CN216267910U - Antiskid glass fiber reinforced plastic plate - Google Patents

Abstract

The application relates to an anti-skidding glass fiber reinforced plastic plate, which comprises a base layer and an elastic layer arranged on one side of the base layer, wherein an anti-skidding layer is arranged on one side, away from the base layer, of the elastic layer. This application has the effect that improves packing box bottom and stacks goods stability.

Description

Antiskid glass fiber reinforced plastic plate

Technical Field

The application relates to the field of plate production, in particular to an anti-skidding glass fiber reinforced plastic plate.

Background

The glass fiber reinforced plastic plate can be used for manufacturing glass fiber reinforced plastic plates and tank plates for vehicles when being used for manufacturing finished products due to the material characteristics, and can be used for manufacturing cooling tower corrugated tiles, color steel tiles, corrugated plates for buildings, tiles and the like in the field of buildings.

The automobile container is a container for stacking goods and is arranged on a transport vehicle, and most of the container bodies are made of glass fiber reinforced plastic plates.

In view of the above-mentioned related art, the inventor believes that, if the containers are made of the same type of glass fiber reinforced plastic plates, the side surface of the container at the bottom of the container for the porter and the goods to be stacked is smooth, so that the goods stored in the container is poor in stability.

SUMMERY OF THE UTILITY MODEL

In order to improve the stability of piling up the goods bottom the packing box, this application provides an antiskid glass steel sheet material.

The application provides an antiskid glass steel sheet adopts following technical scheme:

the anti-skid glass fiber reinforced plastic plate comprises a base layer and an elastic layer arranged on one side of the base layer, wherein an anti-skid layer is arranged on one side, away from the base layer, of the elastic layer.

By adopting the technical scheme, the elastic layer is favorable for absorbing the amplitude transmitted to the collector layer from the surface of the plate when stacking the goods, so that the amplitude generated by the whole container during goods transportation is reduced; when the glass fiber reinforced plastic plate at the bottom of the tank box is installed, one side provided with the anti-slip layer is just opposite to the inside of the tank box, so that the stability of goods stacked in the container is improved, and meanwhile, the stability of a porter in the process of carrying the goods can also be improved.

Optionally, the elastic layer includes a first fiber layer and a first resin layer, the first resin layer covers the first fiber layer, and the first resin layer has elasticity.

Through adopting above-mentioned technical scheme, the elastic layer has the fiber material to make, and when fiber material assembled the elastic layer, clearance has between the adjacent fiber material, forms the first fiber layer of parcel after soaking fiber material with the resin to increase the toughness of fiber layer when bearing the weight of the goods, because the resin has elasticity, can absorb the amplitude that produces when the part transports the goods.

Optionally, the base layer includes a support layer, and the support layer includes a second fiber layer and a second resin layer, and the second fiber layer is wrapped by the second resin layer.

By adopting the technical scheme, the second fiber layer is formed by the fiber structure, and the overall weight of the plate can be reduced due to the characteristic of thin and brittle materials of the fibers, so that the convenience in carrying the plate is improved; and the second resin layer is arranged to coat the second fiber layer, so that the toughness of the supporting layer is improved.

Optionally, the base layer further includes an impact-resistant layer, the impact-resistant layer includes a fiber woven fabric layer and a third resin layer, and the third resin layer covers the fiber woven fabric layer.

By adopting the technical scheme, the fiber woven cloth has the characteristic of high strength, and is beneficial to improving the upper limit of the stress load of the plate, so that the integral hardness of the plate is improved; set up the outer wall cladding of third resin layer with fibre braided fabric layer, avoid panel in the use, cloth and external environment direct contact are woven to the fibre to avoid fibre to weave the cloth and scrape the damage, thereby it is long when the use of extension panel.

Optionally, the base layer further includes a reinforcing layer, the reinforcing layer includes a third fiber layer and a fourth resin layer, and the third fiber layer is coated with the fourth resin layer.

By adopting the technical scheme, the third fiber layer is formed by the fiber structure, and the fiber has the characteristics of thin and brittle materials, so that the whole weight of the plate can be reduced, and the convenience in carrying the plate is improved; the resin has good flexibility, so that the third resin layer is arranged to cover the third fiber layer, the material defect of the fiber can be overcome, and the toughness of the plate when the plate is impacted by external force is improved.

