CN218906501U - Wear-resistant glass fiber reinforced plastic composite board - Google Patents

Abstract

The utility model discloses a wear-resistant glass fiber reinforced plastic composite board, which relates to the technical field of glass fiber reinforced plastic, and comprises a composite board body, wherein the composite board body comprises a board core layer, an upper connecting layer and a glass fiber reinforced plastic panel are sequentially arranged above the board core layer from bottom to top, a lower connecting layer and a glass fiber reinforced plastic bottom plate are sequentially arranged below the board core layer from top to bottom, the upper side and the lower side of the board core layer are fixedly connected with a high-gloss gel coat layer, the upper connecting layer and the lower connecting layer are fixedly connected with one side of the board core layer through the high-gloss gel coat layer, a plurality of reinforcing hidden columns penetrate and extend into the honeycomb hole layer, the connecting strength of the upper connecting layer and the lower connecting layer and the board core layer is enhanced, the upper connecting layer and the lower connecting layer are not easy to fall off, the embedded glass fiber reinforced plastic panel is limited by an embedded mounting groove, the glass fiber reinforced plastic panel and the glass fiber reinforced plastic bottom plate are not easy to misplace, meanwhile, the locking clamping columns and the locking clamping grooves are clamped, the locking strength between the boards is enhanced, and the glass fiber reinforced plastic composite board is not easy to break.

Description

Wear-resistant glass fiber reinforced plastic composite board

Technical Field

The utility model relates to the technical field of glass fiber reinforced plastics, in particular to a wear-resistant glass fiber reinforced plastic composite board.

Background

The composite material is a thermosetting plastic material which is formed by a resin fiber material and a plurality of functional auxiliary materials, and is also called glass fiber reinforced plastic because the composite material has a plurality of excellent performances of steel and glass.

The glass fiber reinforced plastic composite board mainly has four advantages: first, easy to form, because the glass fiber reinforced plastic is not constrained or limited by time, space, address and equipment in the processing process; a second excellent electrical insulating property; thirdly, the waterproof and anticorrosion functions are good; the fourth density is small and the specific gravity is light. Based on the advantages of the glass fiber reinforced plastic composite material, the composite material is applied to aspects of building materials, electric power insulation, industrial chemical corrosion prevention, ship manufacturing, military industry, handicraft manufacturing and the like.

The existing glass fiber reinforced plastic composite board has the disadvantages that the surface layer board and the core layer board are bonded by using an adhesive generally, the bonding effect is poor, the phenomenon that the surface layer falls off easily occurs because of the diversity of application environments of the composite board, the bonding strength is low, and when the surface of the composite board bears larger pressure, the coating force of the core layer is reduced due to the error position of the bonding force, and the breakage easily occurs; in addition, the surface of the composite board is usually smooth plane or is only provided with simple texture, the anti-skid effect is poor, and danger is easy to occur.

Disclosure of Invention

The utility model aims to provide a wear-resistant glass fiber reinforced plastic composite board, which has the advantages of strong bonding stability, difficult dislocation and falling, strong bearing pressure, difficult fracture and anti-skid effect.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a wear-resisting glass steel composite board, includes the composite board body, the composite board body includes the board sandwich layer, upper junction layer and glass steel panel have been set gradually from supreme down in the top of board sandwich layer, lower junction layer and glass steel bottom plate have been set gradually from last to down in the below of board sandwich layer, the equal fixedly connected with highlight gel coat layer in upper and lower both sides of board sandwich layer, upper junction layer and lower junction layer pass through one side fixed connection of highlight gel coat layer and board sandwich layer, the embedding mounting groove has all been seted up to one side that upper junction layer and lower junction layer are on the back of the body, the equal fixedly connected with of one side that glass steel panel and glass steel bottom plate are relative with embedding mounting groove assorted embedding glass steel panel, through adhesive layer fixed connection between embedding glass steel panel and the embedding mounting groove, the middle part fixedly connected with honeycomb hole layer of board sandwich layer, the inside that the inside of a plurality of hiding the equal fixedly connected with of one side that upper junction layer and lower junction layer are relative is strengthened is hidden the post, the other end of strengthening the column runs through and extends to the honeycomb hole layer.

In order to ensure that dislocation phenomenon is not easy to occur between two adjacent connecting plates, the wear-resistant glass fiber reinforced plastic composite plate is preferable in the utility model, the inner side wall of the embedded mounting groove is fixedly connected with a plurality of locking clamping columns, and one side of the embedded glass fiber reinforced plastic plate is provided with a locking clamping groove matched with the locking clamping columns.

