CN204191751U - Zipper head combined structure for reducing friction resistance and sliding part thereof - Google Patents

Abstract

The utility model provides a zipper head composite structure for reducing friction resistance and a sliding part thereof, the zipper head composite structure comprises a sliding part and a pulling part, the sliding part is provided with a first sliding part, a second sliding part and a connecting part, the second sliding part and the first sliding part are arranged correspondingly, and the connecting part is connected between the first sliding part and the second sliding part; the first sliding part is provided with a first inner surface and a first outer surface which is opposite to the first inner surface, the first inner surface of the first sliding part is provided with a plurality of first sliding lugs which are separated from each other by a preset distance, and the first outer surface of the first sliding part is provided with a hook body; the second sliding part is provided with a second inner surface and a second outer surface opposite to the second inner surface, and the second inner surface of the second sliding part is provided with a plurality of second sliding lugs separated from each other by a preset distance. The utility model discloses can be used to reduce the frictional resistance of slider when the structural slip that slides of zip fastener tooth.

Description

For reducing zip fastener slider combined structure and the sliding part thereof of frictional resistance

Technical field

The utility model relates to a kind of zip fastener slider combined structure and sliding part thereof, particularly relates to a kind of zip fastener slider combined structure for reducing frictional resistance and sliding part thereof.

Background technology

The basic connecting assembly of common clothes is nothing more than use button or zipper.Compared to button, zipper is used to have better usability and comparatively firm architectural characteristic, general zipper has a slider of zipper fastener and a zipper strip, the chain joint assembly that slider of zipper fastener mainly coordinates zipper strip back and forth to pull as zipper, makes zipper be applied in more popular on dress ornament and accessory future.But prior art does not provide the relevant design of any frictional resistance being used for reducing between slider of zipper fastener and zipper strip, so under existing slider of zipper fastener back and forth pulls use for a long time on zipper strip, slider of zipper fastener and zipper strip all can produce serious loss.Therefore, how by means of the improvement of structural design, reduce frictional resistance when slider of zipper fastener back and forth pulls on zipper strip, become this cause for one of important topic of solving.

Utility model content

The purpose of this utility model is to provide a kind of zip fastener slider combined structure and sliding part thereof, and it can be used for reducing the frictional resistance of sliding part when the enterprising line slip of zipper teeth structure.

The utility model is a kind of zip fastener slider combined structure for reducing frictional resistance of providing of an embodiment wherein, and described zip fastener slider combined structure comprises: a sliding part and a drawing article.Described sliding part have one first sliding part, one and correspond to each other the second sliding part and of arranging of described first sliding part be connected to connecting portion between described first sliding part and described second sliding part, wherein said first sliding part has a grab body.A wherein terminal part of described drawing article cooperatively interacts with described grab body movably.Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and the described grab body of described first sliding part is arranged on described first outer surface; Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another.

A kind of sliding part for reducing frictional resistance that the another embodiment of the utility model provides, described sliding part comprises: one first sliding part, one second sliding part and a junction.Described second sliding part and described first sliding part correspond to each other and arrange.Described connecting portion is connected between described first sliding part and described second sliding part.Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and described first outer surface of described first sliding part has a grab body; Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another.

The utility model is a kind of zip fastener slider combined structure for reducing frictional resistance of providing of an embodiment again, described zip fastener slider combined structure is arranged at one to be had in the zipper teeth structure of one first slide fastener tooth bar and the one second slide fastener tooth bar cooperatively interacted, and described zip fastener slider combined structure comprises: a sliding part and a drawing article.Described sliding part have one first sliding part, one and correspond to each other the second sliding part and of arranging of described first sliding part be connected to connecting portion between described first sliding part and described second sliding part, wherein said first sliding part has a grab body.A wherein terminal part of described drawing article cooperatively interacts with described grab body movably.Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and the described grab body of described first sliding part is arranged on described first outer surface; Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another; Wherein, described first slide fastener tooth bar comprises the first zipper teeth bearing part of multiple described first slide bumping of a contact and to be multiplely fixed on described first zipper teeth bearing part and to contact the first zipper teeth of multiple described second slide bumping, and described second slide fastener tooth bar comprises the second zipper teeth bearing part of multiple described first slide bumping of a contact and to be multiplely fixed on described second zipper teeth bearing part and to contact the second zipper teeth of multiple described second slide bumping.

