CN213898228U - Carbon fiber grid - Google Patents
Carbon fiber grid Download PDFInfo
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- CN213898228U CN213898228U CN202021493036.5U CN202021493036U CN213898228U CN 213898228 U CN213898228 U CN 213898228U CN 202021493036 U CN202021493036 U CN 202021493036U CN 213898228 U CN213898228 U CN 213898228U
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Abstract
The utility model provides a carbon fiber grid, it includes a plurality of first carbon fibers, a plurality of second carbon fibers, a plurality of third carbon fibers, a serial communication port, first carbon fiber, second carbon fiber vertically set up, the horizontal setting of third carbon fiber vertically set up a plurality of first carbon fibers, a plurality of second carbon fibers and a plurality of third carbon fibers staggered connection who transversely sets up become reinforcement net and for latticedly, first carbon fiber and second carbon fiber set up side by side and the third carbon fiber passes from between first carbon fiber and the second carbon fiber, the crisscross winding in first carbon fiber, second carbon fiber both sides have hot melt line one. This carbon fiber net makes every net size even through crisscross winding in the hot melt line one of first carbon fiber, second carbon fiber both sides to it is more firm to make the last fashioned carbon fiber net.
Description
Technical Field
The utility model belongs to the technical field of the building, a carbon fiber net is related to.
Background
The traditional reinforcing material mainly comprises reinforced concrete and metal materials, the reinforced concrete reinforcing construction is complex, the occupied space is large, the reinforcing cost per unit area is high, and the reinforcing steel bars are easy to corrode; the metal material consolidates and is given first place with gluing steel and outsourcing shaped steel reinforcement, paste the steel sheet on the reinforcement surface through the epoxy gluing agent, thereby bear stress with the reinforcement jointly, but can increase and be consolidated and found the dead weight, steel is easy to corrode simultaneously, corrosion resistance and durability are poor, use comparatively to limit, carbon-fibre composite is because the light is high-strength, characteristics such as corrosion resistance excellence and fire prevention are used for the reinforced material gradually, present carbon-fibre reinforced material mainly with carbon cloth and carbon-fibre board are many, paste on the reinforcement surface through supporting epoxy gluing agent, the construction is simple and the reinforcement effect is obvious. The traditional carbon fiber grid has low firmness.
SUMMERY OF THE UTILITY MODEL
The utility model aims at having the above-mentioned problem to current technique, provided a carbon fiber net, this carbon fiber net makes every net size even through crisscross winding in the hot melt line of first carbon fiber, second carbon fiber both sides to it is more firm to make last fashioned carbon fiber net.
The purpose of the utility model can be realized by the following technical proposal: the utility model provides a carbon fiber grid, it includes a plurality of first carbon fibers, a plurality of second carbon fibers, a plurality of third carbon fibers, its characterized in that, first carbon fiber, second carbon fiber vertically set up, the third carbon fiber transversely set up vertically a plurality of first carbon fibers, a plurality of second carbon fibers and a plurality of third carbon fibers staggered connection who transversely sets up become reinforcement net and reinforcement net for latticedly, first carbon fiber and second carbon fiber set up side by side and the third carbon fiber passes from between first carbon fiber and the second carbon fiber, first carbon fiber, the crisscross winding in second carbon fiber both sides have hot fusible line one.
Firstly, this carbon fiber net comprises a plurality of first carbon fibers, a plurality of second carbon fibers, a plurality of third carbon fibers, first carbon fiber sets up side by side with the second carbon fiber and the third carbon fiber passes between first carbon fiber and the second carbon fiber to form the reinforcement net, and first carbon fiber, the crisscross winding in second carbon fiber both sides has hot melt line one, hot melt line one with first carbon fiber, the second carbon fiber is fixed on the third carbon fiber, make every net more even, make the net firmness after the shaping better.
Furthermore, the third carbon fibers have the same transverse penetrating mode, and the adjacent two third carbon fibers have opposite penetrating modes. Reinforcing nets with opposite penetrating modes of adjacent third carbon fibers are not easy to scatter.
Furthermore, two sides of the third carbon fiber are wound with a second hot-melt wire in a staggered manner. The second hot melting line fixes the third carbon fiber at the first carbon fiber and the second carbon fiber, and the first hot melting line firmly fixes the first carbon fiber, the second carbon fiber and the third carbon fiber at a position, so that the grid is more uniform, and the firmness after molding is improved.
Furthermore, the reinforcing net is rectangular or square, the width of the reinforcing net is 1m, and the length of the reinforcing net is 100 m.
Furthermore, the transverse grid intervals and the longitudinal grid intervals of the reinforcing net are equal and are 2 cm.
Furthermore, the widths and thicknesses of the first carbon fiber and the second carbon fiber are equal, and the width of the third carbon fiber is larger than those of the first carbon fiber and the second carbon fiber.
Further, the thickness of the first carbon fiber, the second carbon fiber and the third carbon fiber is 0.1 mm.
Compared with the prior art, the carbon fiber grid has the advantages that:
1. this carbon fiber net makes every net size even through crisscross winding in the hot melt line one of first carbon fiber, second carbon fiber both sides to it is more firm to make the last fashioned carbon fiber net.
2. Reinforcing nets with opposite penetrating modes of adjacent third carbon fibers are not easy to scatter.
3. The second hot melting line fixes the third carbon fiber at the first carbon fiber and the second carbon fiber, and the first hot melting line firmly fixes the first carbon fiber, the second carbon fiber and the third carbon fiber at a position, so that the grid is more uniform, and the firmness after molding is improved.