In order to prolong the service life of the glass fiber reinforced plastic composite board, the wear-resistant glass fiber reinforced plastic composite board is preferable, and a plurality of hollow cavities are formed in the upper connecting layer and the lower connecting layer.

In order to enable the glass fiber reinforced plastic composite board to have corrosion resistance, the wear-resistant glass fiber reinforced plastic composite board is preferable, the upper connecting layer is an XPS board, and the honeycomb hole layer is a foam board.

In order to enhance the wear resistance of the glass fiber reinforced plastic composite board, the lower connecting layer is preferably a low-alloy wear-resistant steel plate, and the lower end of the glass fiber reinforced plastic bottom plate is fixedly provided with a chromium-molybdenum-silicon alloy wear-resistant steel plate.

In order to enhance the anti-skid performance of the upper end of the glass fiber reinforced plastic panel, the wear-resistant glass fiber reinforced plastic composite board is preferable, wherein the upper end of the glass fiber reinforced plastic panel is fixedly connected with a plurality of convex anti-skid ribs which are uniformly distributed, the interiors of the convex anti-skid ribs are fixedly connected with rib columns, and inclined ribs which are fixedly connected with the upper end of the glass fiber reinforced plastic panel are arranged between every two adjacent convex anti-skid ribs.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the upper connecting layer and the lower connecting layer are fixedly connected with the board core layer through the high-gloss gel coat layer, and the reinforcing hidden columns penetrate through and extend to the inside of the honeycomb hole layer, so that the connection strength of the upper connecting layer and the lower connecting layer with the board core layer is enhanced, and the upper connecting layer and the lower connecting layer are not easy to fall off.

2. According to the utility model, the embedded glass fiber reinforced plastic plates on one side of the glass fiber reinforced plastic panel and the glass fiber reinforced plastic bottom plate are fixedly arranged in the embedded mounting groove through the adhesive layer, so that the adhesive strength of the glass fiber reinforced plastic panel and the glass fiber reinforced plastic bottom plate is increased, the embedded glass fiber reinforced plastic plates are limited by the embedded mounting groove, the glass fiber reinforced plastic panel and the glass fiber reinforced plastic bottom plate are not easy to misplace, meanwhile, the locking clamping columns are clamped with the locking clamping grooves, the locking strength between the glass fiber reinforced plastic panel and the glass fiber reinforced plastic bottom plate and the upper connecting layer and the lower connecting layer is enhanced, and the glass fiber reinforced plastic composite plate is not easy to break.

3. According to the utility model, the bearing pressure of the glass fiber reinforced plastic composite board is enhanced by the honeycomb hole layer, the service life is prolonged, and the plurality of ribs are arranged at the upper end of the glass fiber reinforced plastic panel, so that the glass fiber reinforced plastic composite board has better anti-skid performance, the use safety is improved, and meanwhile, the glass fiber reinforced plastic composite board is made of corrosion-resistant and wear-resistant materials, and the service life is prolonged.

Drawings

FIG. 1 is a block diagram of an overall cross-section of a wear-resistant glass fiber reinforced plastic composite board in accordance with the present utility model;

FIG. 2 is a cross-sectional structural view of the composite board body of the present utility model;

fig. 3 is a top view of the glass fiber reinforced plastic panel of the present utility model.

In the figure: 1. a composite board body; 101. a board core layer; 1011. a honeycomb cell layer; 102. a high-gloss gel coat layer; 103. an upper connection layer; 1031. embedding into the mounting groove; 1032. reinforcing the hidden column; 1033. locking the clamping column; 1034. a hollow cavity; 104. a lower connection layer; 105. a glass fiber reinforced plastic panel; 1051. a locking clamping groove; 1052. convex anti-slip ribs; 1053. a convex prism; 1054. oblique ribs; 106. a glass fiber reinforced plastic bottom plate; 1061. embedding a glass fiber reinforced plastic plate; 107. an adhesive layer.

Detailed Description

Referring to fig. 1 to 3, a wear-resistant glass fiber reinforced plastic composite board comprises a composite board body 1, the composite board body 1 comprises a board core layer 101, an upper connecting layer 103 and a glass fiber reinforced plastic panel 105 are sequentially arranged above the board core layer 101 from bottom to top, a lower connecting layer 104 and a glass fiber reinforced plastic bottom plate 106 are sequentially arranged below the board core layer 101 from top to bottom, a high-gloss gel coat layer 102 is fixedly connected to the upper side and the lower side of the board core layer 101, the upper connecting layer 103 and the lower connecting layer 104 are fixedly connected with one side of the board core layer 101 through the high-gloss gel coat layer 102, embedded mounting grooves 1031 are respectively formed in the opposite sides of the upper connecting layer 103 and the lower connecting layer 104, embedded glass fiber reinforced plastic panels 1061 matched with the embedded mounting grooves 1031 are fixedly connected to the opposite sides of the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106, the embedded glass fiber reinforced plastic panels 1061 are fixedly connected with the embedded mounting grooves 1031 through an adhesive layer 107, a honeycomb hole layer 1011 is fixedly connected to the middle of the board core layer 101, a plurality of reinforcing columns 1032 are fixedly connected to the opposite sides of the upper connecting layer 103 and the lower connecting layer 104, and the reinforcing columns 1032 extend to the other ends of the reinforcing columns, and the reinforcing columns extend to the hidden through the hidden columns 1011.

