CN2755152Y - Composite shoe midsole - Google Patents

Abstract

A composite insole base fabric. In order to provide a shoe component with sufficient tensile strength, reduced breakage defect and reduced shoe manufacturing cost, the utility model provides a shoe component, which comprises a non-woven fabric layer, a high-tension fiber fabric layer fixedly arranged on one side of the non-woven fabric layer and a colloid coated on the other side of the high-tension fiber fabric layer.

Description

Composite shoe midsole

technical field

The utility model belongs to shoe parts, in particular to a composite shoe midsole cloth.

Background technique

At present, the mid-shoe material that is placed in the shoe and stitched with the upper is probably made of soft plastic, cardboard, etc. in the early days. In recent years, another shoe manufacturer has used a double-layer non-woven fabric sandwiched with polyethylene film (Polyethyene), and then used a hot-melt machine to make it hot-melt together to make it; or it is made of plastic foam and cloth.

Although the existing shoe mid-substrates can be provided separately and stitched with the upper, however, no matter whether the mid-shoe mid-substrate is made of soft plastic, cardboard, polyethylene film thermally welded between double-layer non-woven fabrics, or laminated with plastic foam Combinations of cloth, etc., all have the problem of insufficient tensile strength. Therefore, when the bottom material of the shoe is cut into the shape of the corresponding shoe, and then sewed with the upper along the periphery, it is put into the last and squeezed to fix the shoe shape. , easy to burst due to force, thereby affecting the product quality level of shoes, for this, it is necessary to further improve.

Contents of the invention

The purpose of the utility model is to provide a composite shoe midsole cloth with sufficient tension strength, less cracking defects and lower shoe-making cost.

The utility model comprises a non-woven cloth layer, a high-tensile fiber cloth layer fixed on one side of the non-woven cloth layer and colloid covered on the other side of the high-tensile fiber cloth layer.

in:

The high-tensile fiber cloth layer is a fiber cloth woven from polyethylene terephthalate long fibers.

The non-woven fabric layer and the high-tensile fiber cloth layer are needle-rolled so that the fibers of the non-woven fabric layer penetrate into the fibers of the high-tensile fiber cloth layer and consolidate into one.

The non-woven layer and the high-tensile fiber cloth layer are stitched and consolidated into one.

Because the utility model comprises a non-woven fabric layer, a high-tensile fiber cloth layer fixed on one side of the non-woven fabric layer and colloid coated on the other side of the high-tensile fiber cloth layer. When the utility model is applied to the manufacture of shoes, the non-woven fabric layer can be adjusted according to the design of the shoes by selecting a non-woven fabric layer with a suitable thickness to adjust the thickness of the midsole of the composite shoe; Cut into a predetermined shape and size, make the edge of the shoe midsole fabric cut and shaped at about 0.5 cm and the upper sew, and then carry out the manufacturing steps of shoe processing and shaping in sequence. The composite shoe midsole fabric is used to fix each yarn end of the high-tensile fiber cloth layer in the composite shoe mid-sole cloth when it is stitched with the upper. On the other hand, each yarn end of the high-tensile fiber cloth layer The yarn is the colloid coating on the bottom surface to fix its position, so that the high-tensile fiber cloth layer can exert its own toughness. In this way, when the midsole fabric and the upper of the shoe are sewn together and put into the last for the processing step of fixing the shoe shape, it will not burst due to the force of extrusion, so as to ensure the product quality level of the finished shoe; In addition, when the bottom surface of the composite shoe midsole cloth is to be further coated with a hardened bottom glue, the bottom surface of the composite shoe midsole cloth of the utility model has a non-woven fabric and a high-tension fiber cloth that colloid blocks the upper layer, so that the bottom glue will not be damaged. The upper layer of non-woven fabric or high-tensile fiber cloth is absorbed to avoid the increase in the cost of the bottom glue for shoe manufacturers. It not only has sufficient tensile strength, reduces cracking defects, but also reduces shoe-making costs, thereby achieving the purpose of the utility model.

Description of drawings

Fig. 1 is a schematic sectional view of the structure of the utility model.

Fig. 2 is a schematic plan view of the structure of the utility model (consolidated by needle rolling).

Fig. 3 is a schematic plan view of the structure of the utility model (consolidated in a seam mode).

Detailed ways

As shown in FIG. 1 , the utility model includes a non-woven fabric layer 10 , a high-tensile fiber fabric layer 11 and a colloid 12 .

The high-tensile fiber cloth layer 11 may be a fiber cloth woven from polyethylene terephthalate (PET) long fibers or other fibers with high-tensile properties. The high-tensile fiber cloth layer 11 is fixed on one side of the non-woven fabric layer 10, and the high-tensile fiber cloth layer 11 and the non-woven cloth layer 10 are consolidated into one by needle rolling or seam anchoring to prevent sliding and make each unit area Average stress.

