ZIPPER HEAD ASSEMBLY STRUCTURE FOR DECREASING ASSEMBLING RESISTANCE AND MOVABLE COVER BODY THEREOF

Abstract

A movable cover body for decreasing assembling resistance includes a major portion, two sliding portions extended outwardly from the major portion and respectively slidably disposed inside two sliding grooves, a positioning portion extended outwardly from the major portion and movably passing through a through opening, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside two pivotal grooves, an extending tail portion extended outwardly from the major portion and disposed inside a receiving groove, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to two inclined assembly surfaces. The instant disclosure further provides a zipper head assembly structure using the movable cover body.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The instant disclosure relates to a zipper head assembly structure and a movable cover body thereof, and more particularly to a zipper head assembly structure for decreasing assembling resistance and a movable cover body thereof.

2. Description of Related Art

In general, zippers are basic elements in clothing or accessories. Compare to buttons, the zippers are easier to use. A conventional zipper comprises a zipper head and a tape. The zipper head works with the tape to allow the pulling action. Recently, the zipper has been used commonly for clothing, pants, backpack, and other accessories.

SUMMARY OF THE INVENTION

One aspect of the instant disclosure relates to a zipper head assembly structure for decreasing assembling resistance and a movable cover body thereof.

One of the embodiments of the instant disclosure provides a zipper head assembly structure for decreasing assembling resistance, comprising: a sliding member, a movable cover body, and a pull member. The sliding member has a first sliding body, a second sliding body opposite to the first sliding body, and a connection body connected between the first sliding body and the second sliding body. The movable cover body is movably disposed on the first sliding body. The pull member has an end portion movably mated with the movable cover body.

More precisely, the sliding member has a first convex body disposed on the first sliding body, a second convex body disposed on the first sliding body and corresponding to the first convex body, and at least one through opening passing through the first sliding body and disposed between the first convex body and the second convex body, the first convex body has a first main portion disposed on the first sliding body, two sliding grooves respectively disposed on two opposite lateral sides of the first main portion, and at least one structure reinforcing rib disposed on the first sliding body and connected with the first main portion, and the second convex body has a second main portion disposed on the first sliding body, two pivotal grooves respectively disposed on two opposite lateral sides of the second main portion, two inclined assembly surfaces respectively disposed on the two opposite lateral sides of the second main portion and respectively disposed above the two pivotal grooves, and a receiving groove disposed on the second main portion and extended onto a front side of the second main portion. More precisely, the movable cover body has a major portion, two sliding portions extended outwardly from the major portion and respectively slidably disposed inside the two sliding grooves, a positioning portion extended outwardly from the major portion and movably passing through the through opening, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside the two pivotal grooves, an extending tail portion extended outwardly from the major portion and disposed inside the receiving groove, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to the two inclined assembly surfaces.

Another one of the embodiments of the instant disclosure provides a zipper head assembly structure for decreasing assembling resistance, comprising: a sliding member, a movable cover body, and a pull member. The movable cover body is movably disposed on the first sliding body, and the pull member has an end portion movably mated with the movable cover body. More precisely, the sliding member has a first convex body disposed on the first sliding body and a second convex body disposed on the first sliding body and corresponding to the first convex body, and the second convex body has a second main portion disposed on the first sliding body, two pivotal grooves respectively disposed on two opposite lateral sides of the second main portion, and two inclined assembly surfaces respectively disposed on the two opposite lateral sides of the second main portion and respectively disposed above the two pivotal grooves. The movable cover body has a major portion, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside two pivotal grooves, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to the two inclined assembly surfaces.

Yet another one of the embodiments of the instant disclosure provides a movable cover body for decreasing assembling resistance, comprising: a major portion, two sliding portions extended outwardly from the major portion and respectively slidably disposed inside two sliding grooves, a positioning portion extended outwardly from the major portion and movably passing through a through opening, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside two pivotal grooves, an extending tail portion extended outwardly from the major portion and disposed inside a receiving groove, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to two inclined assembly surfaces.