In this embodiment: the upper connecting layer 103 and the lower connecting layer 104 are fixedly connected with the board core layer 101 through the high-gloss gel coat layer 102, and a plurality of reinforcing hidden posts 1032 on one side of the upper connecting layer 103 and the lower connecting layer 104 penetrate through and extend to the inside of the honeycomb hole layer 1011, so that the connection strength of the upper connecting layer 103 and the lower connecting layer 104 with the board core layer 101 is enhanced, and the upper connecting layer 103 and the lower connecting layer 104 are not easy to fall off;

the embedded glass fiber reinforced plastic 1061 on one side of the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106 is fixedly arranged in the embedded mounting groove 1031 through the adhesive layer 107, so that the adhesive strength of the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106 is increased, the embedded glass fiber reinforced plastic 1061 is limited by the embedded mounting groove 1031, the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106 are not easy to misplace, meanwhile, the locking clamping columns 1033 are clamped with the locking clamping grooves 1051, the locking strength between the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106 and the upper connecting layer 103 and the lower connecting layer 104 is enhanced, the glass fiber reinforced plastic composite plate is not easy to break, and meanwhile, the bearing pressure of the glass fiber reinforced plastic composite plate is enhanced by the honeycomb hole layer 1011, and the service life is prolonged;

the upper end of the glass fiber reinforced plastic panel 105 is provided with a plurality of ribs, so that the glass fiber reinforced plastic composite board has better anti-slip performance, the use safety is improved, and meanwhile, the glass fiber reinforced plastic composite board adopts corrosion-resistant and wear-resistant materials, and the service life is prolonged.

As a technical optimization scheme of the utility model, a plurality of locking clamping columns 1033 are fixedly connected to the inner side wall of the embedded mounting groove 1031, and a locking clamping groove 1051 matched with the locking clamping columns 1033 is formed in one side of the embedded glass fiber reinforced plastic plate 1061.

In this embodiment: the locking clamping columns 1033 are clamped with the locking clamping grooves 1051, so that the locking strength between the glass fiber reinforced plastic panel 105 and the glass fiber reinforced plastic bottom plate 106 is enhanced, and the phenomenon of dislocation between two adjacent connecting plates is avoided.

As a technical optimization scheme of the present utility model, a plurality of hollow cavities 1034 are formed in the upper connection layer 103 and the lower connection layer 104.

In this embodiment: the upper connecting layer 103 adopts a PP plastic honeycomb plate, and the hollow cavity 1034 is formed, so that the glass fiber reinforced plastic composite plate has the characteristics of light weight, high strength, corrosion resistance, ageing resistance and impact resistance, and the service life of the glass fiber reinforced plastic composite plate is prolonged.

As a technical optimization scheme of the present utility model, the upper connection layer 103 is an XPS board, and the cellular layer 1011 is a foam board.

In this embodiment: the XPS board has a perfect closed cell honeycomb structure, and the structure enables the glass fiber reinforced plastic composite board to have extremely low water absorption (almost no water absorption), low thermal conductivity, high compression resistance and ageing resistance, and the XPS board and the foam board enable the glass fiber reinforced plastic composite board to have corrosion resistance.

As a technical optimization scheme of the utility model, the lower connecting layer 104 adopts a low-alloy wear-resistant steel plate, and the lower end of the glass fiber reinforced plastic bottom plate 106 is fixed with a chromium-molybdenum-silicon alloy wear-resistant steel plate.

In this embodiment: the low-alloy wear-resistant steel plate and the chromium-molybdenum-silicon alloy wear-resistant steel plate have uniform wear-resistant effect, so that the wear resistance of the glass fiber reinforced plastic composite plate is enhanced.

As a technical optimization scheme of the utility model, the upper end of the glass fiber reinforced plastic panel 105 is fixedly connected with a plurality of uniformly distributed convex anti-slip ribs 1052, the interiors of the convex anti-slip ribs 1052 are fixedly connected with rib columns 1053, and inclined ribs 1054 fixedly connected with the upper end of the glass fiber reinforced plastic panel 105 are arranged between every two adjacent convex anti-slip ribs 1052.

