CN212590689U - Snap-in type woven belt - Google Patents

Abstract

The utility model discloses a snap-in formula meshbelt relates to meshbelt preparation technique, is equipped with meshbelt and bottom meshbelt, its characterized in that: a plurality of round holes are formed in the woven belt through laser perforation, and a shading reinforcing structure and mushroom heads are arranged on the bottom woven belt; the mushroom head on the bottom meshbelt can imbed in the meshbelt round hole, the utility model discloses a mould plastics the mushroom head of disposable formation, at the radium-shine and the corresponding round hole of mushroom head in meshbelt surface, can make both accuracy pair, the interlock is more firm. The thermoplastic protective layer can protect the surface of the round hole from fluffing, the bottom woven belt is woven with the thermal fuse, the laser perforation can enable the inner wall of the round hole to form the thermoplastic protective layer, the inner wall of the round hole is protected from fluffing, and the woven belt thread gluing performance is ensured to be stable for a long time.

Description

Snap-in type woven belt

Technical Field

The utility model relates to a meshbelt preparation technical field especially relates to interlock formula meshbelt.

Background

One of the auxiliary materials that traditional case and bag and shoes material were used is the bandage, has the effect of tightening up and tie, and this kind of auxiliary material majority is that the material is pasted to the magic, has the hair side and colludes the face, and this type of material is so ideal on wear-resisting and life, has used for a long time the hair side can fluff, colludes of face and can be gradually worn off and drop for the thread gluing performance of auxiliary material reduces, influences user experience.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome the not enough of existence among the prior art, the utility model provides a lock-in formula meshbelt to improve user's performance and use experience.

The technical scheme is as follows: in order to achieve the above object, the utility model discloses an engagement formula meshbelt is equipped with meshbelt and bottom meshbelt, its characterized in that: a plurality of round holes are formed in the woven belt through laser perforation, and a shading reinforcing structure and mushroom heads are arranged on the bottom woven belt; the fixed structure and the mushroom head are formed by one-time injection molding

The mushroom head on the bottom layer woven belt can be embedded into the circular hole of the woven belt.

Furthermore, a thermal fuse is woven in the mesh belt, and a thermosetting protective layer is arranged on the inner wall of the round hole.

Furthermore, the meshbelt is provided with a reflective membrane through hot pressing, a plurality of hasp holes are formed in the laser perforation in the reflective membrane, and the hasp holes and the round holes are coaxially arranged.

Furthermore, the inner wall of the hasp hole is provided with a thermoplastic protective layer.

Furthermore, the shading reinforced structure is arranged in an array mode, and the mushroom heads and the round holes are correspondingly arranged above the shading reinforced structure.

Furthermore, the shading reinforced structures are scattering reinforcing ribs from the center to the periphery, each shading reinforced structure is independently arranged, and gaps are formed among the shading reinforced structures.

Furthermore, the surface of the round hole is provided with a thermosetting protective layer to protect the inner wall of the round hole from fluffing, so that the long-term stability of the thread gluing performance of the braid is ensured.

Furthermore, the surface of the hasp hole is provided with a thermoplastic protective layer which can protect the surface of the round hole from fluffing.

The utility model has the advantages that:

1. the utility model discloses a mould plastics the mushroom head of disposable formation, at the radium-shine round hole corresponding with the mushroom head in meshbelt surface, can make both accuracy pair the embedding, the interlock is more firm.

2. The utility model discloses pasting the reflective membrane at the meshbelt, increasing the discernment nature of outward appearance, radium-shine perforation can make the reflective membrane hot melt simultaneously, forms the thermoplastic protective layer after the cooling, can protect round hole surface unhairing, and the bottom meshbelt has woven the hot melt silk, and radium-shine perforation can the hot melt silk hot melt, makes round hole inner wall form the heat-curing protective layer, and protection round hole inner wall unhairing makes the assurance meshbelt thread gluing performance stable for a long time.

Drawings

FIG. 1 is a schematic view of a webbing structure of the snap-fit webbing of the present embodiment;

FIG. 2 is a schematic view of a laser piercing structure of a mesh belt of the snap-in mesh belt of the present embodiment;

FIG. 3 is a schematic view of a laser perforation of a mesh belt of the snap-fit mesh belt of the present embodiment;

FIG. 4 is a schematic cross-sectional view of a laser piercing of a mesh belt of the snap-fit mesh belt of the present embodiment;

FIG. 5 is a schematic cross-sectional view of a laser piercing of a mesh belt of the snap-fit mesh belt of the present embodiment;

FIG. 6 is a schematic top view of a bottom fabric strip of the snap-in webbing of the present embodiment;

FIG. 7 is a partial top view of the bottom layer webbing of the snap-fit webbing of the present embodiment;

FIG. 8 is a front view of the buckle type webbing of the present embodiment;

FIG. 9 is a schematic view of the whole structure of the buckle type webbing of the present embodiment;

figure 10 is a schematic view of a portion of the underlying webbing structure of the snap-in webbing of the present embodiment.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

In one embodiment, as shown in fig. 1 to 10, a snap-in type woven tape comprises a woven tape 10 and a bottom layer woven tape 80, wherein a plurality of circular holes 30 are formed in the woven tape 10 by laser perforation, a bottom pattern reinforcing structure 60 and a mushroom head 70 are formed on the bottom layer woven tape 80 by PU injection molding in one step, and the mushroom head 70 is located above the bottom pattern reinforcing structure 60.

The woven belt 10 is hot-pressed with a reflective film 20, the reflective film 20 is laser punched with a plurality of buckle holes 40, the buckle holes 40 are arranged corresponding to the round holes 30, and the reflective film can prevent the woven belt from fraying.