More precisely, the first convex body has two vertical convex ribs respectively disposed inside the two sliding grooves, and the two sliding portions respectively movably contact the two vertical convex ribs, wherein the second convex body has two first convex points respectively disposed inside the two pivotal grooves, and the two pivotal portions respectively movably contact the two first convex points, wherein the second convex body has at least one second convex point disposed inside the receiving groove, and the extending tail portion movably contacts the at least one second convex point.

More precisely, the major portion has a first plane plate and two second plane plates respectively extended downwardly from the two opposite lateral sides of the first plane plate, the two sliding portions are respectively extended outwardly from two first lateral sides of the two second plane plates, the positioning portion is extended downwardly from a bottom side of one of the two second plane plates, the two pivotal portions are respectively extended outwardly from two second lateral sides of the two second plane plates, and the extending tail portion is extended downwardly from an end side of the first plane plate.

More precisely, the second main portion has a carrier body and two lateral walls respectively disposed on two opposite lateral sides of the carrier body, and the carrier body has a first surface, a second surface connected with the first surface, a third surface connected with the second surface, and a fourth surface connected with the third surface, wherein the receiving groove is disposed on the carrier body and between the two lateral walls, and the two inclined assembly surfaces are respectively inclinedly disposed on the two lateral walls.

Because the designs of “the two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside the two pivotal grooves” and “the two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to the two inclined assembly surfaces”, the assembling resistance of assembling the movable cover body 2 on the sliding member 1 is decreased due to the low-resistance surface contact between the assembly chamfer 25 and the inclined assembly surface 152, so as to prevent the sliding member 1 from being scraped by the movable cover body 2. Hence, the two assembly chamfers 25 can respectively slip through the two inclined assembly surfaces 152 easily in order to assemble the movable cover body 2 on the sliding member 1.

To further understand the techniques, means and effects of the instant disclosure applied for achieving the prescribed objectives, the following detailed descriptions and appended drawings are hereby referred to, such that, and through which, the purposes, features and aspects of the instant disclosure can be thoroughly and concretely appreciated. However, the appended drawings are provided solely for reference and illustration, without any intention to limit the instant disclosure.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a perspective, schematic view of the sliding member of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 2 shows another perspective, schematic view of the sliding member of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 3 shows a perspective, schematic view of the movable cover body of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 4 shows another perspective, schematic view of the movable cover body of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 5 shows a perspective, exploded, schematic view of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 6 shows a perspective, assembled, schematic view of the zipper head assembly structure for decreasing assembling resistance according to the instant disclosure;

FIG. 7 shows a cross-sectional view taken along the section line VII-VIE of FIG. 6;

FIG. 8 shows a cross-sectional view taken along the section line VIII-VIII of FIG. 6;

FIG. 9 shows a partial, lateral, schematic view of the movable cover body of the zipper head assembly structure preparing to be assembled on the sliding member (that is to say that the assembly chamfer prepares to contact the inclined assembly surface) according to the instant disclosure;

FIG. 10 shows a partial, lateral, schematic view of the movable cover body of the zipper head assembly structure slipping on the sliding member (that is to say that the assembly chamfer has contacted the inclined assembly surface) according to the instant disclosure; and

FIG. 11 shows a partial, lateral, schematic view of the movable cover body of the zipper head assembly structure having been assembled on the sliding member (that is to say that the assembly chamfer has slipped through the inclined assembly surface) according to the instant disclosure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The embodiments of “a zipper head assembly structure for decreasing assembling resistance and a movable cover body thereof” of the instant disclosure are described. Other advantages and objectives of the instant disclosure can be easily understood by one skilled in the art from the disclosure. The instant disclosure can be applied in different embodiments. Various modifications and variations can be made to various details in the description for different applications without departing from the scope of the instant disclosure. The drawings of the instant disclosure are provided only for simple illustrations, but are not drawn to scale and do not reflect the actual relative dimensions. The following embodiments are provided to describe in detail the concept of the instant disclosure, and are not intended to limit the scope thereof in any way.

Referring to FIG. 1 to FIG. 8, the instant disclosure provides a zipper head assembly structure Z for decreasing assembling resistance, comprising: a sliding member 1 (such as a sliding head or a slide fastener head), a movable cover body 2, and a pull member 3 (such as a pull tab or a pull piece).

