is pressed in through the opening 27 in the first flange 21. The retaining pin 29 may include a wedge-shaped protrusion 61 on the back face for locking with the inner surface of the second flange 22 to reduce the risk of accidental disengagement of the retaining pin 29 and the base 15.

The door 13 is normally in its closed position and the latch member 12 is normally in its locked position (fig. 7). In this closed and locked condition, the button 50 is extended and the distal end 52 of the finger 26 extends into the channel 40 and abuts the shoulder 44, thereby preventing relative axial sliding movement between the body and the door 13 when it is desired to open the door 13.

To unlock and open fastener 10, a user may grasp button 50 and opposing major face 73 of flange 22 between the index finger and thumb, as indicated by the two arrows in FIG. 8. Thus, distal end 52 moves into opening 37 out of engagement with shoulder 44.

Referring then to fig. 9, in this unlocked position, the body 11 is extended against the tension in the tether 70, thereby opening the door 13, maintaining the same gripping force. Subsequently, the main body 11 is retracted and the spring 48 tends to extend towards the main body 11 in the direction of the tension in the tether 70 to return the door 13 to the closed position against the tension in the tether 70, at which time the release button 50 returns the latch member 12 to the locked position. In this manner, grasping and pulling the fastener 10 against the tether 70 with one hand can be used both to release the latch member 12 without requiring a special action (and the other hand) for its release, and to open the door 13. Likewise, releasing the tension in the fastener 10 and tether 70 allows the door to automatically close, and the latch member 12 automatically locks the closed door 13.

Fig. 10 and 11 illustrate an advantageous application of the fastener 10 of the present invention, with the fastener 10 attached to the bag 62 by a tether 70, such as by a suture 69. A zipper 64 for closing the opening into the bag 62 includes a pair of stringers 65, two sliders 66 and two pull tabs 67. The chain belt 65 is fixed to the main body 63, and each slider 66 is arranged to slide longitudinally along the chain belt 65, thereby connecting the chain belt 65, wherein each pull ring 67 has one end fixed to a corresponding one of the sliders 66 and an opposite free end in which an eye 68 is formed. Tether 70 may have one end secured within bag 63. The outer panel of the bag 63 is shown cut away in the drawings for clarity. The opposite end of the tether 70 is connected to the anchor 14 of the fastener 10 and the leg 16 is configured to slidably receive the eye 68 of the pull ring 67. The tether may be extended and retracted by elastic means to retract the fastener 10 into the pocket 63. Many different known types of elastic retractable tethers may be used in the present application, including elastic tethers (as shown) and spring-wound tethers. To secure the tabs 67 together, the user opens the pocket 63, reaches in with a single hand and grasps the fastener 10 between the index finger and thumb before performing the above-described action of opening the fastener. End 20 is inserted through eye 68 and the user unfastens fastener 10 not only to automatically lock closed fastener 10 to secure the zipper, but also to retract fastener 10 into pocket 63. Alternatively, the pull ring 67 itself may be at least partially pulled into the bag 63 when the tether 70 is retracted.

Aspects of the present invention have been described by way of example only and it should be appreciated that modifications and additions may be made thereto without departing from the scope of the invention.