The beneficial effects of the utility model can be, when the first zipper teeth bearing part and the second zipper teeth bearing part are slidably disposed on multiple first slide bumping, because both the first zipper teeth bearing part and the second zipper teeth bearing part are separated the first inner surface one first preset distance of the first sliding part, so both the first zipper teeth bearing part and the second zipper teeth bearing part directly can't touch the first inner surface of the first sliding part, by this to reduce both the first zipper teeth bearing part and the second zipper teeth bearing part and the frictional resistance between the first sliding part.In addition, when multiple first zipper teeth and multiple second zipper teeth are slidably disposed on multiple second slide bumping, because multiple first zipper teeth and multiple second zipper teeth are all separated the second inner surface one second preset distance of the second sliding part, so both the first zipper teeth bearing part and the second zipper teeth bearing part directly can't touch the second inner surface of the second sliding part, by this to reduce both the first zipper teeth bearing part and the second zipper teeth bearing part and the frictional resistance between the second sliding part.Therefore, the utility model effectively can promote smoothness when zip fastener slider combined structure slides in zipper teeth structure.

Further understand feature of the present utility model and technology contents for enable, refer to following about detailed description of the present utility model and accompanying drawing, but appended accompanying drawing only provides reference and explanation use, is not used for being limited the utility model.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model for reducing a wherein viewing angle of the sliding part of frictional resistance;

Fig. 2 is the schematic perspective view of the utility model for reducing an other viewing angle of the sliding part of frictional resistance;

The generalized section of the A-A face line that Fig. 3 is Fig. 2;

The generalized section of the B-B face line that Fig. 4 is Fig. 2;

Fig. 5 is the utility model for reducing the front-view schematic diagram of sliding part when the enterprising line slip of zipper teeth structure of frictional resistance;

Fig. 6 is the utility model for reducing the schematic rear view of sliding part when the enterprising line slip of zipper teeth structure of frictional resistance;

Fig. 7 is the utility model for reducing the upper schematic diagram of zip fastener slider combined structure when the enterprising line slip of zipper teeth structure of frictional resistance.

[description of reference numerals]

Zip fastener slider combined structure Z

Sliding part 1 accommodation space 100

First sliding space 1001

Second sliding space 1002

First sliding part 11

First inner surface 1101

First outer surface 1102

First slide bumping 110

First separates projection 111

Grab body 112

Second sliding part 12

Second inner surface 1201

Second outer surface 1202

Second slide bumping 120

Second separates projection 121

Side wall 122

Connecting portion 13

Drawing article 2 terminal part 20

Zipper teeth structure 3 first slide fastener tooth bar 31

First zipper teeth bearing part 310

First zipper teeth 311

Second slide fastener tooth bar 32

Second zipper teeth bearing part 320

Second zipper teeth 321

First predetermined distance d 1

Second predetermined distance d 2

Gap g

Detailed description of the invention

Below that those skilled in the art can be understood advantage of the present utility model and effect by the content disclosed in this description by means of specific instantiation so that the embodiment about " zip fastener slider combined structure and sliding part thereof for reducing frictional resistance " disclosed in the utility model to be described.The utility model can be implemented by means of other different specific embodiments or be applied, and the every details in this description also based on different viewpoints and application, can carry out various modification and change under not departing from spirit of the present utility model.In addition, accompanying drawing of the present utility model is only simply to be illustrated to illustrate, not according to the description of actual size, first gives explanation.Following embodiment will further describe correlation technique content of the present utility model, but disclosed content be not used to limit technology category of the present utility model.

Refer to shown in Fig. 1 to Fig. 6, the utility model provides a kind of sliding part 1 (or claiming pull head, slider of zipper fastener) for reducing frictional resistance, sliding part 1 comprises: one first sliding part 11,1 second sliding part 12 and a junction 13, wherein the first sliding part 11 and the second sliding part 12 correspond to each other and arrange, and connecting portion 13 is connected to a wherein terminal part and wherein between a terminal part of the second sliding part 12 of the first sliding part 11.

First, coordinate shown in Fig. 1, Fig. 2 and Fig. 3, the first sliding part 11 has one first inner surface 1101 and one and the first outer surface 1102 of the first inner surface 1101 setting opposite each other.Wherein, the first inner surface 1101 of the first sliding part 11 has the first slide bumping 110 of a multiple preset distance separated from one another, and the first outer surface 1102 of the first sliding part 11 has a grab body 112.For example, as shown in Figure 3, the first slide bumping 110 can be strip or other shape, and multiple first slide bumping 110 can be arranged in parallel with each other on the first inner surface 1101 of the first sliding part 11.

