Title of Invention

POSITIONING MECHANISM OF A ZIPPER SLIDE

Abstract A positioning mechanism of a zipper slide for engaging or disengaging two lengths of teeth on two opposite teeth tapes (30) is disclosed, which includes: a main body (20) having a buckling portion (201), a plane surface (206), a recess (203), and a support portion (202) formed thereon, wherein a positioning member (21) positioned on the buckling portion (201) lof the main body (20), wherein the positioning member (21) has a locking part (212), which can insert into the recess (203) of the main body (20), formed in one end of the positioning member (21); a pull tab unit (24) for facilitating the manipulation of lpulling the zipper slide, wherein the pull tab unit (24) has a beam (241) that is placed on the plane surface (206); and a lid (23) connected with a top lsurface of the main body (20) and covering the buckling portion (201), the plane surface (206), the recess (203), lthe support portion (202), the positioning portion, and the front of the pull tab unit (24).
Full Text BACKGROUND OF THE INVENTION
1.Field of the Invention
The present invention relates to the field of zipper slides, and more particularly to a zipper slide provided with positioning means for restraining interlocking teeth thereof from disengaging when the slide has been moved with a coupled pull tab to a desired position on a zipper.
2.Description of the Prior Art
Fig.1 to Fig.3 illustrate a typical positioning mechanism for a zipper slide. As shown in Fig.l, the positioning mechanism generally includes a slide body 10 that is integrally made by metal or the like, a positioning member 11, a lid 12 and a pull tab unit 13. On a top surface of the slide body 10 there are provided a buckling portion 101 and an upwardly extending support portion 102. The buckling portion 101 and the support portion 102 are used to buckle the positioning member 11 and the lid 12, respectively. Between the buckling portion 101 and the support portion 102 there are provided a plane surface 105 and a recess 103. When assembled, a beam 131 of the pull tab unit 13 is placed
1 A
on the plane surface 105 (as indicated in Fig.3). The lid 12 covers the buckling portion 101, the plane surface 105, the recess 103, the support portion 102, the positioning member 11, and the front of the pull tab unit 13.
Engagement channel 104 is provided in a front end of the slide body 10. As shown in Fig.2, the engagement channel 104 slides along the lengths of interlocking teeth 141 of the teeth tapes 14 to facilitate the engagement and disengagement thereof.
The positioning member 11 is monolithically made by using punching technique known in the art. On top of the positioning member 11 there is a pressing spring piece 112 that is connected with the positioning member 11 in a tilt angle as illustrated in Fig.1. A locking part 111 is provided in one distal end of the positioning member 11 for locking or positioning the interlocking teeth 141 of the teeth tapes 14 in place. When assembled, the locking part 111 is inserted into the recess 103. By pulling the pull tab unit 13 in a tilt angle relative to the top surface of the slide body 10, as indicated in Fig.2 and Fig.3, the locking part 111 separates from the interlocking teeth 141 to permit the sliding of the zipper slide.
Still referring to Fig.2 and Fig.3, the positioning member 11 and pull tab unit 12, which are both covered by the lid 12, facilitate manipulation of sliding the slide body to engage or disengage the metal teeth 141 of opposite teeth
tapes 14. When the pull tab unit 13 is not pulled, the pressing spring piece 112 jabs an interior surface of the lid 12. By doing this, the pressing spring piece 112 provides the locking part 111 with a downward force to lock the teeth 141. On the contrary, by pulling the pull tab unit 13 in a tilt angle relative to the top surface of the slide body 10, the locking part 111 separates from the interlocking teeth 141 to permit the sliding of the zipper slide.
The drawback of the prior art structure is that the positioning member 11 with a tilt pressing spring piece 111 formed thereon is difficult to be made small in size by traditional punching technique. This leads to raising cost of the zipper products. Consequently, there is a strong need to provide an improved positioning mechanism to save the cost.
SUMMARY OF THE INVENTION
Accordingly, it is a primary object of the present invention to provide an improved needle locking or positioning mechanism for zipper slides to solve the above-mentioned problems. The needle locking mechanism according to this invention is capable of engaging with either metal teeth or plastic teeth in a more tight-knit way.
According to the claimed invention, a positioning mechanism of a zipper
slide for engaging or disengaging two lengths of teeth on two opposite teeth tapes, comprising: a main body having a buckling portion, a plane surface, a recess, and a support portion formed thereon, wherein an engagement channel is formed in the main body; a positioning member positioned on the buckling portion of the main body, wherein the positioning member has a locking part, which inserts into the recess of the main body, formed in one end of the positioning member; a pull tab unit for facilitating the manipulation of pulling the zipper slide, wherein the pull tab unit has a beam that is placed on the plane surface; and a lid connected with a top surface of the main body and covering the buckling portion, the plane surface, the recess, the support portion, the positioning portion, and the front of the pull tab unit.
The buckling portion has a clipping slot formed thereon, the clipping slot clips one end of a restraining stick that is respectively made by using punching technique, and the other end of the restraining stick extends along the length of the positioning member to press the positioning member.
It is to be understood that both the forgoing general description and the following detailed description are exemplary, and are intended to provide further explanation of the invention as claimed. Other advantages and features of the invention will be apparent from the following description, drawings and claims.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS Fig. 1 is an exploded diagram showing a prior art zipper slide.
Fig.2 is a cross sectional diagram showing the prior art zipper slide of Fig. 1.
Fig.3 is a cross sectional diagram showing the prior art zipper slide of Fig. 1.
Fig.4 is an exploded diagram illustrating this invention. Fig.5 is a perspective diagram showing this invention in combination. Fig.6 is a schematic diagram illustrating the use of this invention. Fig.7 is a cross sectional diagram showing this invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
Please refer to Fig.4 and Fig.5. This invention provides an improved needle locking or positioning mechanism for zipper slides. More particularly, this invention provides a positioning means that can be easily made and assembled.
This positioning means of the invention generally comprises a monolithic main body 20, a positioning member 21, a restraining stick 22, a lid 23, and a pull tab unit 22.

