CN218111952U - Abrasion-proof type belt for producing plastic floor with same transmission - Google Patents

Abstract

The utility model relates to an anti-abrasion type belt for producing a plastic floor with same transmittance, which comprises a belt body, wherein the roughness of the surface of one side of the belt body, which is contacted with the plastic floor with same transmittance, is 0.5-4.0 um when the belt body is used, two thickening belts distributed along the width direction of the belt for producing the anti-abrasion type plastic floor with same transmittance are arranged on one side of the belt body, which is contacted with the plastic floor with same transmittance, and the thickening belts extend along the extending direction of the belt for producing the anti-abrasion type plastic floor with same transmittance; when the wear-resistant co-transparent plastic floor production belt is used for producing a co-transparent plastic floor, the edges of two sides of the co-transparent plastic floor are located on the thickening belt in a one-to-one correspondence manner. The utility model aims at providing a position that the gas permeability is good, shaping floor edge is not easy to damage with passing through plastic floor production and using the area, solved current with passing through plastic floor production with taking the poor problem that influences the floor quality of gas permeability and use with the easy damage in position of floor edge contact and lead to life to shorten.

Description

Abrasion-proof type belt for producing plastic floor with same transmission

Technical Field

The utility model relates to a pass through plastic floor production field with, in particular to abrasionproof decreases formula and passes through plastic floor production with area and production method and application with passing through.

Background

The homogeneous transparent plastic floor (hereinafter referred to as homogeneous plastic floor) is formed between two conveyer belts in the production process (the conveyer belt for forming the homogeneous plastic floor is referred to as a belt for producing the homogeneous plastic floor). The existing belt for producing the plastic floor with the same transmission has the defect of poor air permeability, so that the air permeability of the plastic injected between the two belts for producing the plastic floor with the same transmission under high pressure is insufficient when the plastic is formed into the belt, and the formed belt can generate cracks and wrinkles. When the belt for producing the same-transmission plastic floor is used, one surface of the belt is in contact with plastic, the other surface of the belt is driven by the driving roller to rotate, the surface in contact with the plastic is required to have good separation performance, the belt is convenient to separate from the floor, the surface in contact with the driving roller is required to have large friction resistance, so that the belt is not easy to slip during rotation, the existing belt for producing the same-transmission plastic floor realizes the performance of the two surfaces by coating the surface, and the coated coating is easy to fall off during use; when the floor strip is used, the edge of the formed floor is quickly worn, so that the edge of the formed floor is scrapped due to serious local wear, and the service life of the strip is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a position that the gas permeability is good, shaping floor edge is not easy to damage with passing through plastic floor production and using the area, solved current with passing through plastic floor production with taking the poor problem that influences the floor quality of gas permeability and use with the easy damage in position of floor edge contact and lead to life to shorten.

The technical problem is solved by the following technical scheme: an anti-abrasion type belt for producing the same-transmission plastic floor comprises a belt body and is characterized in that the roughness of the surface of one side of the belt body, which is in contact with the same-transmission plastic floor when in use, is 0.5-4.0 um, two thickening belts distributed along the width direction of the belt for producing the anti-abrasion type same-transmission plastic floor are arranged on one side of the belt body, which is in contact with the same-transmission plastic floor when in use, and the thickening belts extend along the extension direction of the belt for producing the anti-abrasion type same-transmission plastic floor; when the wear-resistant co-transparent plastic floor production belt is used for producing a co-transparent plastic floor, the edges of two sides of the co-transparent plastic floor are located on the thickening belt in a one-to-one correspondence manner. According to the technical scheme, the roughness of the surface of one side, which is in contact with the floor, is 0.5-4.0 um, so that the surface is good in air permeability, a ventilation channel is formed by the rough surface when the floor is manufactured, the floor of a house is cracked, and the quality of the floor is improved. Set up the edge that the thickening area is located the floor for it is difficult to produce wearing and tearing to form floor edge, thereby plays the effect that increases life-span.