In addition, coordinate shown in Fig. 1, Fig. 2 and Fig. 4, second sliding part 12 has one second inner surface 1201 and one and the second outer surface 1202 of the second inner surface 1201 setting opposite each other, and the second inner surface 1201 of the second sliding part 12 has the second slide bumping 120 of a multiple preset distance separated from one another.For example, as shown in Figure 4, the second slide bumping 120 can be strip or other shape, and multiple second slide bumping 120 can be arranged in parallel with each other on the second inner surface 1201 of the second sliding part 12.

It is worth mentioning that, the first slide bumping 110 and the second slide bumping 120 can be the settings faced each other, and also can be the settings missed one another.Accompanying drawing disclosed in the utility model be all adopt " setting missed one another " present, but this and be not used to limit the utility model.

Further, coordinate shown in Fig. 2, Fig. 3, Fig. 5 and Fig. 6, first inner surface 1101 of the first sliding part 11 has one and separate projection 111 at first wherein between two the first slide bumpings 110, and the second inner surface 1201 of the second sliding part 12 has one at the second separation projection 121 wherein between two the second slide bumpings 120.As shown in Figure 5, first separates projection 111 and second separates projection 121 and faces each other and arrange, first separates projection 111 is greater than the height of each first slide bumping 110 relative to the first inner surface 1101 relative to the height of the first inner surface 1101, and the second separation projection 121 is greater than the height of each second slide bumping 120 relative to the second inner surface 1201 relative to the height of the second inner surface 1201.In addition, coordinate shown in Fig. 4 and Fig. 5, second sliding part 12 has two respectively from two opposition side ends of the second sliding part 12 towards the side wall 122 that the direction of the first inner surface 1101 of the first sliding part 11 extends, and forms a gap g between each side wall 122 and first inner surface 1101 of the first sliding part 11.

Further, coordinate shown in Fig. 5 and Fig. 6, sliding part 1 has one and is formed at accommodation space 100 between the first sliding part 11, second sliding part 12 and two side walls 122, and accommodation space 100 is separated projection 111, second by first and separated projection 121 and connecting portion 13 three and be separated into the second sliding space 1002 that one first sliding space 1001 and is communicated in the first sliding space 1001.Wherein, a wherein part for multiple first slide bumping 110 is positioned at the first sliding space 1001 with a wherein part for multiple second slide bumping 120, and the remainder of the remainder of multiple first slide bumping 110 and multiple second slide bumping 120 is positioned at the second sliding space 1002.

Refer to shown in Fig. 7, the utility model provides a kind of zip fastener slider combined structure Z for reducing frictional resistance, and zip fastener slider combined structure Z comprises: sliding part 1 and a drawing article 2 (or claiming pulling-on piece).

First, coordinate shown in Fig. 5, Fig. 6 and Fig. 7, sliding part 1 has correspond to each other the second sliding part 12 and of arranging of one first sliding part 11, one and first sliding part 11 and is connected to connecting portion 13 between the first sliding part 11 and the second sliding part 12.First sliding part 11 has a grab body 112, and a wherein terminal part 20 of drawing article 2 cooperatively interacts with grab body 112 movably.First sliding part 11 has one first inner surface 1101 and one and the first outer surface 1102 of the first inner surface 1101 setting opposite each other, and the first inner surface 1101 of the first sliding part 11 has the first slide bumping 110 of a multiple preset distance separated from one another.Second sliding part 12 has one second inner surface 1201 and one and the second outer surface 1202 of the second inner surface 1201 setting opposite each other, and the second inner surface 1201 of the second sliding part 12 has the second slide bumping 120 of a multiple preset distance separated from one another.

Moreover coordinate shown in Fig. 5, Fig. 6 and Fig. 7, zip fastener slider combined structure Z is arranged at one to be had in the zipper teeth structure 3 (or claiming zipper strip) of one first slide fastener the tooth bar 31 and one second slide fastener tooth bar 32 cooperatively interacted.First slide fastener tooth bar 31 comprises the first zipper teeth bearing part 310 of multiple first slide bumping 110 of a contact and to be multiplely fixed on the first zipper teeth bearing part 310 and to contact the first zipper teeth 311 of multiple second slide bumping 120.Second slide fastener tooth bar 32 comprises the second zipper teeth bearing part 320 of multiple first slide bumping 110 of a contact and to be multiplely fixed on the second zipper teeth bearing part 320 and to contact the second zipper teeth 321 of multiple second slide bumping 120.For example, the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 may be all waterproof material or other material self with larger frictional resistance, but the utility model is not as limit.