First, referring to FIG. 1 and FIG. 2, the sliding member 1 has a first sliding body 11, a second sliding body 12 opposite to the first sliding body 11, and a connection body 13 connected between the first sliding body 11 and the second sliding body 12. More precisely, the sliding member 1 has a first convex body 14 disposed on the first sliding body 11, a second convex body 15 disposed on the first sliding body 11 and corresponding to the first convex body 14, and at least one through opening 16 passing through the first sliding body 11 and disposed between the first convex body 14 and the second convex body 15. In addition, the first convex body 14 has a first main portion 140 disposed on the first sliding body 11, two sliding grooves 141 respectively disposed on two opposite lateral sides of the first main portion 140, and at least one structure reinforcing rib 142 disposed on the first sliding body 11 and connected with the first main portion 140. Moreover, the second convex body 15 has a second main portion 150 disposed on the first sliding body 11, two pivotal grooves 151 respectively disposed on two opposite lateral sides of the second main portion 150, two inclined assembly surfaces 152 respectively disposed on the two opposite lateral sides of the second main portion 150 and respectively disposed above the two pivotal grooves 151, and a receiving groove 153 disposed on the second main portion 150 and extended onto a front side of the second main portion 150.

Following the above description, for example, the second main portion 150 has a carrier body 1501 and two lateral walls 1502 respectively disposed on two opposite lateral sides of the carrier body 1501. In addition, the carrier body 1501 has a first surface 15011, a second surface 15012 connected with the first surface 15011, a third surface 15013 connected with the second surface 15012, and a fourth surface 15014 connected with the third surface 15013 and disposed on the front side of the second main portion 150. The receiving groove 153 is disposed on the carrier body 1501 and between the two lateral walls 1502, and the two inclined assembly surfaces 152 are respectively inclinedly disposed on the two lateral walls 1502.

Moreover, referring to FIG. 3, FIG. 4, and FIG. 5, the movable cover body 2 is movably disposed on the first sliding body 11, and the pull member 3 has an end portion 30 movably mated with the movable cover body 2. In addition, the movable cover body 2 has a major portion 20, two sliding portions 21 extended outwardly from the major portion 20 and respectively slidably disposed inside the two sliding grooves 141, a positioning portion 22 extended outwardly from the major portion 20 and movably passing through the through opening 16, two pivotal portions 23 extended outwardly from the major portion 20 and respectively pivotally disposed inside the two pivotal grooves 151, an extending tail portion 24 extended outwardly from the major portion 20 and disposed inside the receiving groove 153, and two assembly chamfers 25 (such as two assembly bevels) respectively disposed on two inner corners of the two pivotal portions 23 and respectively corresponding to the two inclined assembly surfaces 152. For example, the inclined assembly surface 152 has a first predetermined inclination such as 45 degrees relative to the horizontal surface, the assembly chamfer 25 has a second predetermined inclination such as 45 degrees relative to the horizontal surface. When the first predetermined inclination is the same as or similar to the second predetermined inclination, the assembling resistance between the assembly chamfer 25 and the inclined assembly surface 152 is decreased. Hence, the two assembly chamfers 25 can respectively slip through the two inclined assembly surfaces 152 easily in order to assemble the movable cover body 2 on the sliding member 1.

More precisely, referring to FIG. 1 and FIG. 2, the major portion 20 has a first plane plate 201 and two second plane plates 202 respectively extended downwardly from the two opposite lateral sides of the first plane plate 201. The two sliding portions 21 are respectively extended outwardly from two first lateral sides 2001 of the two second plane plates 202, the positioning portion 22 is extended downwardly from a bottom side 2000 of one of the two second plane plates 202, the two pivotal portions 23 are respectively extended outwardly from two second lateral sides 2002 of the two second plane plates 202, and the extending tail portion 24 is extended downwardly from an end side of the first plane plate 201.

More precisely, referring to FIG. 1, FIG. 2, FIG. 6, and FIG. 7, the first convex body 14 has two vertical convex ribs 143 respectively disposed inside the two sliding grooves 141, and the two sliding portions 21 respectively movably contact the two vertical convex ribs 143. Referring to FIG. 1, FIG. 2, FIG. 6, and FIG. 8, the second convex body 15 has two first convex points 154 respectively disposed inside the two pivotal grooves 151, and the two pivotal portions 23 respectively movably contact the two first convex points 154. In addition, the second convex body 15 has at least one second convex point 155 disposed inside the receiving groove 153, and the extending tail portion 24 movably contacts the at least one second convex point 155.