In this embodiment: the anti-slip performance of the upper end of the glass fiber reinforced plastic panel 105 is further enhanced by fixing the convex anti-slip ribs 1052, the convex rib 1053 and the inclined rib 1054 at the upper end of the glass fiber reinforced plastic panel 105.

Working principle: firstly, the upper connecting layer 103 and the lower connecting layer 104 are fixedly connected with the board core layer 101 through the high-gloss gel coat layer 102, and a plurality of reinforcing hidden posts 1032 penetrate and extend into the honeycomb hole layer 1011, so that the connection strength of the upper connecting layer 103 and the lower connecting layer 104 with the board core layer 101 is enhanced, and the upper connecting layer 103 and the lower connecting layer 104 are not easy to fall off;

the embedded glass steel plate 1061 on one side of the glass steel panel 105 and the glass steel bottom plate 106 is fixedly arranged in the embedded mounting groove 1031 through the bonding layer 107, the bonding strength of the glass steel panel 105 and the glass steel bottom plate 106 is increased, the embedded glass steel plate 1061 is limited by the embedded mounting groove 1031, the glass steel panel 105 and the glass steel bottom plate 106 are not easy to misplace, meanwhile, the locking clamping columns 1033 are clamped with the locking clamping grooves 1051, the locking strength between the glass steel panel 105 and the glass steel bottom plate 106 and the upper connecting layer 103 and the lower connecting layer 104 is enhanced, the glass steel composite plate is not easy to break, meanwhile, the bearing pressure of the honeycomb hole layer 1011 is enhanced, the service life is prolonged, a plurality of ribs are arranged at the upper end of the glass steel panel 105, the glass steel composite plate has better anti-skid performance, the use safety is improved, and meanwhile, the glass steel composite plate is made of corrosion-resistant and wear-resistant materials, and the service life is prolonged.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides a wear-resisting glass steel composite board, includes composite board body (1), its characterized in that: the composite board body (1) comprises a board core layer (101), upper connecting layer (103) and glass steel panel (105) are arranged on the upper side of the board core layer (101) from bottom to top in sequence, lower connecting layer (104) and glass steel bottom plate (106) are arranged on the lower side of the board core layer (101) from top to bottom in sequence, high-gloss gel coat layers (102) are fixedly connected on the upper side and the lower side of the board core layer (101) respectively, one side of the upper connecting layer (103) and the lower connecting layer (104) through the high-gloss gel coat layers (102) is fixedly connected with one side of the board core layer (101), embedded mounting grooves (1031) are formed in one side, opposite sides of the glass steel panel (105) and the glass steel bottom plate (106) are fixedly connected with embedded glass steel plates (1061) matched with the embedded mounting grooves (1031), bonding layers (107) are fixedly connected between the embedded glass steel plates (1061) and the embedded mounting grooves, the other ends of the embedded glass steel plates (1031) are fixedly connected with one side of the upper connecting layer (103) and one side of the lower connecting layer (104) opposite to one side of the lower connecting layer (104), and the other ends of the embedded column (1011) are fixedly connected with one side of the embedded column (1011).

2. The wear-resistant glass fiber reinforced plastic composite board as claimed in claim 1, wherein: the inner side wall of the embedded mounting groove (1031) is fixedly connected with a plurality of locking clamping columns (1033), and a locking clamping groove (1051) matched with the locking clamping columns (1033) is formed in one side of the embedded glass fiber reinforced plastic plate (1061).

3. The wear-resistant glass fiber reinforced plastic composite board as claimed in claim 1, wherein: the inside of upper junction layer (103) and lower junction layer (104) has seted up a plurality of hollow cavities (1034).

4. The wear-resistant glass fiber reinforced plastic composite board as claimed in claim 1, wherein: the upper connecting layer (103) is made of XPS plates, and the honeycomb hole layer (1011) is made of foam plates.

5. The wear-resistant glass fiber reinforced plastic composite board as claimed in claim 1, wherein: the lower connecting layer (104) adopts a low-alloy wear-resistant steel plate, and the chromium-molybdenum-silicon alloy wear-resistant steel plate is fixed at the lower end of the glass fiber reinforced plastic bottom plate (106).

6. The wear-resistant glass fiber reinforced plastic composite board as claimed in claim 1, wherein: the upper end fixedly connected with a plurality of evenly distributed protruding anti-skidding arris (1052) of glass steel panel (105), a plurality of protruding anti-skidding arris (1052) inside is all fixedly connected with bead post (1053), all be provided with between a plurality of protruding anti-skidding arris (1052) two by two with glass steel panel (105) upper end fixedly connected's oblique bead (1054).

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