This application claims the priority benefit of Korean Patent Application No. 10-2012-0014943 filed on Feb. 14, 2012, the entire contents of which are incorporated herein by reference.
The present invention relates to a slider assembly applied to a zipper.
Generally, a zipper is installed in bags, clothes, etc. to bind the edges of an opening, and is so very simple and convenient that it is widely used.
In a brief examination of a conventional zipper structure, teeth are arranged at each of opposing edges of a pair of tapes of fabric, and a slider with a structure that a front side and a rear side communicate with each other is coupled to one of the pair of tapes.
When the slider moves in a forward direction and the rows of teeth enter into the slider, the rows of teeth are interlocked with each other inside the slider and then are released through the rear side. On the contrary, when the slider moves in a backward direction, the interlocked teeth are separated and then the separated teeth are released through the front side.
However, the conventional zipper has several problems.
In detail, in order to fasten a zipper, a bottom stop of an end of a tape where the slider is not coupled should be inserted into the slider through the front side of the slider. However, if a user wears, for example, gloves, the user cannot perform a detail action and thus has a difficulty in inserting the bottom stop.
Also, in case some of a seam in the back side of the tape rear is taken to the inside of the slider, the movement of the slider stops. If the slider is forcibly moved, the seam is further taken so that the slider does not operate.
Further, since the slider does not stay at a constant site but moves forward or backward, users sometimes have a difficulty in rapidly grasping the slider.
Thus, the conventional zipper has a limitation in that the foregoing drawbacks cannot be solved if the structure thereof is not basically changed.
Meanwhile, U.S. Pat. No. 4,326,319 discloses a slider fastener which includes a first terminal provided with a locking element, and a second terminal coupled with the first terminal as the first terminal is inserted into the second terminal and rotates. However, since the second terminal is shaped in a container and is coupled with the first terminal as the first terminal rotates, two continuous operations should be performed for the coupling. Also, if a foreign material is introduced into the second terminal, the slider fastener has a fatal drawback in that the coupling is not achieved.
Accordingly, an object of the present invention is to provide a slider assembly with a completely novel concept and structure.
Another object of the present invention is to provide a slider assembly which can secure reliability for coupling and separation of teeth.
A further another object of the present invention is to provide a slider assembly which can perform coupling and separation of teeth.
Still another object of the present invention is to provide a slider assembly with a slider always maintaining a constant position in a state that the teeth are separated.
According to an aspect of the present invention, there is provided a slider assembly including: a slider shaped in a cylinder having an opened bottom, the slider of which both edges coupled with teeth are curved inward; a bottom stop fixed to an end of one side tape; and a locking unit fixed to an end of the other side tape to limit movement of the slider, wherein the locking unit allows for the movement of the slider by coupling with or separation from the bottom stop, and the teeth has a space for receiving the edge of the slider.
The slider may include a hook piece which is protruded from an inner wall of the slider, the locking unit may have stoppers in one pair which are coupled with facing each other with a spring in-between to be subject to a restoring force of the spring, the bottom stop has a anchor protruded vertically, and as the anchor is coupled with the stoppers, the stoppers in one pair are repelled each other or near each other such that the hook piece is hooked or not hooked to each of the stoppers.
The slider may include a pressure hook piece which is further protruded than the hook piece and is formed on the inner wall at a front side spaced apart from the hook piece, and as the pressure hook piece pressurizes each of the stoppers in one pair, the anchor is separated from the stoppers.
The locking unit may comprise: a main body formed at a center thereof with an opening; stoppers in one pair which are received on a surface of the main body, coupled to each other with a spring in-between and have a contact formed at a position intersecting each other; and a cover separably coupled to the main body so as to cover the surface of the main body.
The locking unit may include: a flange which is protruded in a lengthwise direction from both sides of the main body such that each of the edges of the slider is positioned under the flange; and a stop jaw may be horizontally protruded from both sides of a rear end of the main body to limit reward movement of the slider.
The bottom stop may have a hemi-spherical anchor protruded vertically, the anchor being supported by a supporter having a width less than a diameter of the anchor, wherein as the anchor passes between the contacts and is hooked on a hook jaw formed at a boundary between the anchor and the supporter, the separation of the anchor is prevented.