Referring to FIG. 9, FIG. 10, and FIG. 11, FIG. 9 shows a partial, lateral, schematic view of the movable cover body 2 of the zipper head assembly structure Z preparing to be assembled on the sliding member 1 (that is to say that the assembly chamfer 25 prepares to contact the inclined assembly surface 152) according to the instant disclosure, FIG. 10 shows a partial, lateral, schematic view of the movable cover body 2 of the zipper head assembly structure Z slipping on the sliding member 1 (that is to say that the assembly chamfer 25 has contacted the inclined assembly surface 152) according to the instant disclosure, and FIG. 11 shows a partial, lateral, schematic view of the movable cover body 2 of the zipper head assembly structure Z having been assembled on the sliding member 1 (that is to say that the assembly chamfer 25 has slipped through the inclined assembly surface 152) according to the instant disclosure. Referring to FIG. 9 and FIG. 10, the assembling resistance of assembling the movable cover body 2 on the sliding member 1 is decreased due to the low-resistance surface contact between the assembly chamfer 25 and the inclined assembly surface 152, so as to prevent the sliding member 1 from being scraped by the movable cover body 2. Hence, the two assembly chamfers 25 can respectively slip through the two inclined assembly surfaces 152 easily in order to assemble the movable cover body 2 on the sliding member 1.

In conclusion, Because the designs of “the two pivotal portions 23 extended outwardly from the major portion 20 and respectively pivotally disposed inside the two pivotal grooves 151” and “the two assembly chamfers 25 respectively disposed on two inner corners of the two pivotal portions 23 and respectively corresponding to the two inclined assembly surfaces 152”, the assembling resistance of assembling the movable cover body 2 on the sliding member 1 is decreased due to the low-resistance surface contact between the assembly chamfer 25 and the inclined assembly surface 152, so as to prevent the sliding member 1 from being scraped by the movable cover body 2.

For example, the inclined assembly surface 152 has a first predetermined inclination such as 45 degrees relative to the horizontal surface, the assembly chamfer 25 has a second predetermined inclination such as 45 degrees relative to the horizontal surface. When the first predetermined inclination is the same as or similar to the second predetermined inclination, the assembling resistance between the assembly chamfer 25 and the inclined assembly surface 152 is decreased. Hence, the two assembly chamfers 25 can respectively slip through the two inclined assembly surfaces 152 easily in order to assemble the movable cover body 2 on the sliding member 1.

The aforementioned descriptions merely represent the preferred embodiments of the instant disclosure, without any intention to limit the scope of the instant disclosure which is fully described only within the following claims. Various equivalent changes, alterations or modifications based on the claims of the instant disclosure are all, consequently, viewed as being embraced by the scope of the instant disclosure.

Claims

1. A zipper head assembly structure for decreasing assembling resistance, comprising:

a sliding member having a first sliding body, a second sliding body opposite to the first sliding body, and a connection body connected between the first sliding body and the second sliding body;

a movable cover body movably disposed on the first sliding body; and

a pull member having an end portion movably mated with the movable cover body;

wherein the sliding member has a first convex body disposed on the first sliding body, a second convex body disposed on the first sliding body and corresponding to the first convex body, and at least one through opening passing through the first sliding body and disposed between the first convex body and the second convex body, the first convex body has a first main portion disposed on the first sliding body, two sliding grooves respectively disposed on two opposite lateral sides of the first main portion, and at least one structure reinforcing rib disposed on the first sliding body and connected with the first main portion, and the second convex body has a second main portion disposed on the first sliding body, two pivotal grooves respectively disposed on two opposite lateral sides of the second main portion, two inclined assembly surfaces respectively disposed on the two opposite lateral sides of the second main portion and respectively disposed above the two pivotal grooves, and a receiving groove disposed on the second main portion and extended onto a front side of the second main portion;

wherein the movable cover body has a major portion, two sliding portions extended outwardly from the major portion and respectively slidably disposed inside the two sliding grooves, a positioning portion extended outwardly from the major portion and movably passing through the through opening, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside the two pivotal grooves, an extending tail portion extended outwardly from the major portion and disposed inside the receiving groove, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to the two inclined assembly surfaces.