Drawings
Fig. 1 is a schematic structural view of a carbon fiber mesh.
In the figure, 1, a first carbon fiber; 2. a second carbon fiber; 3. a third carbon fiber; 4. a first hot-melting wire; 5. and a second hot-melting wire.
Detailed Description
The following is a detailed embodiment of the present invention and the accompanying drawings are incorporated to further describe the technical solution of the present invention.
As shown in fig. 1, a carbon fiber grid includes a plurality of first carbon fibers 1, a plurality of second carbon fibers 2, and a plurality of third carbon fibers 3, and is characterized in that the first carbon fibers 1 and the second carbon fibers 2 are vertically arranged, the third carbon fibers 3 are horizontally arranged, the plurality of first carbon fibers 1 and the plurality of second carbon fibers 2 which are vertically arranged are connected with the plurality of third carbon fibers 3 which are horizontally arranged in a staggered manner to form a reinforcing mesh, the reinforcing mesh is in a grid shape, the first carbon fibers 1 and the second carbon fibers 2 are arranged side by side, the third carbon fibers 3 pass through the space between the first carbon fibers 1 and the second carbon fibers 2, and hot melt lines 4 are alternately wound on two sides of the first carbon fibers 1 and the second carbon fibers 2.
The third carbon fibers 3 have the same transverse penetrating mode, and the adjacent two third carbon fibers 3 have opposite penetrating modes. The reinforcing nets with the opposite penetrating modes of the adjacent third carbon fibers 3 are not easy to scatter.
And two sides of the third carbon fiber 3 are alternately wound with second hot melt wires 5. Hot melt line two 5 fixes third carbon fiber 3 at first carbon fiber 1, second carbon fiber 2, with hot melt line 4 with first carbon fiber 1, second carbon fiber 2 and 3 three's of third carbon fiber firmly fix a position, make the net more even, promote the firmness after the shaping.
The reinforcing net is rectangular or square, the width of the reinforcing net is 1m, and the length of the reinforcing net is 100 m.
The transverse and longitudinal grid intervals of the reinforcing net are equal and are 2 cm.
The widths and the thicknesses of the first carbon fiber 1 and the second carbon fiber 2 are equal, and the width of the third carbon fiber 3 is larger than those of the first carbon fiber 1 and the second carbon fiber 2.
The thickness of the first carbon fiber 1, the second carbon fiber 2 and the third carbon fiber 3 is 0.1 mm.
This carbon fiber net makes every net size even through crisscross winding 4 hot melt line in first carbon fiber 1, the 2 both sides of second carbon fiber to make the last fashioned carbon fiber net more firm.
The length and the width of the carbon fiber grid and the size of the grid of the reinforcing net can be customized according to actual requirements.
Firstly, this carbon fiber net is by a plurality of first carbon fiber 1, a plurality of second carbon fiber 2, a plurality of third carbon fiber 3 is constituteed, first carbon fiber 1 sets up side by side with second carbon fiber 2 and third carbon fiber 3 passes between first carbon fiber 1 and second carbon fiber 2, thereby form the reinforcement net, and first carbon fiber 1, the crisscross winding in 2 both sides of second carbon fiber has hot melt line one 4, hot melt line one 4 is with first carbon fiber 1, second carbon fiber 2 fixes on third carbon fiber 3, make every net more even, the net firmness after making the shaping is better.
Claims (7)
1. The utility model provides a carbon fiber grid, it includes a plurality of first carbon fibers, a plurality of second carbon fibers, a plurality of third carbon fibers, its characterized in that, first carbon fiber, second carbon fiber vertically set up, the third carbon fiber transversely set up vertically a plurality of first carbon fibers, a plurality of second carbon fibers and a plurality of third carbon fibers staggered connection who transversely sets up become reinforcement net and reinforcement net for latticedly, first carbon fiber and second carbon fiber set up side by side and the third carbon fiber passes from between first carbon fiber and the second carbon fiber, first carbon fiber, the crisscross winding in second carbon fiber both sides have hot fusible line one.
2. The carbon fiber mesh according to claim 1, wherein the third carbon fibers are transversely arranged in the same manner, and adjacent third carbon fibers are arranged in the opposite manner.
3. The carbon fiber mesh grid according to claim 1, wherein the third carbon fibers are wrapped with the second fusible links in a staggered manner.
4. A carbon fibre mesh as in claim 1, wherein said reinforcing mesh is rectangular and has a width of 1m and a length of 100 m.
5. A carbon fibre mesh as in claim 1, wherein said reinforcing mesh has equal transverse and longitudinal mesh spacing of 2 cm.
6. The carbon fiber mesh according to claim 1, wherein the first carbon fiber and the second carbon fiber have the same width and thickness, and the third carbon fiber has a larger width than the first carbon fiber and the second carbon fiber.
7. The carbon fiber mesh as recited in claim 1, wherein said first carbon fiber, said second carbon fiber and said third carbon fiber have a thickness of 0.1 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021493036.5U CN213898228U (en) | 2020-07-24 | 2020-07-24 | Carbon fiber grid |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021493036.5U CN213898228U (en) | 2020-07-24 | 2020-07-24 | Carbon fiber grid |
Publications (1)
Publication Number | Publication Date |
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CN213898228U true CN213898228U (en) | 2021-08-06 |
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CN202021493036.5U Active CN213898228U (en) | 2020-07-24 | 2020-07-24 | Carbon fiber grid |
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2020
- 2020-07-24 CN CN202021493036.5U patent/CN213898228U/en active Active
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