Preferably, the belt body comprises base cloth, a surface layer covering one side surface of the base cloth, which is contacted with the transparent plastic floor when the base cloth is used, and a lining covering the other side surface of the base cloth, the base cloth is woven by warps and wefts, the thickening belt is arranged on the surface layer, and the surface layer has the same texture as the base cloth, so that the roughness of the surface layer is 0.5-4.0 um. This technical scheme utilizes the texture formation roughness of cloth to be 0.5um ~ 4.0 um's surface course, and is convenient when forming surface roughness, and the coarse structure that forms on the surface is difficult to wear and tear. The base cloth is preferably as follows: glass fiber cloth, aramid cloth, polyester cloth, and the like, and most preferably glass fiber cloth.

Preferably, the facing and backing layers are of the same material and are bonded together by gaps defined by the warp and weft yarns. The connection reliability is good, and the covering effect on the base cloth is good.

Preferably, the base cloth comprises an inner layer base cloth and a surface layer base cloth, the surface layer and the inner layer only cover the surface layer base cloth, the texture of the surface layer is the same as that of the surface layer base cloth, one side of the inner layer base cloth covers an inner layer part outer surface layer, the other side of the inner layer base cloth covers an inner layer part inner surface layer, the inner layer part outer surface layer and the inner layer part inner surface layer are made of the same material, and the inner layer part outer surface layer and the inner layer part inner surface layer are bonded together through gaps formed by surrounding warp yarns and weft yarns. Two layers of bases are arranged, and the two sides of the belt can be conveniently treated to have different effects.

Preferably, the inner layer and the inner surface layer of the inner layer part are bonded together through an adhesive layer. The connection reliability is good.

Preferably, the surface layer, the outer surface layer of the inner layer part and the bonding layer are all made of polytetrafluoroethylene emulsion, fluorinated ethylene propylene emulsion, polyvinyl alcohol emulsion, polyether organic silicon copolymer or silicon rubber.

Preferably, the extending direction of the warp is consistent with the length direction of the abrasion-proof type plastic floor production belt. The tensile effect is good.

Preferably, the surface layer base fabric is twill fabric, the inner layer base fabric is plain fabric, and the outer surface layer of the inner layer has the same texture as the inner layer base fabric. The twill is used to the base cloth in the surface course because the line staggers with the trend that the belt moved when using, and the superficial layer that has set for roughness on surface course is most firm with the laminating of area base, is difficult to the layering. The inner layer base cloth is plain woven, the cloth cover is flat and stiff, and the inner layer base cloth is not easy to slip on the driving roller.

The utility model discloses following beneficial effect has: high-temperature-resistant woven fabric is selected, and a ventilation channel for floor production is formed by using textures on the woven fabric, so that ventilation is improved, the produced floor is not easy to crack, and ventilation is convenient; the double-layer woven fabric is formed, so that the belt has higher strength under the condition of the same thickness, the same double-layer belt has the same thickness by changing the diameter of the yarn to be equivalent to the thickness of the double-layer belt, the strength of a single layer is smaller than that of the double layer, the using amount of latex during surface treatment is increased, the material amount for manufacturing the woven fabric is large, and the cost of the single layer is higher than that of the double layer; when the double-layer structure is adopted, the inner layer and the surface layer can be soaked in different latex to form the surface layer with different two-sided characteristics, so that not only can the texture be ensured (the texture is easy to disappear by a coating mode), but also the surface layer is not easy to fall off, and the service life is long; the thickening layer is formed at the edge part of the floor, so that the damage of the part contacted with the edge of the floor can be prevented, and the air permeability of the edge part can be ensured (the integral thickening can cause the disappearance of the texture and the loss of the air permeability).

Drawings

FIG. 1 is a schematic view of the position relationship between the floor and the present invention;

fig. 2 is a longitudinal sectional view of the present invention.