2. The zipper head assembly structure of claim 1, wherein the first convex body has two vertical convex ribs respectively disposed inside the two sliding grooves, and the two sliding portions respectively movably contact the two vertical convex ribs, wherein the second convex body has two first convex points respectively disposed inside the two pivotal grooves, and the two pivotal portions respectively movably contact the two first convex points, wherein the second convex body has at least one second convex point disposed inside the receiving groove, and the extending tail portion movably contacts the at least one second convex point.

3. The zipper head assembly structure of claim 1, wherein the major portion has a first plane plate and two second plane plates respectively extended downwardly from the two opposite lateral sides of the first plane plate, the two sliding portions are respectively extended outwardly from two first lateral sides of the two second plane plates, the positioning portion is extended downwardly from a bottom side of one of the two second plane plates, the two pivotal portions are respectively extended outwardly from two second lateral sides of the two second plane plates, and the extending tail portion is extended downwardly from an end side of the first plane plate.

4. The zipper head assembly structure of claim 1, wherein the second main portion has a carrier body and two lateral walls respectively disposed on two opposite lateral sides of the carrier body, and the carrier body has a first surface, a second surface connected with the first surface, a third surface connected with the second surface, and a fourth surface connected with the third surface, wherein the receiving groove is disposed on the carrier body and between the two lateral walls, and the two inclined assembly surfaces are respectively inclinedly disposed on the two lateral walls.

5. A zipper head assembly structure for decreasing assembling resistance, comprising:

a sliding member;

a movable cover body movably disposed on the sliding member; and

a pull member having an end portion movably mated with the movable cover body;

wherein the sliding member has a first convex body disposed on the sliding member and a second convex body disposed on the sliding member and corresponding to the first convex body, and the second convex body has a second main portion disposed on the sliding member, two pivotal grooves respectively disposed on two opposite lateral sides of the second main portion, and two inclined assembly surfaces respectively disposed on the two opposite lateral sides of the second main portion and respectively disposed above the two pivotal grooves;

wherein the movable cover body has a major portion, two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside two pivotal grooves, and two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to the two inclined assembly surfaces.

6. The zipper head assembly structure of claim 5, wherein the second convex body has two first convex points respectively disposed inside the two pivotal grooves, and the two pivotal portions respectively movably contact the two first convex points.

7. The zipper head assembly structure of claim 5, wherein the major portion has a first plane plate and two second plane plates respectively extended downwardly from the two opposite lateral sides of the first plane plate, and the two pivotal portions are respectively extended outwardly from two second lateral sides of the two second plane plates.

8. The zipper head assembly structure of claim 5, wherein the second main portion has a carrier body and two lateral walls respectively disposed on two opposite lateral sides of the carrier body, the carrier body has a first surface, a second surface connected with the first surface, a third surface connected with the second surface, and a fourth surface connected with the third surface, and the two inclined assembly surfaces are respectively inclinedly disposed on the two lateral walls.

9. A movable cover body for decreasing assembling resistance, comprising:

a major portion;

two sliding portions extended outwardly from the major portion and respectively slidably disposed inside two sliding grooves;

a positioning portion extended outwardly from the major portion and movably passing through a through opening;

two pivotal portions extended outwardly from the major portion and respectively pivotally disposed inside two pivotal grooves;

an extending tail portion extended outwardly from the major portion and disposed inside a receiving groove; and

two assembly chamfers respectively disposed on two inner corners of the two pivotal portions and respectively corresponding to two inclined assembly surfaces.

10. The movable cover body of claim 9, wherein the major portion has a first plane plate and two second plane plates respectively extended downwardly from the two opposite lateral sides of the first plane plate, the two sliding portions are respectively extended outwardly from two first lateral sides of the two second plane plates, the positioning portion is extended downwardly from a bottom side of one of the two second plane plates, the two pivotal portions are respectively extended outwardly from two second lateral sides of the two second plane plates, and the extending tail portion is extended downwardly from an end side of the first plane plate.