Optionally, one side of the anti-slip layer, which is far away from the elastic layer, is convexly provided with a plurality of anti-slip bumps.

Through adopting above-mentioned technical scheme, set up anti-skidding bump protrusion in the surface of skid resistant course, be favorable to increasing the frictional force that the face was stacked to packing box bottom confession goods to further improve the inside skid resistance of packing box.

Optionally, a plurality of limiting strips are convexly arranged on one side of the anti-skid layer facing the elastic layer, the limiting strips are equidistantly distributed along the side wall of the surface of the anti-skid layer, and a plurality of butt-joint strips are convexly arranged on one side of the elastic layer facing the impact-resistant layer; and a groove for buckling the butt joint strip is formed between the adjacent limiting strips.

By adopting the technical scheme, the plurality of limiting strips are protruded to increase the contact area between the anti-skid layer and the elastic layer, so that the bonding stability between the anti-skid layer and the elastic layer is improved; a plurality of butt-joint strips are protruded out of the elastic layer and buckled into the grooves, so that the bonding stability between the anti-skid layer and the elastic layer is further improved.

Optionally, one side of each limiting strip, which is close to the adjacent limiting strip, is obliquely arranged, and the width of the opening of each groove is smaller than the width of the inner wall of the bottom of each groove.

Through adopting above-mentioned technical scheme, spacing to the lopsidedness that is close to adjacent spacing, the opening part width that forms the recess is less than the width of recess bottom to be convenient for to butt joint strip formation on the elastic layer embraces the clamp trend, thereby further improve the adhesion stability between skid resistant course and the shock-resistant layer.

In summary, the present application includes at least one of the following beneficial technical effects:

the elastic layer is favorable for absorbing the amplitude transmitted to the collector layer from the surface of the plate when stacking the goods, so that the amplitude generated when the goods are transported in the whole container is reduced;

the anti-skid convex points are arranged to protrude out of the surface of the anti-skid layer, so that the friction force of the goods stacking surface at the bottom of the container is increased;

the spacing strips incline to one side close to the adjacent spacing strips, and the width of the opening forming the groove is smaller than that of the bottom of the groove, so that the butt joint strips on the elastic layer are conveniently clamped.

Drawings

FIG. 1 is a schematic view of the layer structure of the antiskid glass fiber reinforced plastic plate in example 1 of the present application;

FIG. 2 is a schematic view of the layer structure of a substrate;

FIG. 3 is a schematic view of the layer structure of the antiskid glass fiber reinforced plastic plate in example 2 of the present application;

fig. 4 is a schematic view of the layer structure of the antiskid glass fiber reinforced plastic plate in example 3 of the present application.

Description of reference numerals: 1. a substrate layer; 11. a support layer; 111. a second fibrous layer; 112. a second resin layer; 12. an impact resistant layer; 121. a fiber weaved cloth layer; 122. a third resin layer; 13. an enhancement layer; 131. a third fibrous layer; 132. a fourth resin layer; 2. an elastic layer; 21. a first fibrous layer; 22. a first resin layer; 23. butting strips; 3. an anti-slip layer; 31. anti-skid bumps; 4. a limiting strip; 41. and (4) a groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses antiskid glass fiber reinforced plastic plate.

Example 1:

referring to fig. 1, the antiskid glass fiber reinforced plastic plate comprises a substrate layer 1, an elastic layer 2 and an antiskid layer 3 which are sequentially arranged from bottom to top; the base layer 1 comprises a supporting layer 11, an impact-resistant layer 12 and a reinforcing layer 13 which are sequentially arranged from bottom to top; one side protrusion that elastic layer 2 was kept away from to skid resistant course 3 is provided with a plurality of anti-skidding bumps 31, and a plurality of anti-skidding bumps 31 are equidistance and distribute with great ease.

The base layer 1 may be composed of any one of the support layer 11, the impact-resistant layer 12 and the reinforcement layer 13, or may be composed of two or three of the support layer 11, the impact-resistant layer 12 and the reinforcement layer 13, and in this embodiment, the base layer 1 is a three-layer structure.