In the figure: the floor comprises a surface layer base fabric 3, a surface layer 22, an inner layer 4, a surface layer part warp yarn 5, a surface layer part weft yarn 6, a thickening belt 7, a transparent plastic floor 8, an inner layer base fabric 9, an inner layer part outer surface layer 10, an inner layer part inner surface layer 11, an inner layer part warp yarn 12, an inner layer part weft yarn 13 and an adhesive layer 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 and 2, an abrasion-proof belt for manufacturing a plastic floor comprises a belt body. The belt body 1 comprises a surface layer base fabric 3 and an inner layer base fabric 9. The surface layer base fabric is woven by surface layer part warp yarns 5 and surface layer part weft yarns 6. The surface layer base cloth and the inner layer base cloth are preferably as follows: glass fiber cloth, aramid cloth, polyester cloth and the like, and most preferably glass fiber cloth. The surface layer base cloth is twill cloth. The inner base fabric is woven by inner warp yarns 12 and inner weft yarns 13; the inner base cloth is plain cloth. The surface layer base cloth 3 is covered with a surface layer 22 and an inner layer 4. The surface layer and the inner layer are formed by soaking the surface layer base cloth into a fluid material to cover the surface layer base cloth and then taking out and curing. The surface layer and the inner layer are made of polytetrafluoroethylene emulsion, fluorinated ethylene propylene emulsion, polyvinyl alcohol emulsion, polyether organic silicon copolymer or silicon rubber. The materials of the surface layer and the inner layer are bonded together through gaps surrounded by the warp yarns and the weft yarns. The surface layer has the same texture as the base cloth of the surface layer part, and the roughness of the surface layer is 0.5 um-4.0 um. The melting temperature of the surface layer base cloth and the surface layer is above 400 ℃. The extending direction of the warp yarns of the surface layer part is consistent with the length direction of the wear-resistant type belt for producing the same-transmission plastic floor. I.e. the direction of movement when in use. The surface layer is provided with two thickening belts 7 distributed along the width direction of the wear-resistant co-transparent plastic floor production belt, the thickening belts extend along the extension direction of the wear-resistant co-transparent plastic floor production belt, and the thickening belts are formed by local secondary spraying; when the wear-resistant co-transparent plastic floor production belt is used for producing a co-transparent plastic floor, the edges of two sides of the co-transparent plastic floor 8 are located on the two thickening belts in a one-to-one correspondence manner.

The inner base fabric 9 is covered with an inner outside surface layer 10 and an inner inside surface layer 11. The base cloth of the inner layer part is plain cloth. The outer surface layer of the inner layer part has the same texture as the base cloth of the inner layer part. The outer surface layer of the inner layer part and the inner surface layer of the inner layer part are formed by soaking the inner base cloth into a fluid material to cover the surface base cloth and then taking out the inner base cloth to be cured. The outer surface layer of the inner layer part and the inner surface layer of the inner layer part are made of polytetrafluoroethylene emulsion, fluorinated ethylene propylene emulsion, polyvinyl alcohol emulsion, polyether organic silicon copolymer or silicon rubber. The materials of the inner part outer surface layer and the inner part inner surface layer are bonded together through gaps surrounded by the warp yarns and the weft yarns. The melting temperature of the inner base cloth, the outer surface layer of the inner part and the inner surface layer of the inner part is above 400 ℃. The extending direction of the inner layer warp is consistent with the length direction of the abrasion-proof type belt for producing the same-transparent plastic floor. The inner layer and the inner surface layer of the inner layer part are bonded together through a bonding layer 14. The melting temperature of the bonding layer is above 400 ℃. The adhesive layer is made of polytetrafluoroethylene emulsion, fluorinated ethylene propylene emulsion, polyvinyl alcohol emulsion, polyether organic silicon copolymer or silicon rubber. When the abrasion-proof type belt for producing the same-transmission plastic floor is used for producing the same-transmission plastic floor, the surface layer is contacted with the same-transmission plastic floor, and the inner side surface layer of the inner layer part is contacted with the driving roller for driving the abrasion-proof type belt for producing the same-transmission plastic floor.