The teeth may have a meshing part and an attachment part integrally formed, the meshing part may have a groove formed at one side surface thereof for meshing, a protrusion formed at an opposing side surface, and the attachment part may be shaped in “C” and have a space for receiving the edge of the slider in the “C”-shaped attachment part, and the tape is fixed under the attachment part.
According to the above structure, even when a user cannot perform a detail action by hand, the coupling and separation of the teeth can be always performed reliably.
Also, a rapid coupling between the teeth and the slider can be obtained by a single simple action, i.e., pressure in the vertical direction.
Further, in a state that the teeth are separated, the slider can always maintain a constant position.
Furthermore, the possibility that some of a seam is taken to the inside of the slider can be minimized.
The above objects and other advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which:
Now, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
As shown in
Hereinafter, respective elements constituting the slider assembly will be described in detail. For the convenience of description, the movement of the slider 100 for coupling of teeth 20 and 30 is referred to as “forward movement”, and the opposite movement of the slider 100 for separation of the engaged teeth 20 and 30 is referred to as “reward movement”.
Slider 100
The slider 100 has a single body 101, and is shaped in a rectangular box of which a front inlet and a rear outlet communicate with the inside of the rectangular body.
End portions of both inner sidewalls 103 are curved inward to form edges 104 and 105 facing each other, and thus a channel 101 is resultantly defined in a lengthwise direction by the edges 104 and 105 and the inner sidewalls 103.
Preferably, the edges 104 and 105 in the inlet of the body 102 form a smooth curved portion such that the edges 104 and 105 are smoothly coupled with the teeth 20 and 30. A position determining protrusion 107 is protruded from a rear surface at a middle position of the inlet.
Referring to
As described later, the hook piece 106 is installed for the purpose of pressurizing the stopper of the locking unit 200, and the hook piece 108 is installed for the hooking thereof to the stopper of the locking unit 200.
A tap holder 110 is formed to a surface of the body 102, for example, by a screw, and is fixedly inserted into a full tap 120 as shown in
Locking Unit 200
The locking unit 200 includes a main body 210 with an insertion hole 217 formed at the center thereof, stoppers 230 and 240 in one pair, which are mounted on a surface of the main body 210 and are coupled to each other with the spring 234 in-between while facing each other, and a cover 220 separably coupled to the main body 210 so as to cover the surface of the main body 210.
Preferably, a support protrusion 215 is horizontally protruded from the front side of the main body 210 and contacts and supports the first teeth 20 and 30 together with a protrusion of the bottom stop 300 to be described later. A groove 216 is formed at an upper surface of the support protrusion 215.
A receiving space 212 for receiving the stoppers 230 and 240 is formed in the main body 210, a boss 214 into which an insert 233 with a thread groove formed at an outer circumference thereof for coupling with the cover 220 is inserted is integrally, protrudingly formed in the main body 210, and an insertion opening 217 positioned between the facing stoppers 230 and 240 is formed. Also, flanges 213 are protruded in the lengthwise direction from both sides of the main body 210, and the edges of the slider 100 are positioned under the flanges 213 such that the slider 100 is prevented from being released upward.
Stop jaws 218 are formed at both sides of the main body 210 such that the slider 100 no longer moves backward.
The stoppers 230 and 240 are positioned at edges of the insertion opening 217 and are provided with contacts 232 and 242 facing each other. The contacts 232 and 242 are positioned under the stoppers 230 and 240 positioned oppositely. That is, the state that the stoppers 230 and 240 are spaced apart from each other is shown in
Therefore, when the contacts 232 and 242 are pushed oppositely, on the contrary, the stoppers 230 and 240 become close to each other. When the contacts 232 and 242 are pulled from each other, on the contrary, the stoppers become more distant.
Preferably, contact surfaces of the contacts 232 and 242 are inclined so as to be matched with the shape of the anchor contacting the contacts 232 and 242.
Bottom Stop 300
The bottom stop 300 is fixed to an end portion of one of the tapes 12 and is coupled with or separated from the locking unit 200 to control the operation of the stoppers 230 and 240 of the locking unit 200.
An anchor 310 is protrudingly formed on a surface of the bottom stop 300 and is inserted into the insertion opening 217 formed in the main body 210.
Also, a support protrusion 320 is vertically protruded from the front surface of the bottom stop 300, and a groove 322 is formed at an upper portion of the support protrusion 320.