Referring to fig. 1 and 2, the elastic layer 2 includes a first fiber layer 21 and a first resin layer 22; the first resin layer 22 covers the first fiber layer 21 and has elasticity; in the present embodiment, 200g/m is used for the first fiber layer 21²-250g/m²The first fiber layer 21 is immersed into the resin in a molten state, so as to form a first resin layer 22 wrapping the first fiber layer 21; the fibrous material used in the first fibrous layer 21 in this embodiment may also be glass fiber mat/glass fiber yarn, carbon fiber mat/carbon fiber yarn, basalt fiber mat/basalt fiber yarn, polyester fiber mat/polyester fiber yarn, or the like.

Referring to fig. 2, the support layer 11 includes a second fiber layer 111 and a second resin layer 112, wherein the second resin layer 112 completely wraps the second fiber layer 111; in this embodiment, the second fiber layer 111 is 100g/m²-300g/m²The second fiber layer 111 is immersed into the resin in a molten state, so that a second resin layer 112 is formed to wrap the second fiber layer 111; the fiber used in the second fiber layer 111 in this embodiment may also be glass fiber mat/glass fiber yarn, carbon fiber mat/carbon fiber yarn, basalt fiber mat/basalt fiber yarn, polyester fiber mat/polyester fiber yarn, or the like.

Referring to fig. 2, the impact-resistant layer 12 includes a fiber woven fabric layer 121 and a third resin layer 122, and the third resin layer 122 covers the fiber woven fabric layer 121; in this embodiment, the fiber woven cloth layer 121 is woven from fibers to form a woven cloth layer of 200g/m²-600g/m²The fiber woven fabric of (3), the fiber woven fabric layer 121 is immersed in the molten resin to form a third resin layer 122 wrapping the fiber woven fabric layer 121; the fiber used in the fiber woven fabric layer 121 in this embodiment may be glass fiber cloth, carbon fiber cloth, basalt fiber cloth, polyester fiber cloth, or the like.

The fiber woven cloth has the characteristic of high strength, and is beneficial to improving the upper limit of the stress load of the plate, so that the integral hardness of the plate is improved.

Referring to fig. 2, the reinforcing layer 13 includes a third fiber layer 131 and a fourth resin layer 132, and the fourth resin layer 132 covers the third fiber layer 131; in this embodiment, the third fiber layer 131 is 300g/m²-600g/m²The third fiber layer 131 is immersed in the molten resin to form a fourth resin layer 132 wrapping the third fiber layer 131; the fiber used in the third fiber layer 131 in this embodiment may also be glass fiber mat/glass fiberThe fiber yarn is made of fiber yarn, carbon fiber felt/carbon fiber yarn, basalt fiber felt/basalt fiber yarn, polyester fiber felt/polyester fiber yarn and the like.

Referring to fig. 1, the anti-slip layer 3 is formed by mixing carborundum, quartz stone, glass powder and glue in a certain proportion, and the mixture is uniformly coated on one side of the elastic layer 2, which is far away from the base layer 1, and then dried.

The implementation principle of the embodiment 1 is as follows:

the first fiber layer 21, the second fiber layer 111 and the third fiber layer 131 are all made of fiber yarns or fiber felts, and the fibers have the characteristics of thin and fragile materials, so that the overall weight of the plate can be reduced, and the convenience in carrying the plate is improved; respectively immersing the first fiber layer 21, the second fiber layer 111 and the third fiber layer 131 into resin to improve the toughness of the plate; the elastic layer 2 is favorable for absorbing the amplitude transmitted to the collector layer from the surface of the plate when stacking the goods, so that the amplitude generated when the goods are transported in the whole container is reduced; when the glass fiber reinforced plastic plate at the bottom of the tank is installed, one side provided with the anti-skid layer 3 is opposite to the inside of the tank, so that the anti-skid performance of goods stacked in the container is improved, and the stability of a carrier during carrying the goods can be improved; the anti-skid convex points 31 increase the friction force of the goods-supplying object stacking surface at the bottom of the container, thereby further improving the anti-skid performance inside the container.

