CN205558043U - Combined type carbon -fibre composite reinforcing netting check - Google Patents

Abstract

The utility model relates to a combined type carbon -fibre composite reinforcing netting check belongs to civil engineering technical field, including net and epoxy layer, the net top is equipped with circular perforation, and the bottom is equipped with the waterproof coating, net one side is equipped with PLC controller and fixed bayonet, PLC controller one side is equipped with bluetooth dispensing device, the net inner chamber is equipped with double curved shell, tie coat and lower double curved shell, go up the double curved shell and pass through the tie coat connection lower double curved shell, go up the double curved shell and be connected the epoxy layer with lower double curved shell one side, epoxy in situ chamber is equipped with carbon fiber tensile layer, be equipped with the carbon fiber back up coat in the carbon fiber tensile layer, be equipped with the base member in the carbon fiber back up coat, the base member inner chamber is cavity, epoxy layer one side is equipped with piezoceramic transducer, and the net has improved its horizontal and vertical compressive capacity in the use of shell structure with the carbon fiber, and the structure is light and handy and firm.

Description

A kind of composite material reinforced grid of compound carbon fiber

Technical field

This utility model relates to a kind of composite material reinforced grid of compound carbon fiber, belongs to technical field of civil engineering.

Background technology

nullIn recent years，Along with carbon fibre material ties up the most perfect of manufacturing process，The cost making carbon fiber reinforcement material constantly reduces，Material property based on its high-strength light，Carbon fiber reinforcement network is the most emerging a kind of reinforcement technique，Reinforce main material carbon fiber and there is high-tensile、High elastic modulus、Light weight、Thickness is thin、Corrosion resistance and good、The feature such as easy to use，CFRP strengthening techniques is to utilize resinous material that carbon fiber is pasted on structure or component surface，Carbon fiber is made to form a plyability entirety with concrete，By itself and structure or the collaborative work of component，Improve the bending resistance of structural elements、Shear resistant capacity，Thus reach structural elements reinforcing and the purpose of improving stress performance，It is used widely at building materials field，It is mainly manifested in following aspect: vertically and horizontally combine affixing carbon fabric，Realize the raising of bearing capacity and ductility simultaneously，Longitudinal carbon cloth can resist bigger tension，Suppression transverse grid cracks can spread，Lateral loops bundle carbon cloth can be effectively improved grid shear resistance，Furniture decoration field at present，The grid of ceiling is reinforced mainly reinforcement by sticking of sheets、Glass fiber mesh、Use organic plastics etc.，But it is little that it is faced with resistance to bearing capacity，Heavier mass，Easy-to-rust，The shortcomings such as Nian Jiuyi is aging，Use rear grid of long duration yielding，Even rupture，Grid is reinforced needs one more to have effective reinforcement technique.

Summary of the invention

The technical problems to be solved in the utility model overcomes existing defect, a kind of composite material reinforced grid of compound carbon fiber is provided, by using shell structure, make grid force dispersion uniform, grid bearing capacity is higher, carbon fibre materials is compound with epoxy resin to add, make network light and handy, structure connects tightr, the firmest, resistance to compression promotes a grade with resistance to tension, avoid grid to rupture simultaneously, outside waterproof coating effectively prevents it by moldy metamorphism after water, it is aging that composite makes grid be difficult to, add sensor and can monitor pressure change in real time, once damage, can change rapidly.

In order to solve above-mentioned technical problem, this utility model provides following technical scheme:

A kind of composite material reinforced grid of compound carbon fiber, including grid and epoxy resin layer, described grid top is provided with circular perforations, bottom is provided with waterproof coating, described grid side is provided with PLC and fixing bayonet socket, described PLC side is provided with bluetooth dispensing device, and described grid inner chamber is provided with double curved shell, tack coat

With lower double curved shell, described upper double curved shell connects described lower double curved shell by tack coat, described upper double curved shell is connected epoxy resin layer with lower double curved shell side, described epoxy resin layer inner chamber is provided with carbon fiber tensile layer, it is provided with carbon fiber reinforcement layer in described carbon fiber tensile layer, being provided with matrix in described carbon fiber reinforcement layer, described matrix inner chamber is hollow, and described epoxy resin layer side is provided with piezoceramic transducer.

Furthermore, described upper double curved shell, tack coat and lower double curved shell interval are placed between described circular perforations.

Furthermore, described waterproof coating material is polyurethane.Furthermore, described solar panel is electrically connected with described savings battery.

Furthermore, described PLC is electrically connected with described piezoceramic transducer and described bluetooth dispensing device.

Furthermore, described matrix is hard aluminium alloy.

This utility model beneficial effect: by using shell structure, making grid force dispersion uniform, grid bearing capacity is higher, and carbon fibre materials is compound with epoxy resin to add, structure connects tightr, the firmest, resistance to compression promotes a grade with resistance to tension, avoids grid to rupture simultaneously, outside waterproof coating effectively prevents it by moldy metamorphism after water, add sensor and can monitor pressure change in real time, once damage, can change rapidly.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, is not intended that restriction of the present utility model together with embodiment of the present utility model.