Further, coordinate Fig. 5, shown in Fig. 6 and Fig. 7, first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 are slidably disposed on multiple first slide bumping 110, both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 is made to be separated the first inner surface 1,101 one first predetermined distance d 1 of the first sliding part 11, so both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 directly can't touch the first inner surface 1101 of the first sliding part 11, thus to reduce both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 and the frictional resistance between the first sliding part 11.In addition, multiple first zipper teeth 311 and multiple second zipper teeth 321 are slidably disposed on multiple second slide bumping 120, multiple first zipper teeth 311 and multiple second zipper teeth 321 is made all to be separated the second inner surface 1,201 one second predetermined distance d 2 of the second sliding part 12, so both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 directly can't touch the second inner surface 1201 of the second sliding part 12, thus to reduce both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 and the frictional resistance between the second sliding part 12.Therefore, the utility model effectively can promote smoothness when zip fastener slider combined structure Z slides in zipper teeth structure 3.

In sum, the beneficial effects of the utility model can be, when the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 are slidably disposed on multiple first slide bumping 110, because both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 are separated the first inner surface 1,101 one first predetermined distance d 1 of the first sliding part 11, so both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 directly can't touch the first inner surface 1101 of the first sliding part 11, thus to reduce both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 and the frictional resistance between the first sliding part 11.In addition, when multiple first zipper teeth 311 and multiple second zipper teeth 321 are slidably disposed on multiple second slide bumping 120, because multiple first zipper teeth 311 and multiple second zipper teeth 321 are all separated the second inner surface 1,201 one second predetermined distance d 2 of the second sliding part 12, so both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 directly can't touch the second inner surface 1201 of the second sliding part 12, thus to reduce both the first zipper teeth bearing part 310 and the second zipper teeth bearing part 320 and the frictional resistance between the second sliding part 12.Therefore, the utility model effectively can promote smoothness when zip fastener slider combined structure Z slides in zipper teeth structure 3.

The foregoing is only better possible embodiments of the present utility model; not thereby protection domain of the present utility model is limited to; therefore the equivalence techniques change that every utilization the utility model description and accompanying drawing content are done, be all contained within protection domain of the present utility model.

Claims (10)

1. for reducing a zip fastener slider combined structure for frictional resistance, it is characterized in that, described zip fastener slider combined structure comprises:

One sliding part, described sliding part have one first sliding part, one and correspond to each other the second sliding part and of arranging of described first sliding part be connected to connecting portion between described first sliding part and described second sliding part, wherein said first sliding part has a grab body; And

One drawing article, a wherein terminal part of described drawing article cooperatively interacts with described grab body movably;

Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and the described grab body of described first sliding part is arranged on described first outer surface;

Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another.

2. as claimed in claim 1 for reducing the zip fastener slider combined structure of frictional resistance, it is characterized in that, described first inner surface of described first sliding part has one and separate projection at first wherein between two described first slide bumpings, and described second inner surface of described second sliding part has one at the second separation projection wherein between two described second slide bumpings, wherein said first separates projection and described second separates projection and faces each other and arrange, described first height separating projection is greater than the height of the first slide bumping described in each, and the described second height separating projection is greater than the height of the second slide bumping described in each, wherein said second sliding part has two respectively from two opposition side ends of described second sliding part towards the side wall that the direction of described first inner surface of described first sliding part extends, and side wall described in each and form a gap between described first inner surface of described first sliding part.

3. as claimed in claim 2 for reducing the zip fastener slider combined structure of frictional resistance, it is characterized in that, described sliding part has one and is formed at described first sliding part, accommodation space between described second sliding part and two described side walls, and described accommodation space is separated projection by described first, described second separation projection and described connecting portion three are separated into the second sliding space that one first sliding space and is communicated in described first sliding space, wherein a wherein part for multiple described first slide bumping is positioned at described first sliding space with a wherein part for multiple described second slide bumping, and the remainder of the remainder of multiple described first slide bumping and multiple described second slide bumping is positioned at described second sliding space.

4. for reducing a sliding part for frictional resistance, it is characterized in that, described sliding part comprises:

One first sliding part;

One second sliding part, described second sliding part and described first sliding part correspond to each other and arrange; And

A junction, described connecting portion is connected between described first sliding part and described second sliding part;

Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and described first outer surface of described first sliding part has a grab body;

Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another.