The thickness of the reflective film 20 is 0.05-0.3 mm.

The buckle holes 40 are arranged in a rectangular array, and the aperture is 1mm-3 mm.

The mushroom head 70 is located above the shading reinforced structure 60, the protruding height of the mushroom head 70 is 2-4mm, the diameter is 1.5-3.5mm, the shading reinforced structure 60 can enhance the biting force of the mushroom head 70 to the bottom woven belt 80, the connection effect of the mushroom head 70 and the bottom woven belt 80 is enhanced, and the shading reinforced structure 60 is arranged in a disconnecting mode, so that the woven belt is bent more flexibly.

Mushroom head 70 is the hemisphere, and the following is plane or arc, and the top is equipped with the round hole, and mushroom head 70 uses PU material injection moulding, has certain elastic deformation, and when mushroom head was extrudeed, to middle round hole shrink, dwindles mushroom head's diameter, makes things convenient for mushroom head to advance or go out hasp hole 40 and round hole 30, because mushroom head bottom is plane or arc, is favorable to increasing the buckle dynamics of mushroom head and hasp hole.

The shading reinforcement structure 60 is arranged in a rectangular array, and the mushroom heads 70 are arranged above the shading reinforcement structure 60 corresponding to the round holes 30.

The preparation method of the snap-in type woven tape comprises the following steps:

weaving: typesetting on a pattern disc typesetting software on a computer, threading, and weaving to obtain a mesh belt 10 and a bottom layer mesh belt 80;

film pressing: heating the heat laminating machine to 130 ℃, and hot-pressing the reflective film 20 on the mesh belt 10 for 9 s;

perforating: drawing a picture on a computer according to the size of the template of the mushroom head 70, and carrying out laser perforation on the woven tape 10 at the speed of 50mm/s by using a laser cutting machine, so that the transparent film 20 forms a buckle hole 40, and the woven tape 10 forms a round hole 30;

seepage prevention: soaking the bottom woven belt 80 in the anti-seepage agent for 10 s;

injection molding: pouring the PU material into an injection molding machine, enabling the PU material to flow into a specific mold after the PU material is heated to the bottom, and injection molding the injection molding layer 801 on the surface of the bottom woven belt 80 and integrally molding the shading reinforcing structure 60 and the mushroom head 70 above the injection molding layer 801.

The mushroom head 70 is arranged above the shading reinforced structure 60, the shading reinforced structure 60 is quadrilateral, the quadrilateral structure plays a role in stabilizing the mushroom head 70, and the shading reinforced structure 60 is arranged in a breaking mode, so that the bottom layer mesh belt 80 is bent, cannot be pulled by tension, and is lighter and more flexible.

During laser perforation, the woven tape 10 is perforated into a round hole 30 by high-temperature laser of a laser cutting machine, in the laser process, a hot melt wire inside the woven tape 10 is melted, and a thermosetting protective layer 100 is formed on the surface of the round hole 30; the inner wall of the circular hole 30 can be protected from fluffing.

During laser perforation, the reflective film 20 forms the buckle hole 40 through high-temperature laser perforation of the laser cutting machine, and in the laser process, the reflective film 20 melts, and the thermoplastic protective layer 41 is formed on the surface of the buckle hole 40, so that the surface of the mesh belt can be protected from fluffing due to repeated buckling of the mushroom head 70.

Snapping: the bottom layer woven belt 80 is embedded into the buckle hole 40 and the round hole 30 through the mushroom head 70, and then is buckled on the surface of the reflective film 20, in the buckling process, the mushroom head, the buckle hole 40 and the round hole 30 are elastically deformed, the mushroom head shrinks towards the middle round hole, conveniently penetrates through the buckle hole 40 and the round hole 30, and is buckled on the surface of the reflective film to complete the meshing of the bottom layer woven belt 80 and the woven belt 10, so that a buckled type woven belt finished product is formed; when the mushroom head exits the buckle hole, the mushroom head shrinks towards the middle round hole, conveniently passes through the buckle hole 40 and the round hole 30, and is separated from the woven belt.

The above is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (7)

1. The snap-in type mesh belt is provided with a mesh belt (10) and a bottom layer mesh belt (80), and is characterized in that: a plurality of round holes (30) are formed in the laser perforation in the woven belt (10), a bottom grain reinforcing structure (60) and a mushroom head (70) are formed on the bottom woven belt (80) in a one-step mode through PU injection molding, and the mushroom head (70) is located above the bottom grain reinforcing structure (60); the mushroom head (70) on the bottom layer woven belt (80) is buckled into the round hole (30) of the woven belt (10).

2. The snap-fit webbing of claim 1, wherein: the thermal fuse is woven in the mesh belt (10), and the inner wall of the round hole (30) is provided with a thermosetting protective layer (100).

3. The snap-fit webbing of claim 1, wherein: the woven belt (10) is hot-pressed with a reflective film (20), a plurality of buckle holes (40) are arranged in the reflective film (20) through laser perforation, and the buckle holes (40) and the round holes (30) are coaxially arranged.

4. The snap-fit webbing of claim 3, wherein: and a thermoplastic protective layer (41) is arranged on the inner wall of the buckle hole (40).

5. The snap-fit webbing of claim 1, wherein: the shading reinforcing structure (60) is arranged in an array mode, and the mushroom heads (70) and the round holes (30) are arranged above the shading reinforcing structure (60) correspondingly.

6. The snap-fit webbing of claim 1, wherein: the surface of the round hole (30) is provided with a thermosetting protective layer (100).

7. The snap-fit webbing of claim 3, wherein: and a thermoplastic protective layer (41) is arranged on the surface of the buckle hole (40).

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