The main body 20, the positioning member 21, the restraining stick 22, the lid 23, and the pull tab unit 22 may be made of aluminum alloys, zinc alloys or the like. Various colors of paint may be coated onto the surfaces of the main body 20, the positioning member 21, the restraining stick 22, the lid 23, and the pull tab unit 22 by means of coating dye or bake coating.
Likewise, on a top surface of the main body 20 there are provided a buckling portion 201 and a support portion 202. The buckling portion 201 and the support portion 202 are used to buckle the positioning member 21 and the lid 23, respectively. On top of the buckling portion 201 is provided a U-shaped clipping slot 204 for tightly fixing the restraining stick 22 (as indicated in Fig.5). Between the buckling portion 201 and the support portion 202 there are provided a plane surface 206 and a recess 203. When assembled, a beam 241 of the pull tab unit 24 is placed on the plane surface 206. The lid 23 covers the buckling portion 201, the plane surface 206, the recess 203, the support portion 202, the positioning member 21, and the front of the pull tab unit 24.
Engagement channel 205 is provided in a front end of the main body 20. As shown in Fig.6, the engagement channel 205 slides along the lengths of interlocking teeth 301 of the teeth tapes 30 to facilitate the engagement and disengagement thereof.
The positioning member 21 is monolithically made by using punching
technique. An aperture 211 is provided in the positioning member 21 for allowing the pass of the clipping slot 204 of the buckling portion 201. When assembled, the positioning member 21 is placed on the buckling portion 201 and is in connection with the lid 23. A locking part 212 is provided in one distal end of the positioning member 21 for locking or positioning the interlocking teeth 301 of the teeth tapes 30 in place. When assembled, the locking part 212 is inserted into the recess 203. By pulling the pull tab unit 24 in a tilt angle relative to the top surface of the main body 20, as indicated in Fig.6 and Fig.7, the locking part 212 separates from the interlocking teeth 301 to permit the sliding of the zipper slide.
The restraining stick 22 is also monolithically made by punching technique. Preferably, the restraining stick 22 is thin belt shaped. When assembled, one end of the restraining stick 22 is tightly fixed by the clipping slot 204 on top of the buckling portion 201 (as shown in Fig.5). The other end of the restraining stick 22 extends forwardly along the length of the aperture 211 of the positioning member 21. The restraining stick 22 jabs one side of the aperture 211 to provide the locking part 211 of the positioning member 21 with a downward force that allows the locking part 211 to engage with the interlocking teeth 301 within the recess 203 of the main body 20 (as shown in Fig.7.
The lid 23 is monolithically made by using punching technique. The lid 23
covers the buckling portion 201 of the main body 20, the support portion 202, the positioning member 21, the restraining stick 22 and the front of the pull tab unit 24.
The lid 23 buckles the pull tab unit 24 by passing through opening 242 of the pull tab unit 24. As illustrated, the opening 242 is formed on the pull tab unit 24 and is designed to allow the passing of the lid 23. One side of the opening 242 is a beam 241. The beam 241 is placed on the plane surface 206 of the main body 20. Trademarks, totems or other patterns may be placed on the pull tab unit 24. The pull tab unit 24 facilitates manipulation of sliding the main body 20 to engage or disengage the metal teeth 301 of opposite teeth tapes 30.
From above, the positioning structure according to this invention at least includes the following features:
(1) • The restraining stick 22 is respectively made. Hence, the
positioning member 21 has a simple structure that can be easily made by using traditional punching technique.
(2) Proportion defective is thus lowered.
(3) The improved positioning mechanism is longwearing and functions well.
Those skilled in the art will readily observe that numerous modification and alterations of the device may be made while retaining the teachings of the
invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
WE CLAIM:
1. A positioning mechanism of a zipper slide for engaging or disengaging two lengths of teeth on two opposite teeth tapes, comprising:
a main body (20) having a buckling portion (201), a plane surface (206), a recess (203), and a support portion (202) formed thereon, wherein an engagement channel (205) is formed in the main body (20);
a positioning member (21) positioned on the buckling portion (201) of the main body (20), wherein the positioning member (21) has a locking part (212), which inserts into the recess (203) of the main body (20), formed in one end of the positioning member (21);
a pull tab unit (24) for facilitating the manipulation of pulling the zipper slide, wherein the pull tab unit (24) has a beam (241) that is placed on the plane surface (206); and
a lid (23) connected with a top surface of the main body (20) and covering the buckling portion (201), the plane surface (206), the recess (203), the support portion (202), the positioning portion, and the front of the pull tab unit (24);
wherein the buckling portion (201) has a clipping slot (204) formed thereon, the clipping slot (204) clips one end of a restraining stick (22) that is respectively made by using punching technique, and the other end of the restraining stick (22) extends along the length of the positioning member (21) to press the positioning member (21);