Referring to
Teeth 20 and 30
Each of the teeth 20 is formed in an integral body, and includes a meshing part 26 and attachment parts 21 and 22. The meshing part 26 has a groove 25 formed at one side and a protrusion formed at the opposite side for the meshing. Therefore, the teeth 20 in one side are meshed with the teeth 30 in the other side in such a way that the protrusions of the teeth 20 in one side are received in the grooves of the teeth 30 in the other side as shown in
The attachment parts 21 and 22 are shaped in “C” such that a space 24 receiving the edges 104 and 105 of the slider 100 is formed therebetween. The lower attachment part 22 is formed relatively longer than the upper attachment part 21, and a coupling protrusion 23 is formed on the lower attachment part 22 and is inserted in the tape 10 such that the teeth 20 are fixed to the tape 10.
Hereinafter, the coupling and operation of the slider assembly with above-described structure will be described.
The locking unit 200 is fixed at the end portion of the tape 10 where the teeth 20 are disposed, and the bottom stop 300 is fixed at the end portion where the teeth 30 are disposed.
When the slider 100 is horizontally pushed with respect to the locking unit 200, the edges 104 and 105 of the slider 100 move along the bottoms of the flanges 213 formed at both sides of the main body 210 of the locking unit 200, as described above.
At this time, as shown in
When the slider 100 is forcibly pushed backward, the restoring force of the spring 234 allows the stoppers 230 and 240 spaced far to forcibly narrow, and simultaneously when the hook piece 108 passes through the stoppers 230 and 240 and moves backward, the stoppers 230 and 240 are again protruded between the hook pieces 106 and 108 due to the restoring force of the spring 234.
In this state, when the force applied to the slider 100 is removed, the slider 100 is locked in the state as shown in
In this state, the hook piece 108 is hooked by the stoppers 230 and 240 such that the hook piece 108 does not move forward and also dose not move backward due to the stop jaw 218 of the main body 210 of the locking unit 200. As a result, since the slider 100 is fixed to a constant position before the bottom stop 300 is coupled, a user can find the slider 100 rapidly and conveniently when fastening the zipper.
Upon coupling, when the hemispherical anchor 310 rises to pressurize the contacts 232 and 242 of the stoppers 230 and 240, the contacts 232 and 242 slide along the outer surface of the anchor 310 so that the distance between the contacts 232 and 242 goes far and is then sharply narrowed while passing through the hook jaw 314 formed at a boundary with the support 312. As a result, both edges of the stoppers 230 and 240 are pushed inward further than the end portion of the hook jaw 108. This is because the diameter of the support 312 is less than the diameter of the anchor 310, as described above.
Also, the support protrusion 215 of the main body 210 of the locking unit 200 and the support protrusion 320 of the bottom stop 300 come close to each other and are coupled to thereby support the first teeth 20 and 30, and the groove 216 of the support protrusion 215 and the groove 322 of the support protrusion 320 are joined to form a groove, which receives the position determining protrusion 107.
In this state, as shown in
Therefore, when a user pulls the full tap 120 upward and moves the same forward, the slider 100 moves in a state that the edges 104 and 105 of the slider 100 are received in the receiving space 24 of the teeth 20 and 30, and in this state, the protrusions of the adjacent teeth 20 and 30 are inserted into the groove 25 and thus the teeth 20 and 30 are meshed, i.e., the zipper is fastened.
wow
When a user tries to unfasten the zipper by separating the teeth 20 and 30, the user pulls the slider 100 downward to move the slider backward, whereby the hook piece 106 positioned at the front side contacts the stoppers 230 and 240.
At this time, when the slider 100 is strongly pulled, the hook piece 106 pushes the stoppers 230 and 240 and thus the stoppers 230 and 240 are brought to the nearest position, but the interval between the contacts 232 and 242 goes to the farthest position. Since the interval is wider than the diameter of the anchor 310 of the bottom stop 300, the bottom stop 300 can be smoothly separated.
While this invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Thus, the scope of the present invention is to be determined by the broadest permissible interpretation of the following claims and their equivalents, and shall not be restricted or limited by the foregoing detailed description.
Number | Date | Country | Kind |
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10-2012-0014943 | Feb 2012 | KR | national |