Production the utility model discloses the well process does: the method comprises the following steps of firstly, soaking a surface layer base fabric into surface layer manufacturing latex for manufacturing a surface layer, taking out the surface layer base fabric, manufacturing latex for the surface layer adhered to the surface layer base fabric, hardening the latex to the degree of remaining viscosity, soaking an inner layer base fabric into inner layer surface layer manufacturing latex for manufacturing an outer layer of an inner layer, taking out the inner layer base fabric, manufacturing latex for the inner layer surface layer adhered to the inner layer base fabric, and hardening the latex to the degree of remaining viscosity; coating adhesive layer preparation latex for preparing the adhesive layer on the inner sides of the inner layer and the inner surface layer of the inner layer part to be adhered together; heating cures all bondlines. When the plastic floor with the same transmittance is produced by the utility model, two annular belts for producing the plastic floor with the same transmittance, which are manufactured by the anti-abrasion type annular belt for producing the plastic floor with the same transmittance, are distributed along the vertical direction and pass through the oven, the two annular belts for producing the plastic floor with the same transmittance are respectively matched by two driving rollers distributed along the horizontal direction to drive and rotate, and a floor cavity of the plastic floor with the same transmittance is formed between the two annular belts for producing the plastic floor with the same transmittance; and adding plastic particles for manufacturing the plastic floor with the same permeability into the floor type cavity from one end of the moving direction of the annular belt for manufacturing the plastic floor with the same permeability, wherein the plastic particles move along with the annular belt for manufacturing the plastic floor with the same permeability, the plastic particles are melted into plastic in a molten state when passing through the oven, and the plastic in the molten state is solidified into the plastic floor with the same permeability when leaving the oven along with the movement of the belt for manufacturing the abrasion-proof plastic floor with the same permeability.

Claims (8)

1. The utility model provides an abrasionproof decreases formula is with passing through area for plastic floor production, includes and takes the body, its characterized in that, the roughness on the surface of one side of passing through plastic floor contact is 0.5um ~ 4.0um simultaneously when taking the use of body, is equipped with along the abrasionproof decreases formula with passing through two thickening areas that plastic floor production is with the area width direction distributes simultaneously with passing through one side of plastic floor contact when taking the use of body, and the thickening area extends along the abrasionproof decreases formula with the extending direction who passes through the plastic floor production with taking.

2. The wear-resistant belt for manufacturing the plastic floor board comprises a base cloth, a surface layer covering one side surface of the base cloth, which is in contact with the plastic floor board when the base cloth is used, and an inner layer covering the other side surface of the base cloth, wherein the base cloth is woven by warps and wefts, the thickening belt is arranged on the surface layer, and the texture of the surface layer is the same as that of the base cloth, so that the roughness of the surface layer is 0.5-4.0 um.

3. The strip of claim 2 wherein the facing and inner layers are of the same material and are bonded together by gaps defined by the warp and weft yarns.

4. The belt of claim 2 or 3, wherein the base fabric comprises an inner layer base fabric and a surface layer base fabric, the surface layer and the inner layer are only covered on the surface layer base fabric, the surface layer has the same texture as the surface layer base fabric, one side of the inner layer base fabric is covered with an inner layer outside surface layer, the other side of the inner layer base fabric is covered with an inner layer inside surface layer, the inner layer outside surface layer and the inner layer inside surface layer are made of the same material and are bonded together through gaps surrounded by warp yarns and weft yarns.

5. The strip of claim 4, wherein said inner layer and said inner surface layer of said inner layer are bonded together by an adhesive layer.

6. The strip of claim 5, wherein said facing layer, said inner layer, said outer surface layer and said adhesive layer are made of polytetrafluoroethylene emulsion, fluorinated ethylene propylene emulsion, polyvinyl alcohol emulsion, polyether silicone copolymer or silicone rubber.

7. The strip of claim 2 or 3, wherein the warp yarns extend in the same direction as the length of the strip.

8. The strip of claim 4, wherein the surface layer base fabric is a twill fabric, the inner layer base fabric is a plain fabric, and the outer surface layer of the inner layer has the same texture as the inner layer base fabric.

Images