characterized in that the said locking part (212) is provided in one distal end of the positioning member (21) for locking or positioning the said interlocking teeth of the said teeth tapes (30) in place,
wherein when assembled, the said locking part (212) is inserted into the said recess (203) by pulling the said pull tab unit (24) in a tilt angle relative to the top surface of the said main body (20), and the said locking part (212) separates from the said interlocking teeth to permit the sliding of the said zipper slide.
2. The positioning mechanism of claim 1 wherein various colors of paint may be coated onto the surfaces of the main body, the positioning member, the restraining stick, the lid, and the said pull tab unit (24) by means of coating dye or bake coating.
3. The positioning mechanism of claim 1 wherein an aperture (211) is formed in the said positioning member (21).
4. The positioning mechanism of claim 1 wherein trademarks, totems or other patterns may be placed on the said pull tab unit (24).
A positioning mechanism of a zipper slide for engaging or disengaging two lengths of teeth on two opposite teeth tapes (30) is disclosed, which includes: a main body (20) having a buckling portion (201), a plane surface (206), a recess (203), and a support portion (202) formed thereon, wherein a positioning member (21) positioned on the buckling portion (201) of the main body (20), wherein the positioning member (21) has a locking part (212), which can insert into the recess (203) of the main body (20), formed in one end of the positioning member (21); a pull tab unit (24) for facilitating the manipulation of pulling the zipper slide, wherein the pull tab unit (24) has a beam (241) that is placed on the plane surface (206); and a lid (23) connected with a top surface of the main body (20) and covering the buckling portion (201), the plane surface (206), the recess (203), the support portion (202), the positioning portion, and the front of the pull tab unit(24).

Documents:

12-kol-2003-granted-abstract.pdf

12-kol-2003-granted-claims.pdf

12-kol-2003-granted-correspondence.pdf

12-kol-2003-granted-description (complete).pdf

12-kol-2003-granted-drawings.pdf

12-kol-2003-granted-examination report.pdf

12-kol-2003-granted-form 1.pdf

12-kol-2003-granted-form 18.pdf

12-kol-2003-granted-form 2.pdf

12-kol-2003-granted-form 3.pdf

12-kol-2003-granted-form 5.pdf

12-kol-2003-granted-letter patent.pdf

12-kol-2003-granted-pa.pdf

12-kol-2003-granted-priority document.pdf

12-kol-2003-granted-reply to examination report.pdf

12-kol-2003-granted-specification.pdf

12-kol-2003-granted-translated copy of priority document.pdf


Patent Number 215003
Indian Patent Application Number 12/KOL/2003
PG Journal Number 08/2008
Publication Date 22-Feb-2008
Grant Date 20-Feb-2008
Date of Filing 13-Jan-2003
Name of Patentee CHUNG CHWAN ENTERPRISE CO., LTD.
Applicant Address NO.151, KUNG ERH RD., WU LIN TSUEN, LUNG TAN HSIANG, TAO YUAN HSIEN
Inventors:
# Inventor's Name Inventor's Address
1 LIN YU-PAU NO.151, KUNG ERH RD., WU LIN TSUEN, LUNG TAN HSIANG, TAO YUAN HSIEN
PCT International Classification Number A 44 B 19/30
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 91203179 2002-03-15 China