5. as claimed in claim 4 for reducing the sliding part of frictional resistance, it is characterized in that, described first inner surface of described first sliding part has one and separate projection at first wherein between two described first slide bumpings, and described second inner surface of described second sliding part has one at the second separation projection wherein between two described second slide bumpings, wherein said first separates projection and described second separates projection and faces each other and arrange, described first height separating projection is greater than the height of the first slide bumping described in each, and the described second height separating projection is greater than the height of the second slide bumping described in each, wherein said second sliding part has two respectively from two opposition side ends of described second sliding part towards the side wall that the direction of described first inner surface of described first sliding part extends, and side wall described in each and form a gap between described first inner surface of described first sliding part.

6. as claimed in claim 5 for reducing the sliding part of frictional resistance, it is characterized in that, described sliding part further comprises: one is formed at described first sliding part, accommodation space between described second sliding part and two described side walls, and described accommodation space is separated projection by described first, described second separation projection and described connecting portion three are separated into the second sliding space that one first sliding space and is communicated in described first sliding space, wherein a wherein part for multiple described first slide bumping is positioned at described first sliding space with a wherein part for multiple described second slide bumping, and the remainder of the remainder of multiple described first slide bumping and multiple described second slide bumping is positioned at described second sliding space.

7., for reducing a zip fastener slider combined structure for frictional resistance, described zip fastener slider combined structure is arranged at one to be had in the zipper teeth structure of one first slide fastener tooth bar and the one second slide fastener tooth bar cooperatively interacted, and it is characterized in that, described zip fastener slider combined structure comprises:

One sliding part, described sliding part have one first sliding part, one and correspond to each other the second sliding part and of arranging of described first sliding part be connected to connecting portion between described first sliding part and described second sliding part, wherein said first sliding part has a grab body; And

One drawing article, a wherein terminal part of described drawing article cooperatively interacts with described grab body movably;

Wherein, described first sliding part has one first inner surface and one and the first outer surface of described first inner surface setting opposite each other, described first inner surface of described first sliding part has the first slide bumping of a multiple preset distance separated from one another, and the described grab body of described first sliding part is arranged on described first outer surface;

Wherein, described second sliding part has one second inner surface and one and the second outer surface of described second inner surface setting opposite each other, and described second inner surface of described second sliding part has the second slide bumping of a multiple preset distance separated from one another;

Wherein, described first slide fastener tooth bar comprises the first zipper teeth bearing part of multiple described first slide bumping of a contact and to be multiplely fixed on described first zipper teeth bearing part and to contact the first zipper teeth of multiple described second slide bumping, and described second slide fastener tooth bar comprises the second zipper teeth bearing part of multiple described first slide bumping of a contact and to be multiplely fixed on described second zipper teeth bearing part and to contact the second zipper teeth of multiple described second slide bumping.

8. as claimed in claim 7 for reducing the zip fastener slider combined structure of frictional resistance, it is characterized in that, described first inner surface of described first sliding part has one and separate projection at first wherein between two described first slide bumpings, and described second inner surface of described second sliding part has one at the second separation projection wherein between two described second slide bumpings, wherein said first separates projection and described second separates projection and faces each other and arrange, described first height separating projection is greater than the height of the first slide bumping described in each, and the described second height separating projection is greater than the height of the second slide bumping described in each, wherein said second sliding part has two respectively from two opposition side ends of described second sliding part towards the side wall that the direction of described first inner surface of described first sliding part extends, and side wall described in each and form a gap between described first inner surface of described first sliding part.

9. as claimed in claim 8 for reducing the zip fastener slider combined structure of frictional resistance, it is characterized in that, described sliding part has one and is formed at described first sliding part, accommodation space between described second sliding part and two described side walls, and described accommodation space is separated projection by described first, described second separation projection and described connecting portion three are separated into the second sliding space that one first sliding space and is communicated in described first sliding space, wherein a wherein part for multiple described first slide bumping is positioned at described first sliding space with a wherein part for multiple described second slide bumping, and the remainder of the remainder of multiple described first slide bumping and multiple described second slide bumping is positioned at described second sliding space.

10. as claimed in claim 9 for reducing the zip fastener slider combined structure of frictional resistance, it is characterized in that, described first zipper teeth bearing part and described second zipper teeth bearing part are slidably disposed on multiple described first slide bumping, described first zipper teeth bearing part and described both second zipper teeth bearing parts is made to be separated described first inner surface one first preset distance of described first sliding part, wherein multiple described first zipper teeth and multiple described second zipper teeth are slidably disposed on multiple described second slide bumping, multiple described first zipper teeth and multiple described second zipper teeth is made all to be separated described second inner surface one second preset distance of described second sliding part.