Fig. 1 is this utility model one compound carbon fiber composite material reinforced network figure.

Fig. 2 is this utility model one compound carbon fiber composite material reinforced grid epoxy resin layer tangent plane structure chart.

Label in figure: 1, grid；2, epoxy resin layer；3, circular perforations；4, waterproof coating；5, PLC；6, fixing bayonet socket；7, bluetooth dispensing device；8, upper double curved shell；9, tack coat；10, lower double curved shell；11, carbon fiber tensile layer；12, carbon fiber reinforcement layer；13, matrix；14, piezoceramic transducer.

Detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is illustrated, it will be appreciated that preferred embodiment described herein is merely to illustrate and explains this utility model, be not used to limit this utility model.

As Figure 1-Figure 2, a kind of composite material reinforced grid of compound carbon fiber, including grid 1 and ring

Epoxy layer 2, described grid 1 top is provided with circular perforations 3, bottom is provided with waterproof coating 4, described grid 1 side is provided with PLC 5 and fixing bayonet socket 6, described PLC 5 side is provided with bluetooth dispensing device 7, described grid 1 inner chamber is provided with double curved shell 8, tack coat 9 and lower double curved shell 10, described upper double curved shell 8 connects described lower double curved shell 10 by tack coat 9, described upper double curved shell 8 is connected described epoxy resin layer 2 with lower double curved shell 10 side, described epoxy resin layer 2 inner chamber is provided with carbon fiber tensile layer 11, it is provided with carbon fiber reinforcement layer 12 in described carbon fiber tensile layer 11, it is provided with matrix 13 in described carbon fiber reinforcement layer 12, described matrix 13 inner chamber is hollow, described epoxy resin layer 2 side is provided with piezoceramic transducer 14.

More specifically, described upper double curved shell 8, tack coat 9 and lower double curved shell 10 interval are placed between described circular perforations 3, are spaced apart and contribute to conservation, and shell structure makes grid have more preferable bearing capacity.

More specifically, described waterproof coating 4 material is polyurethane, and its intensity is high, and elongation percentage is big, water-tolerant.

More specifically, described PLC 5 is electrically connected with described piezoceramic transducer 14 and described bluetooth dispensing device 7, is monitored the change of grid pressure by sensor in real time, and passes through Bluetooth transmission, it is simple to Real-time Collection grid stressing conditions data.

More specifically, described matrix 13 is hard aluminium alloy, the firmest.

This utility model improve in: by use shell structure, make grid force dispersion uniform, grid bearing capacity is higher, carbon fibre materials is compound with epoxy resin to add, structure connects more tight, the firmest, and resistance to compression promotes a grade with resistance to tension, avoiding grid to rupture, outside waterproof coating effectively prevents it by moldy metamorphism after water simultaneously.

It it is more than this utility model preferably embodiment; above-mentioned embodiment can also be changed and revise by this utility model those skilled in the art; therefore; this utility model is not limited to above-mentioned detailed description of the invention, and any conspicuously improved, replacement or modification that every those skilled in the art are made on the basis of this utility model belong to protection domain of the present utility model.

Claims (5)

1. null1. the composite material reinforced grid of compound carbon fiber，Including grid (1)、Epoxy resin layer (2)，It is characterized in that，Described grid (1) top is provided with circular perforations (3)，Bottom is provided with waterproof coating (4)，Described grid (1) side is provided with PLC (5) and fixing bayonet socket (6)，Described PLC (5) side is provided with bluetooth dispensing device (7)，Described grid (1) inner chamber is provided with double curved shell (8)、Tack coat (9) and lower double curved shell (10)，Described upper double curved shell (8) connects described lower double curved shell (10) by tack coat (9)，Described upper double curved shell (8) is connected described epoxy resin layer (2) with lower double curved shell (10) side，Described epoxy resin layer (2) inner chamber is provided with carbon fiber tensile layer (11)，It is provided with carbon fiber reinforcement layer (12) in described carbon fiber tensile layer (11)，It is provided with matrix (13) in described carbon fiber reinforcement layer (12)，Described matrix (13) inner chamber is hollow，Described epoxy resin layer (2) side is provided with piezoceramic transducer (14).
2. A kind of composite material reinforced grid of compound carbon fiber, it is characterised in that: described upper double curved shell (8), tack coat (9) and lower double curved shell (10) interval are placed between described circular perforations (3).
3. A kind of composite material reinforced grid of compound carbon fiber, it is characterised in that: described waterproof coating (4) material is polyurethane.
4. A kind of composite material reinforced grid of compound carbon fiber, it is characterised in that: described PLC (5) is electrically connected with described piezoceramic transducer (14) and described bluetooth dispensing device (7).
5. A kind of composite material reinforced grid of compound carbon fiber, it is characterised in that: described matrix (13) is hard aluminium alloy.