CN204211014U - A kind of load-transfer device reducing avris filoplume amount and produce - Google Patents

Abstract

The utility model relates to a kind of load-transfer device reducing avris filoplume amount and produce, this load-transfer device comprises casing play (1), laminating layer (2) and covers surface layer (3), described casing play (1) is made up of individual layer or two-layer fabric, described subsides logical sequence layer (2) is arranged on casing play (1) and covers between surface layer (3), described laminating layer (2) is thermoplastic elastomer with the material covering surface layer (3), and the individual layer in described casing play (1) or two-layer fabric are 1/3 twill structure.Compared with prior art, the utility model load-transfer device resistance to abrasion is good, in use, significantly can reduce the abrasion damage on load-transfer device both sides, effectively prevent avris filoplume from producing, thus reduce the pollution to production environment, have good application prospect.

Description

A kind of load-transfer device reducing avris filoplume amount and produce

Technical field

The utility model belongs to light-type conveyer belt manufacturing technology field, is specifically related to a kind of load-transfer device reducing avris filoplume amount and produce.

Background technology

At present, along with improving constantly of industrialization technology, in the process of manufacture of product, the transmission link of product not only directly affects the normal operation of whole piece flow production line, also there is direct or indirect impact to the quality of final products.Such as, in food production transport process, traditional belt conveyor in use easily produces avris filoplume, and easily causes foreign matter to be mixed in food product, even can pollute whole piece and produce chain, thus bring massive losses to production; In addition, in tyre industry, for the load-transfer device of conveying work pieces, due to the continuous friction in transport process, be easy to produce more avris filoplume, and these avris filoplumes are in the quick operation of load-transfer device, are easy to split away off from load-transfer device, not only can pollute production environment, and may drop in the rubber of manufacture tire, this can make large the increasing that have a big risk of blowing out of final tire finished product, tire end product quality is deteriorated, causes immeasurable economic loss and credibility loss.

The problems referred to above fully expose, and existing load-transfer device in use easily produces the technological deficiency of avris filoplume.This is because the skeleton material of conventional conveyor belt generally adopts flat weaving method PET (polyethylene terephthalate) filament fiber, in the process that running uses, belt avris operates because crawl with side plate friction or belt, there will be a large amount of burr phenomenon, and then cause in the process of conveying products, the lousiness of belt periphery can come off and be mixed into product and pollute, finally cause irreversible product defect, cause serious quality problems, bring huge economic loss to manufacturer and client.

In order to solve the problem, the method often adopted at present load-transfer device both sides is done " edge sealing " process, but technological condition is comparatively loaded down with trivial details needed for the method, especially " edge sealing " technique of long distance delivery band needs to spend very long overhours, and working service is also a large problem, this also considerably increases the processing and manufacturing cost of load-transfer device.

Utility model content

The purpose of this utility model be exactly in order to overcome above-mentioned prior art exist defect and provide a kind of can reduce avris filoplume amount produce load-transfer device, this load-transfer device is by adopting special longitude and latitude knot structure and pre-soaked to framework material, thus reach and prevent avris filoplume from producing, strengthen the object of overplate and casing play bond strength.

The purpose of this utility model can be achieved through the following technical solutions:

Reduce the load-transfer device that avris filoplume amount produces, this load-transfer device comprises casing play, laminating layer and covers surface layer, and described casing play is made up of individual layer or two-layer fabric, and described laminating layer is arranged on casing play and covers between surface layer.

Described laminating layer is thermoplastic elastomer with the material covering surface layer.

The preferred shore hardness of described thermoplastic elastomer is thermoplastic polyurethane rubber or the thermoplastic polyester elastomer of 85 ~ 90A.

Individual layer in described casing play or two-layer fabric are the tissue layer of 1/3 twill structure.

Warp thread in described fabric is that terylene is spun into silvalin, and weft yarn is monofilament polyester.

The density that described terylene is spun into silvalin is 16 ~ 20 pieces/centimeter, and the density of described monofilament polyester is 13 ~ 15 pieces/centimeter.

Preferably, described warp thread is that 21 2 strands of terylene are spun into silvalin, and described weft yarn is diameter is 0.2 ~ 0.3mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.

Described laminating layer thickness is 0.1 ~ 0.2mm, and described protection face layer thickness is 0.15 ~ 0.3mm, and the gross thickness of described load-transfer device is: when casing play is made up of woven, and load-transfer device gross thickness is 0.9 ~ 1.1mm; When casing play is made up of two-layer fabric, load-transfer device gross thickness is 1.3 ~ 1.6mm.

In the utility model, casing play fabric adopts 1/3 twill structure, during coating thermoplastic polyurethane rubber (TPU) or thermoplastic polyester elastomer (TPEE), can present three-dimensional coated casing play fabric, therefore, warp thread and weft yarn not easily hold in the palm loose, and casing play fabric carries out pretreatment by pre-soaked polyurethane glue, by the fibrous polymer in fabric yarn, can prevent filoplume from producing, effectively strengthen its resistance to abrasion.