Example 2:

referring to fig. 3, the difference between this embodiment and embodiment 1 is that a plurality of limiting strips 4 are convexly disposed on one side of the anti-slip layer 3 facing the elastic layer 2, the plurality of limiting strips 4 are equidistantly distributed along the sidewall of the surface of the anti-slip layer 3, and a plurality of butt-joint strips 23 are convexly disposed on one side of the elastic layer 2 facing the impact-resistant layer 12; a groove 41 for buckling the butt joint strip 23 is formed between the adjacent limiting strips 4, the butt joint strip 23 is made of resin and is integrally formed with the third resin layer 122, and the butt joint strip 23 has elasticity, so that the butt joint strip can be buckled into the groove 41 conveniently.

One side of each limiting strip 4 close to the adjacent limiting strip 4 is obliquely arranged, and the cross section of each groove 41 is trapezoidal; the width of the opening of the groove 41 is smaller than the width of the inner wall of the bottom of the groove 41.

The implementation principle of the embodiment 2 is as follows: the plurality of limiting strips 4 are protruded to increase the contact area between the anti-skid layer 3 and the elastic layer 2, so that the bonding stability between the anti-skid layer 3 and the elastic layer 2 is improved; the butt-joint strips 23 are buckled into the grooves 41, so that the bonding stability between the anti-skid layer 3 and the elastic layer 2 is further improved; spacing 4 to the slope of the one side that is close to adjacent spacing 4, the opening part width that forms recess 41 is less than the width of recess 41 bottom to be convenient for form the armful trend of pressing from both sides to butt joint strip 23 on the elastic layer 2, thereby further improve the adhesion stability between skid resistant course 3 and the resistant layer 12 of strikeing.

Example 3:

referring to fig. 4, the present embodiment is different from embodiment 1 in that an anti-slip layer 3 is also provided on the side of the base layer 1 away from the elastic layer 2.

The implementation principle of the embodiment 3 is as follows: one side that the elastic layer 2 was kept away from on base member layer 1 sets up skid resistant course 3, improves the container outer wall and bears the weight of the frictional force between the ground to improve the non-skid property of container.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. An antiskid glass fiber reinforced plastic plate is characterized in that: the anti-skid composite material comprises a base layer (1) and an elastic layer (2) arranged on one side of the base layer (1), wherein an anti-skid layer (3) is arranged on one side, away from the base layer (1), of the elastic layer (2), the elastic layer (2) comprises a first fiber layer (21) and a first resin layer (22), the first fiber layer (21) is coated by the first resin layer (22), and the first resin layer (22) has elasticity; the base layer (1) comprises a support layer (11), the support layer (11) comprises a second fiber layer (111) and a second resin layer (112), and the second fiber layer (111) is coated by the second resin layer (112).

2. The anti-skid glass fiber reinforced plastic plate as claimed in claim 1, wherein: the base layer (1) also comprises an impact-resistant layer (12); the impact-resistant layer (12) comprises a fiber woven fabric layer (121) and a third resin layer (122), and the third resin layer (122) coats the fiber woven fabric layer (121).

3. The anti-skid glass fiber reinforced plastic plate as claimed in claim 1, wherein: the matrix layer (1) further comprises a reinforcing layer (13), the reinforcing layer (13) comprises a third fiber layer (131) and a fourth resin layer (132), and the third fiber layer (131) is coated by the fourth resin layer (132).

4. The anti-skid glass fiber reinforced plastic plate as claimed in claim 1, wherein: and a plurality of anti-skidding convex points (31) are convexly arranged on one side of the anti-skidding layer (3) far away from the elastic layer (2).

5. The anti-skid glass fiber reinforced plastic plate as claimed in claim 2, wherein: a plurality of limiting strips (4) are convexly arranged on one side, facing the elastic layer (2), of the antiskid layer (3), the limiting strips (4) are equidistantly distributed along the side wall of the surface of the antiskid layer (3), and a plurality of butt-joint strips (23) are convexly arranged on one side, facing the impact-resistant layer (12), of the elastic layer (2); a groove (41) for buckling the butt joint strip (23) is formed between the adjacent limiting strips (4).

6. The anti-skid glass fiber reinforced plastic plate as claimed in claim 5, wherein: one side of each limiting strip (4) close to the adjacent limiting strip (4) is obliquely arranged, and the width of the opening of each groove (41) is smaller than that of the inner wall of the bottom of each groove (41).

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