The colloid 12 is coated on the back side of the high-tensile fiber cloth layer 11 in the form of back glue, so as to increase the bonding strength between the non-woven fabric layer 10 and the high-tensile fiber cloth layer 11, and also fix each fiber in the high-tensile fiber cloth layer 11 at the same time. Give full play to the strength and toughness of each fiber in the high-tensile fiber cloth layer 11 .

As shown in Figure 2, when the high-tensile fiber cloth layer 11 and the non-woven cloth layer 10 are consolidated in a needle-rolled manner, rolling needles with a plurality of distributions are used to roll into the high-tensile fiber cloth layer 11 from the non-woven cloth layer 10, wherein the A large number of irregularly or regularly arranged rolling needles roll down a plurality of needle rolling holes 14 from the upper non-woven fabric layer 10, and make the fibers of the non-woven fabric layer 10 rolled out of each needle rolling hole 14 go deep into the lower high-tension fiber cloth layer 11 bonded together in the fibers.

As shown in Figure 3, when the high-tensile fiber cloth layer 11 and the non-woven fabric layer 10 are consolidated by stitching and anchoring, the non-woven fabric layer 10 and the high-tensile fiber cloth layer 10 and the high-tensile fiber cloth layer 10 are rolled over with the sewing thread 13 by using a plurality of sewing needles. For the cloth layer 11, the non-woven cloth layer 10 and the high-tensile fiber cloth layer 11 are stitched and fixed together with the sewing thread 13 .

When the utility model is applied to the manufacture of shoes, the non-woven fabric layer 10 can be adjusted according to the design of the shoes, by selecting the non-woven fabric layer 10 of suitable thickness to adjust the thickness of the midsole cloth of the composite shoe; The shoe is cut into a predetermined shape and size, and the edge of the insole cloth of the cut shoe is sewed with the upper at about 0.5 cm, and then the manufacturing steps of shoe processing and shaping are performed sequentially.

Among them, when the composite shoe midsole cloth of the present invention is stitched with the upper, each yarn end of the high-tensile fiber cloth layer 11 in the composite shoe mid-sole cloth is fixed. Each yarn of the fiber cloth layer 11 is covered by the colloid 12 on the bottom surface to fix its position, so that the high-tensile fiber cloth layer 11 can exert its own strong and tough characteristics. In this way, when the midsole fabric and the upper of the shoe are sewn together and put into the last for the processing step of fixing the shoe shape, it will not burst due to the force of extrusion, so as to ensure the product quality level of the finished shoe; In addition, when the bottom surface of the composite shoe midsole cloth is to be further coated with a hardened bottom glue, the bottom surface of the composite shoe midsole cloth of the utility model has a non-woven fabric and a high-tension fiber cloth that colloid blocks the upper layer, so that the bottom glue will not be damaged. The upper layer of non-woven fabric or high-tensile fiber cloth can absorb it, avoiding the increase of the cost of bottom glue for shoe manufacturers, so that the composite shoe midsole cloth of the utility model has excellent usability and practical effect.

As mentioned above, the utility model has the following advantages:

1. High tensile strength: The composite shoe midsole cloth of this utility model is mainly a combination of non-woven fabric and high-tensile fiber cloth. Using the strong and tough characteristics of the body, combined with the suture around the bottom material of the shoe and the upper, when it is put into the shoe last to fix the shoe shape, it will not burst due to extrusion force, ensuring the product quality of the shoe.

2. It can avoid the bottom glue from being absorbed: if the bottom cloth of the composite shoe midsole of the utility model intends to apply hardened bottom glue, the bottom surface of the composite shoe midsole cloth has a non-woven fabric and a high-tension fiber cloth that can block the upper layer by colloid. , In this way, the primer will not be absorbed by the non-woven fabric or high-tensile fiber cloth, thereby avoiding the increase in the cost of the primer for the manufacturer.

Claims (4)

1, base fabric in a kind of combined type footwear, it comprises non-woven cloth layer; It is characterized in that being installed with high-tension fiber layer of cloth in a side of described non-woven cloth layer, and in high-tension fiber layer of cloth another side lining colloid.

2, base fabric in the combined type footwear according to claim 1 is characterized in that described high-tension fiber layer of cloth is that the long fibre of polyethylene terephthalate is weaved the cloth that forms.

3, base fabric in the combined type footwear according to claim 1 and 2 is characterized in that it is one that described non-woven cloth layer and high-tension fiber layer of cloth make the fiber of non-woven cloth layer go deep into fixed in the fiber of high-tension fiber layer of cloth in the tailor's cushion mode.

4, base fabric in the combined type footwear according to claim 1 and 2 is characterized in that it is one that described non-woven cloth layer and high-tension fiber layer of cloth are sewed up fixed with thread.

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