Compared with prior art, the utility model has following characteristics:

1) because casing play fabric adopts 1/3 twill structure, when applying thermoplastic elastomer, three-dimensional coated casing play fabric can be presented, warp thread and weft yarn are not easily ask loose;

2) because casing play fabric carries out pretreatment by pre-soaked polyurethane glue, make the fibrous polymer in fabric yarn, can effectively prevent filoplume from producing, reduce the damage of load-transfer device both sides, reduce adjustment work of crawling, and strengthen the resistance to abrasion of load-transfer device;

3) because load-transfer device adopts one-shot forming in preparation process, do not need to carry out post-production " edge sealing " technique, can greatly enhance productivity;

4) load-transfer device in use, safe and reliable, the lousiness produced because load-transfer device avris runs friction effectively can be avoided to be mixed into products, and reduce the pollution to production environment.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation reducing the load-transfer device that avris filoplume amount produces of the utility model;

Fig. 2 is 1/3 twill structural representation of load-transfer device casing play fabric;

Description of symbols in figure:

1-casing play, 2-laminating layer, 3-cover surface layer, 4-weft yarn, 5-warp thread.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

Embodiment 1:

As shown in Figure 1, a kind of load-transfer device reducing avris filoplume amount and produce, this load-transfer device comprises casing play 1, laminating layer 2 and covers surface layer 3, casing play 1 is made up of two-layer fabric, laminating layer 2 is arranged on casing play 1 and covers between surface layer 3, and laminating layer 1 is with the material covering surface layer 3 thermoplastic polyurethane rubber that shore hardness is 85 ~ 90A.

As shown in Figure 2, the two-layer fabric in casing play 1 is the tissue layer of 1/3 twill structure.Warp thread 5 in fabric is that 21 2 strands of terylene are spun into silvalin, weft yarn 4 for diameter be 0.2mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.Wherein, the density that terylene is spun into silvalin is 16 pieces/centimeter, and the density of PET monofilament polyester is 15 pieces/centimeter.

In the present embodiment, the gross thickness of load-transfer device is 1.6mm, and covering surface layer 3 thickness is 0.3mm, and laminating layer 2 thickness is 0.1mm.

Embodiment 2:

In the present embodiment, the two-layer fabric in casing play 1 is the tissue layer of 1/3 twill structure.Warp thread 5 in fabric is that 21 2 strands of terylene are spun into silvalin, weft yarn 4 for diameter be 0.25mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.Wherein, the density that terylene is spun into silvalin is 18 pieces/centimeter, and the density of PET monofilament polyester is 13 pieces/centimeter.

Wherein, the gross thickness of load-transfer device is 1.5mm, and covering surface layer 3 thickness is 0.2mm, and laminating layer 2 thickness is 0.14mm.All the other are with embodiment 1.

Embodiment 3:

In the present embodiment, the two-layer fabric in casing play 1 is the tissue layer of 1/3 twill structure.Warp thread 5 in fabric is that 21 2 strands of terylene are spun into silvalin, weft yarn 4 for diameter be 0.3mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.Wherein, the density that terylene is spun into silvalin is 16 pieces/centimeter, and the density of PET monofilament polyester is 13 pieces/centimeter.

Wherein, the gross thickness of load-transfer device is 1.3mm, and covering surface layer 3 thickness is 0.25mm, and laminating layer 2 thickness is 0.16mm.All the other are with embodiment 1.

Embodiment 4:

In the present embodiment, casing play 1 is woven, and this woven is the tissue layer of 1/3 twill structure.Warp thread 5 in fabric is that 21 2 strands of terylene are spun into silvalin, weft yarn 4 for diameter be 0.2mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.Wherein, the density that terylene is spun into silvalin is 16 pieces/centimeter, and the density of PET monofilament polyester is 14 pieces/centimeter.

Wherein, the gross thickness of load-transfer device is 1.1mm, and covering surface layer 3 thickness is 0.15mm, and laminating layer 2 thickness is 0.12mm.All the other are with embodiment 1.

Embodiment 5:

In the present embodiment, casing play 1 is woven, and this woven is the tissue layer of 1/3 twill structure.Warp thread 5 in fabric is that 21 2 strands of terylene are spun into silvalin, weft yarn 4 for diameter be 0.2mm, the PET monofilament polyester of shrinkage percentage less than 0.2%.Wherein, the density that terylene is spun into silvalin is 18 pieces/centimeter, and the density of PET monofilament polyester is 13 pieces/centimeter.

Wherein, the gross thickness of load-transfer device is 0.9mm, and covering surface layer 3 thickness is 0.15mm, and laminating layer 2 thickness is 0.1mm.All the other are with embodiment 1.

Claims (5)

1. the load-transfer device reducing avris filoplume amount and produce, it is characterized in that, this load-transfer device comprises casing play (1), laminating layer (2) and covers surface layer (3), described casing play (1) is made up of individual layer or two-layer fabric, and described laminating layer (2) is arranged on casing play (1) and covers between surface layer (3).

2. a kind of load-transfer device reducing avris filoplume amount and produce according to claim 1, it is characterized in that, described laminating layer (2) is thermoplastic elastomer with the material covering surface layer (3).

3. a kind of load-transfer device reducing avris filoplume amount and produce according to claim 2, it is characterized in that, the preferred shore hardness of described thermoplastic elastomer is thermoplastic polyurethane rubber or the thermoplastic polyester elastomer of 85 ~ 90A.

4. a kind of load-transfer device reducing avris filoplume amount and produce according to claim 1, it is characterized in that, the individual layer in described casing play (1) or two-layer fabric are the tissue layer of 1/3 twill structure.

5. a kind of load-transfer device reducing avris filoplume amount and produce according to claim 1, it is characterized in that, described laminating layer (2) thickness is 0.1 ~ 0.2mm, described covering surface layer (3) thickness is 0.15 ~ 0.3mm, the gross thickness of described load-transfer device is: when casing play (1) is made up of woven, and load-transfer device gross thickness is 0.9 ~ 1.1mm; When casing play (1) is made up of two-layer fabric, load-transfer device gross thickness is 1.3 ~ 1.6mm.